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SYNONYM #### According to The Catalogue of Life, 3rd January 2011 #### Published in null #### Original name null ### Remarks null
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<!DOCTYPE html> <html lang="en"> <head> <title>GPKGGriddedTile Class Reference</title> <link rel="stylesheet" type="text/css" href="../css/jazzy.css" /> <link rel="stylesheet" type="text/css" href="../css/highlight.css" /> <meta charset='utf-8'> <script src="../js/jquery.min.js" defer></script> <script src="../js/jazzy.js" defer></script> <script src="../js/lunr.min.js" defer></script> <script src="../js/typeahead.jquery.js" defer></script> <script src="../js/jazzy.search.js" defer></script> </head> <body> <a name="//apple_ref/objc/Class/GPKGGriddedTile" class="dashAnchor"></a> <a title="GPKGGriddedTile Class Reference"></a> <header> <div class="content-wrapper"> <p><a href="../index.html">geopackage-ios 7.3.0 Docs</a> (85% documented)</p> <p class="header-right"><a href="https://github.com/ngageoint/geopackage-ios"><img src="../img/gh.png" alt="GitHub"/>View on GitHub</a></p> <div class="header-right"> <form role="search" action="../search.json"> <input type="text" placeholder="Search documentation" data-typeahead> </form> </div> </div> </header> <div class="content-wrapper"> <p id="breadcrumbs"> <a href="../index.html">geopackage-ios Reference</a> <img id="carat" src="../img/carat.png" alt=""/> GPKGGriddedTile Class Reference </p> </div> <div class="content-wrapper"> <nav class="sidebar"> <ul class="nav-groups"> <li class="nav-group-name"> <a href="../Classes.html">Classes</a> <ul class="nav-group-tasks"> <li class="nav-group-task"> <a href="../Classes/CLRColor.html">CLRColor</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSAbridgedCoordinateTransformation.html">CRSAbridgedCoordinateTransformation</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSAxis.html">CRSAxis</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSAxisDirectionTypes.html">CRSAxisDirectionTypes</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSBoundCoordinateReferenceSystem.html">CRSBoundCoordinateReferenceSystem</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSCategoryTypes.html">CRSCategoryTypes</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSCommon.html">CRSCommon</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSCompoundCoordinateReferenceSystem.html">CRSCompoundCoordinateReferenceSystem</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSConcatenatedOperation.html">CRSConcatenatedOperation</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSCoordinateMetadata.html">CRSCoordinateMetadata</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSCoordinateOperation.html">CRSCoordinateOperation</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSCoordinateReferenceSystem.html">CRSCoordinateReferenceSystem</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSCoordinateSystem.html">CRSCoordinateSystem</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSCoordinateSystemTypes.html">CRSCoordinateSystemTypes</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSDateTime.html">CRSDateTime</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSDatumEnsemble.html">CRSDatumEnsemble</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSDatumEnsembleMember.html">CRSDatumEnsembleMember</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSDerivedCoordinateReferenceSystem.html">CRSDerivedCoordinateReferenceSystem</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSDerivingConversion.html">CRSDerivingConversion</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSDynamic.html">CRSDynamic</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSEllipsoid.html">CRSEllipsoid</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSEllipsoidTypes.html">CRSEllipsoidTypes</a> </li> <li class="nav-group-task"> <a href="../Classes/CRSEllipsoids.html">CRSEllipsoids</a> </li> <li class="nav-group-task"> <a 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href="../Constants.html#/c:@CRS_PROJ_AXIS_WEST_SOUTH_UP">CRS_PROJ_AXIS_WEST_SOUTH_UP</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_AEA">CRS_PROJ_NAME_AEA</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_CASS">CRS_PROJ_NAME_CASS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_CEA">CRS_PROJ_NAME_CEA</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_EQC">CRS_PROJ_NAME_EQC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_KROVAK">CRS_PROJ_NAME_KROVAK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_LAEA">CRS_PROJ_NAME_LAEA</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_LCC">CRS_PROJ_NAME_LCC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_LONGLAT">CRS_PROJ_NAME_LONGLAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_MERC">CRS_PROJ_NAME_MERC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_NZMG">CRS_PROJ_NAME_NZMG</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_OMERC">CRS_PROJ_NAME_OMERC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_POLY">CRS_PROJ_NAME_POLY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_SOMERC">CRS_PROJ_NAME_SOMERC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_STERE">CRS_PROJ_NAME_STERE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_STEREA">CRS_PROJ_NAME_STEREA</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_TMERC">CRS_PROJ_NAME_TMERC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_NAME_UTM">CRS_PROJ_NAME_UTM</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_A">CRS_PROJ_PARAM_A</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_ALPHA">CRS_PROJ_PARAM_ALPHA</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_AXIS">CRS_PROJ_PARAM_AXIS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_B">CRS_PROJ_PARAM_B</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_DATUM">CRS_PROJ_PARAM_DATUM</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_ELLPS">CRS_PROJ_PARAM_ELLPS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_GAMMA">CRS_PROJ_PARAM_GAMMA</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_K_0">CRS_PROJ_PARAM_K_0</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_LAT_0">CRS_PROJ_PARAM_LAT_0</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_LAT_1">CRS_PROJ_PARAM_LAT_1</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_LAT_2">CRS_PROJ_PARAM_LAT_2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_LAT_TS">CRS_PROJ_PARAM_LAT_TS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_LONC">CRS_PROJ_PARAM_LONC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_LON_0">CRS_PROJ_PARAM_LON_0</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_NADGRIDS">CRS_PROJ_PARAM_NADGRIDS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_NO_DEFS">CRS_PROJ_PARAM_NO_DEFS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_NO_UOFF">CRS_PROJ_PARAM_NO_UOFF</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_PM">CRS_PROJ_PARAM_PM</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_PROJ">CRS_PROJ_PARAM_PROJ</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_SOUTH">CRS_PROJ_PARAM_SOUTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_TOWGS84">CRS_PROJ_PARAM_TOWGS84</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_TO_METER">CRS_PROJ_PARAM_TO_METER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_UNITS">CRS_PROJ_PARAM_UNITS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_WKTEXT">CRS_PROJ_PARAM_WKTEXT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_X_0">CRS_PROJ_PARAM_X_0</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_Y_0">CRS_PROJ_PARAM_Y_0</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PARAM_ZONE">CRS_PROJ_PARAM_ZONE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_PSEUDO_MERCATOR">CRS_PROJ_PSEUDO_MERCATOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_SWISS_OBLIQUE_MERCATOR">CRS_PROJ_SWISS_OBLIQUE_MERCATOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_SWISS_OBLIQUE_MERCATOR_COMPAT">CRS_PROJ_SWISS_OBLIQUE_MERCATOR_COMPAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_UNITS_DEGREE">CRS_PROJ_UNITS_DEGREE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_UNITS_FOOT">CRS_PROJ_UNITS_FOOT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_UNITS_METRE">CRS_PROJ_UNITS_METRE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_UNITS_US_SURVEY_FOOT">CRS_PROJ_UNITS_US_SURVEY_FOOT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_PROJ_UTM_ZONE">CRS_PROJ_UTM_ZONE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_BOUND_NAME">CRS_TYPE_BOUND_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_COMPOUND_NAME">CRS_TYPE_COMPOUND_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_CONCATENATED_OPERATION_NAME">CRS_TYPE_CONCATENATED_OPERATION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_COORDINATE_METADATA_NAME">CRS_TYPE_COORDINATE_METADATA_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_COORDINATE_OPERATION_NAME">CRS_TYPE_COORDINATE_OPERATION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_DERIVED_NAME">CRS_TYPE_DERIVED_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_ENGINEERING_NAME">CRS_TYPE_ENGINEERING_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_GEODETIC_NAME">CRS_TYPE_GEODETIC_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_GEOGRAPHIC_NAME">CRS_TYPE_GEOGRAPHIC_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_PARAMETRIC_NAME">CRS_TYPE_PARAMETRIC_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_POINT_MOTION_OPERATION_NAME">CRS_TYPE_POINT_MOTION_OPERATION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_PROJECTED_NAME">CRS_TYPE_PROJECTED_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_TEMPORAL_NAME">CRS_TYPE_TEMPORAL_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_TYPE_VERTICAL_NAME">CRS_TYPE_VERTICAL_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_ARC_MINUTE_NAME">CRS_UNITS_ARC_MINUTE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_ARC_SECOND_NAME">CRS_UNITS_ARC_SECOND_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_BIN_NAME">CRS_UNITS_BIN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_CALENDAR_MONTH_NAME">CRS_UNITS_CALENDAR_MONTH_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_CALENDAR_SECOND_NAME">CRS_UNITS_CALENDAR_SECOND_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_DAY_NAME">CRS_UNITS_DAY_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_DEGREE_NAME">CRS_UNITS_DEGREE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_FOOT_NAME">CRS_UNITS_FOOT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_GERMAN_LEGAL_METRE_NAME">CRS_UNITS_GERMAN_LEGAL_METRE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_GRAD_NAME">CRS_UNITS_GRAD_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_HECTOPASCAL_NAME">CRS_UNITS_HECTOPASCAL_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_HOUR_NAME">CRS_UNITS_HOUR_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_KILOMETRE_NAME">CRS_UNITS_KILOMETRE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_METRE_NAME">CRS_UNITS_METRE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_MICROMETRE_NAME">CRS_UNITS_MICROMETRE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_MICRORADIAN_NAME">CRS_UNITS_MICRORADIAN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_MICROSECOND_NAME">CRS_UNITS_MICROSECOND_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_MILLIMETRE_NAME">CRS_UNITS_MILLIMETRE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_MILLIRADIAN_NAME">CRS_UNITS_MILLIRADIAN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_MILLISECOND_NAME">CRS_UNITS_MILLISECOND_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_MINUTE_NAME">CRS_UNITS_MINUTE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_PARTS_PER_MILLION_NAME">CRS_UNITS_PARTS_PER_MILLION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_PASCAL_NAME">CRS_UNITS_PASCAL_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_RADIAN_NAME">CRS_UNITS_RADIAN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_SECOND_NAME">CRS_UNITS_SECOND_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_UNITY_NAME">CRS_UNITS_UNITY_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_US_SURVEY_FOOT_NAME">CRS_UNITS_US_SURVEY_FOOT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNITS_YEAR_NAME">CRS_UNITS_YEAR_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNIT_ANGLE_NAME">CRS_UNIT_ANGLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNIT_LENGTH_NAME">CRS_UNIT_LENGTH_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNIT_NAME">CRS_UNIT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNIT_PARAMETRIC_NAME">CRS_UNIT_PARAMETRIC_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNIT_SCALE_NAME">CRS_UNIT_SCALE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_UNIT_TIME_NAME">CRS_UNIT_TIME_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_AXIS_ABBREV_LEFT_DELIMITER">CRS_WKT_AXIS_ABBREV_LEFT_DELIMITER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_AXIS_ABBREV_RIGHT_DELIMITER">CRS_WKT_AXIS_ABBREV_RIGHT_DELIMITER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_AXIS_DIRECTION_OTHER">CRS_WKT_AXIS_DIRECTION_OTHER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_AXIS_NAME_LAT">CRS_WKT_AXIS_NAME_LAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_AXIS_NAME_LON">CRS_WKT_AXIS_NAME_LON</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_AXIS_NAME_X">CRS_WKT_AXIS_NAME_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_AXIS_NAME_Y">CRS_WKT_AXIS_NAME_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_AXIS_NAME_Z">CRS_WKT_AXIS_NAME_Z</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_DATUM_TYPE">CRS_WKT_DATUM_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_LEFT_DELIMITER">CRS_WKT_LEFT_DELIMITER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_LEFT_DELIMITER_COMPAT">CRS_WKT_LEFT_DELIMITER_COMPAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_RIGHT_DELIMITER">CRS_WKT_RIGHT_DELIMITER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_RIGHT_DELIMITER_COMPAT">CRS_WKT_RIGHT_DELIMITER_COMPAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@CRS_WKT_SEPARATOR">CRS_WKT_SEPARATOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGUserTable.h@DEFAULT_AUTOINCREMENT">DEFAULT_AUTOINCREMENT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGFeatureTiles.h@DEFAULT_BOUNDING_BOX_CACHE_SIZE">DEFAULT_BOUNDING_BOX_CACHE_SIZE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGFeatureCache.h@DEFAULT_FEATURE_CACHE_MAX_SIZE">DEFAULT_FEATURE_CACHE_MAX_SIZE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGIconCache.h@DEFAULT_ICON_CACHE_SIZE">DEFAULT_ICON_CACHE_SIZE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGFeatureTiles.h@DEFAULT_MAP_SHAPE_CACHE_SIZE">DEFAULT_MAP_SHAPE_CACHE_SIZE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGUserTable.h@DEFAULT_PK_NOT_NULL">DEFAULT_PK_NOT_NULL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:SFByteReader.h@DEFAULT_READ_BYTE_ORDER">DEFAULT_READ_BYTE_ORDER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGUserColumn.h@DEFAULT_VALUE_CONSTRAINT_ORDER">DEFAULT_VALUE_CONSTRAINT_ORDER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:SFByteWriter.h@DEFAULT_WRITE_BYTE_ORDER">DEFAULT_WRITE_BYTE_ORDER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_APPLICATION_ID">GPKG_APPLICATION_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_BUNDLE_NAME">GPKG_BUNDLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDA_BICUBIC_NAME">GPKG_CDA_BICUBIC_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDA_BILINEAR_NAME">GPKG_CDA_BILINEAR_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDA_NEAREST_NEIGHBOR_NAME">GPKG_CDA_NEAREST_NEIGHBOR_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_DATATYPE">GPKG_CDGC_COLUMN_DATATYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_DATA_NULL">GPKG_CDGC_COLUMN_DATA_NULL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_FIELD_NAME">GPKG_CDGC_COLUMN_FIELD_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_GRID_CELL_ENCODING">GPKG_CDGC_COLUMN_GRID_CELL_ENCODING</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_ID">GPKG_CDGC_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_OFFSET">GPKG_CDGC_COLUMN_OFFSET</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_PK">GPKG_CDGC_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_PRECISION">GPKG_CDGC_COLUMN_PRECISION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_QUANTITY_DEFINITION">GPKG_CDGC_COLUMN_QUANTITY_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_SCALE">GPKG_CDGC_COLUMN_SCALE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_TILE_MATRIX_SET_NAME">GPKG_CDGC_COLUMN_TILE_MATRIX_SET_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_COLUMN_UOM">GPKG_CDGC_COLUMN_UOM</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGC_TABLE_NAME">GPKG_CDGC_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_ID">GPKG_CDGT_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_MAX">GPKG_CDGT_COLUMN_MAX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_MEAN">GPKG_CDGT_COLUMN_MEAN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_MIN">GPKG_CDGT_COLUMN_MIN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_OFFSET">GPKG_CDGT_COLUMN_OFFSET</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_PK">GPKG_CDGT_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_SCALE">GPKG_CDGT_COLUMN_SCALE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_STANDARD_DEVIATION">GPKG_CDGT_COLUMN_STANDARD_DEVIATION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_TABLE_ID">GPKG_CDGT_COLUMN_TABLE_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_COLUMN_TABLE_NAME">GPKG_CDGT_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDGT_TABLE_NAME">GPKG_CDGT_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDT_ATTRIBUTES_NAME">GPKG_CDT_ATTRIBUTES_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDT_FEATURES_NAME">GPKG_CDT_FEATURES_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CDT_TILES_NAME">GPKG_CDT_TILES_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CD_GRIDDED_COVERAGE">GPKG_CD_GRIDDED_COVERAGE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CF_JPEG_NAME">GPKG_CF_JPEG_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CF_NONE_NAME">GPKG_CF_NONE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CF_PNG_NAME">GPKG_CF_PNG_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CI_COLUMN_ID">GPKG_CI_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CI_COLUMN_PK">GPKG_CI_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CI_COLUMN_TABLE_NAME">GPKG_CI_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CI_TABLE_NAME">GPKG_CI_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CONSTRAINT">GPKG_CONSTRAINT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_DATA_TYPE">GPKG_CON_COLUMN_DATA_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_DESCRIPTION">GPKG_CON_COLUMN_DESCRIPTION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_IDENTIFIER">GPKG_CON_COLUMN_IDENTIFIER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_LAST_CHANGE">GPKG_CON_COLUMN_LAST_CHANGE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_MAX_X">GPKG_CON_COLUMN_MAX_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_MAX_Y">GPKG_CON_COLUMN_MAX_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_MIN_X">GPKG_CON_COLUMN_MIN_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_MIN_Y">GPKG_CON_COLUMN_MIN_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_PK">GPKG_CON_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_SRS_ID">GPKG_CON_COLUMN_SRS_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_COLUMN_TABLE_NAME">GPKG_CON_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CON_TABLE_NAME">GPKG_CON_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CRS_WKT_EXTENSION_NAME">GPKG_CRS_WKT_EXTENSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CT_AUTOINCREMENT_NAME">GPKG_CT_AUTOINCREMENT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CT_CHECK_NAME">GPKG_CT_CHECK_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CT_COLLATE_NAME">GPKG_CT_COLLATE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CT_DEFAULT_NAME">GPKG_CT_DEFAULT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CT_FOREIGN_KEY_NAME">GPKG_CT_FOREIGN_KEY_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CT_NOT_NULL_NAME">GPKG_CT_NOT_NULL_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CT_PRIMARY_KEY_NAME">GPKG_CT_PRIMARY_KEY_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_CT_UNIQUE_NAME">GPKG_CT_UNIQUE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCCT_ENUM_NAME">GPKG_DCCT_ENUM_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCCT_GLOB_NAME">GPKG_DCCT_GLOB_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCCT_RANGE_NAME">GPKG_DCCT_RANGE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCC_COLUMN_CONSTRAINT_NAME">GPKG_DCC_COLUMN_CONSTRAINT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCC_COLUMN_CONSTRAINT_TYPE">GPKG_DCC_COLUMN_CONSTRAINT_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCC_COLUMN_DESCRIPTION">GPKG_DCC_COLUMN_DESCRIPTION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCC_COLUMN_MAX">GPKG_DCC_COLUMN_MAX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCC_COLUMN_MAX_IS_INCLUSIVE">GPKG_DCC_COLUMN_MAX_IS_INCLUSIVE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCC_COLUMN_MIN">GPKG_DCC_COLUMN_MIN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCC_COLUMN_MIN_IS_INCLUSIVE">GPKG_DCC_COLUMN_MIN_IS_INCLUSIVE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCC_COLUMN_VALUE">GPKG_DCC_COLUMN_VALUE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCC_TABLE_NAME">GPKG_DCC_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCM_CONTENT_TYPE_NAME">GPKG_DCM_CONTENT_TYPE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCM_DATE_NAME">GPKG_DCM_DATE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCM_DESCRIPTION_NAME">GPKG_DCM_DESCRIPTION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCM_FORMAT_NAME">GPKG_DCM_FORMAT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCM_IDENTIFIER_NAME">GPKG_DCM_IDENTIFIER_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCM_ID_NAME">GPKG_DCM_ID_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCM_SOURCE_NAME">GPKG_DCM_SOURCE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DCM_TITLE_NAME">GPKG_DCM_TITLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_COLUMN_COLUMN_NAME">GPKG_DC_COLUMN_COLUMN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_COLUMN_CONSTRAINT_NAME">GPKG_DC_COLUMN_CONSTRAINT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_COLUMN_DESCRIPTION">GPKG_DC_COLUMN_DESCRIPTION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_COLUMN_MIME_TYPE">GPKG_DC_COLUMN_MIME_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_COLUMN_NAME">GPKG_DC_COLUMN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_COLUMN_PK1">GPKG_DC_COLUMN_PK1</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_COLUMN_PK2">GPKG_DC_COLUMN_PK2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_COLUMN_TABLE_NAME">GPKG_DC_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_COLUMN_TITLE">GPKG_DC_COLUMN_TITLE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DC_TABLE_NAME">GPKG_DC_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DTU_DATETIME_FORMAT">GPKG_DTU_DATETIME_FORMAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DTU_DATETIME_FORMAT2">GPKG_DTU_DATETIME_FORMAT2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DTU_DATE_FORMAT">GPKG_DTU_DATE_FORMAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DTU_DATE_FORMAT2">GPKG_DTU_DATE_FORMAT2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DTU_FUNCTION_DATE">GPKG_DTU_FUNCTION_DATE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DTU_FUNCTION_DATETIME">GPKG_DTU_FUNCTION_DATETIME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DTU_FUNCTION_JULIANDAY">GPKG_DTU_FUNCTION_JULIANDAY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DTU_FUNCTION_STRFTIME">GPKG_DTU_FUNCTION_STRFTIME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DTU_FUNCTION_TIME">GPKG_DTU_FUNCTION_TIME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_BLOB_NAME">GPKG_DT_BLOB_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_BOOLEAN_NAME">GPKG_DT_BOOLEAN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_DATETIME_NAME">GPKG_DT_DATETIME_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_DATE_NAME">GPKG_DT_DATE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_DOUBLE_NAME">GPKG_DT_DOUBLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_FLOAT_NAME">GPKG_DT_FLOAT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_INTEGER_NAME">GPKG_DT_INTEGER_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_INT_NAME">GPKG_DT_INT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_MEDIUMINT_NAME">GPKG_DT_MEDIUMINT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_REAL_NAME">GPKG_DT_REAL_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_SMALLINT_NAME">GPKG_DT_SMALLINT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_TEXT_NAME">GPKG_DT_TEXT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_DT_TINYINT_NAME">GPKG_DT_TINYINT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EARTH_RADIUS">GPKG_EARTH_RADIUS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ER_COLUMN_BASE_PRIMARY_COLUMN">GPKG_ER_COLUMN_BASE_PRIMARY_COLUMN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ER_COLUMN_BASE_TABLE_NAME">GPKG_ER_COLUMN_BASE_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ER_COLUMN_ID">GPKG_ER_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ER_COLUMN_MAPPING_TABLE_NAME">GPKG_ER_COLUMN_MAPPING_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ER_COLUMN_PK">GPKG_ER_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ER_COLUMN_RELATED_PRIMARY_COLUMN">GPKG_ER_COLUMN_RELATED_PRIMARY_COLUMN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ER_COLUMN_RELATED_TABLE_NAME">GPKG_ER_COLUMN_RELATED_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ER_COLUMN_RELATION_NAME">GPKG_ER_COLUMN_RELATION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ER_TABLE_NAME">GPKG_ER_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EST_READ_WRITE_NAME">GPKG_EST_READ_WRITE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EST_WRITE_ONLY_NAME">GPKG_EST_WRITE_ONLY_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENDED_EXTENSION">GPKG_EXTENDED_EXTENSION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION">GPKG_EXTENSION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_AUTHOR">GPKG_EXTENSION_AUTHOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_CONTENTS_ID_NAME_NO_AUTHOR">GPKG_EXTENSION_CONTENTS_ID_NAME_NO_AUTHOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_FEATURE_STYLE_NAME_NO_AUTHOR">GPKG_EXTENSION_FEATURE_STYLE_NAME_NO_AUTHOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_FEATURE_TILE_LINK_NAME_NO_AUTHOR">GPKG_EXTENSION_FEATURE_TILE_LINK_NAME_NO_AUTHOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_GEOMETRY_INDEX_NAME_NO_AUTHOR">GPKG_EXTENSION_GEOMETRY_INDEX_NAME_NO_AUTHOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_PROPERTIES_COLUMN_PROPERTY">GPKG_EXTENSION_PROPERTIES_COLUMN_PROPERTY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_PROPERTIES_COLUMN_VALUE">GPKG_EXTENSION_PROPERTIES_COLUMN_VALUE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_PROPERTIES_NAME_NO_AUTHOR">GPKG_EXTENSION_PROPERTIES_NAME_NO_AUTHOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_PROPERTIES_TABLE_NAME">GPKG_EXTENSION_PROPERTIES_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_RELATED_TABLES_NAME_NO_AUTHOR">GPKG_EXTENSION_RELATED_TABLES_NAME_NO_AUTHOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EXTENSION_TILE_SCALING_NAME_NO_AUTHOR">GPKG_EXTENSION_TILE_SCALING_NAME_NO_AUTHOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EX_COLUMN_COLUMN_NAME">GPKG_EX_COLUMN_COLUMN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EX_COLUMN_DEFINITION">GPKG_EX_COLUMN_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EX_COLUMN_EXTENSION_NAME">GPKG_EX_COLUMN_EXTENSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EX_COLUMN_SCOPE">GPKG_EX_COLUMN_SCOPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EX_COLUMN_TABLE_NAME">GPKG_EX_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EX_EXTENSION_NAME_DIVIDER">GPKG_EX_EXTENSION_NAME_DIVIDER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_EX_TABLE_NAME">GPKG_EX_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FIT_GEOPACKAGE_NAME">GPKG_FIT_GEOPACKAGE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FIT_METADATA_NAME">GPKG_FIT_METADATA_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FIT_NONE_NAME">GPKG_FIT_NONE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FIT_RTREE_NAME">GPKG_FIT_RTREE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FSE_TABLE_MAPPING_ICON">GPKG_FSE_TABLE_MAPPING_ICON</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FSE_TABLE_MAPPING_STYLE">GPKG_FSE_TABLE_MAPPING_STYLE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FSE_TABLE_MAPPING_TABLE_ICON">GPKG_FSE_TABLE_MAPPING_TABLE_ICON</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FSE_TABLE_MAPPING_TABLE_STYLE">GPKG_FSE_TABLE_MAPPING_TABLE_STYLE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FTL_COLUMN_FEATURE_TABLE_NAME">GPKG_FTL_COLUMN_FEATURE_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FTL_COLUMN_PK1">GPKG_FTL_COLUMN_PK1</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FTL_COLUMN_PK2">GPKG_FTL_COLUMN_PK2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FTL_COLUMN_TILE_TABLE_NAME">GPKG_FTL_COLUMN_TILE_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_FTL_TABLE_NAME">GPKG_FTL_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GCDT_FLOAT_NAME">GPKG_GCDT_FLOAT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GCDT_INTEGER_NAME">GPKG_GCDT_INTEGER_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GCET_AREA_NAME">GPKG_GCET_AREA_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GCET_CENTER_NAME">GPKG_GCET_CENTER_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GCET_CORNER_NAME">GPKG_GCET_CORNER_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GC_COLUMN_COLUMN_NAME">GPKG_GC_COLUMN_COLUMN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GC_COLUMN_GEOMETRY_TYPE_NAME">GPKG_GC_COLUMN_GEOMETRY_TYPE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GC_COLUMN_M">GPKG_GC_COLUMN_M</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GC_COLUMN_PK1">GPKG_GC_COLUMN_PK1</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GC_COLUMN_PK2">GPKG_GC_COLUMN_PK2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GC_COLUMN_SRS_ID">GPKG_GC_COLUMN_SRS_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GC_COLUMN_TABLE_NAME">GPKG_GC_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GC_COLUMN_Z">GPKG_GC_COLUMN_Z</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GC_TABLE_NAME">GPKG_GC_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GEOMETRY_EXTENSION_PREFIX">GPKG_GEOMETRY_EXTENSION_PREFIX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GEOMETRY_MAGIC_NUMBER">GPKG_GEOMETRY_MAGIC_NUMBER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GEOMETRY_VERSION_1">GPKG_GEOMETRY_VERSION_1</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_GEOM_ID">GPKG_GI_COLUMN_GEOM_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_MAX_M">GPKG_GI_COLUMN_MAX_M</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_MAX_X">GPKG_GI_COLUMN_MAX_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_MAX_Y">GPKG_GI_COLUMN_MAX_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_MAX_Z">GPKG_GI_COLUMN_MAX_Z</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_MIN_M">GPKG_GI_COLUMN_MIN_M</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_MIN_X">GPKG_GI_COLUMN_MIN_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_MIN_Y">GPKG_GI_COLUMN_MIN_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_MIN_Z">GPKG_GI_COLUMN_MIN_Z</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_PK1">GPKG_GI_COLUMN_PK1</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_PK2">GPKG_GI_COLUMN_PK2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_COLUMN_TABLE_NAME">GPKG_GI_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GI_TABLE_NAME">GPKG_GI_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_GEOPACKAGE_ID">GPKG_GPGM_COLUMN_GEOPACKAGE_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_ID">GPKG_GPGM_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_MAX_M">GPKG_GPGM_COLUMN_MAX_M</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_MAX_X">GPKG_GPGM_COLUMN_MAX_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_MAX_Y">GPKG_GPGM_COLUMN_MAX_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_MAX_Z">GPKG_GPGM_COLUMN_MAX_Z</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_MIN_M">GPKG_GPGM_COLUMN_MIN_M</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_MIN_X">GPKG_GPGM_COLUMN_MIN_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_MIN_Y">GPKG_GPGM_COLUMN_MIN_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_MIN_Z">GPKG_GPGM_COLUMN_MIN_Z</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_PK1">GPKG_GPGM_COLUMN_PK1</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_PK2">GPKG_GPGM_COLUMN_PK2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_PK3">GPKG_GPGM_COLUMN_PK3</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_COLUMN_TABLE_NAME">GPKG_GPGM_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPGM_TABLE_NAME">GPKG_GPGM_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPM_COLUMN_ID">GPKG_GPM_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPM_COLUMN_NAME">GPKG_GPM_COLUMN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPM_COLUMN_PATH">GPKG_GPM_COLUMN_PATH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPM_COLUMN_PK">GPKG_GPM_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPM_TABLE_NAME">GPKG_GPM_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPTM_COLUMN_GEOPACKAGE_ID">GPKG_GPTM_COLUMN_GEOPACKAGE_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPTM_COLUMN_LAST_INDEXED">GPKG_GPTM_COLUMN_LAST_INDEXED</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPTM_COLUMN_PK1">GPKG_GPTM_COLUMN_PK1</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPTM_COLUMN_PK2">GPKG_GPTM_COLUMN_PK2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPTM_COLUMN_TABLE_NAME">GPKG_GPTM_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GPTM_TABLE_NAME">GPKG_GPTM_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_GRIDDED_COVERAGE_EXTENSION_NAME">GPKG_GRIDDED_COVERAGE_EXTENSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_IT_COLUMN_ANCHOR_U">GPKG_IT_COLUMN_ANCHOR_U</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_IT_COLUMN_ANCHOR_V">GPKG_IT_COLUMN_ANCHOR_V</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_IT_COLUMN_DESCRIPTION">GPKG_IT_COLUMN_DESCRIPTION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_IT_COLUMN_HEIGHT">GPKG_IT_COLUMN_HEIGHT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_IT_COLUMN_NAME">GPKG_IT_COLUMN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_IT_COLUMN_WIDTH">GPKG_IT_COLUMN_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_IT_TABLE_NAME">GPKG_IT_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MEDIA_TYPE">GPKG_MEDIA_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_METADATA_APPLICATION_ID">GPKG_METADATA_APPLICATION_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_METADATA_EXTENSION_NAME">GPKG_METADATA_EXTENSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_METADATA_TABLES">GPKG_METADATA_TABLES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MR_COLUMN_COLUMN_NAME">GPKG_MR_COLUMN_COLUMN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MR_COLUMN_FILE_ID">GPKG_MR_COLUMN_FILE_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MR_COLUMN_PARENT_ID">GPKG_MR_COLUMN_PARENT_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MR_COLUMN_REFERENCE_SCOPE">GPKG_MR_COLUMN_REFERENCE_SCOPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MR_COLUMN_ROW_ID_VALUE">GPKG_MR_COLUMN_ROW_ID_VALUE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MR_COLUMN_TABLE_NAME">GPKG_MR_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MR_COLUMN_TIMESTAMP">GPKG_MR_COLUMN_TIMESTAMP</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MR_TABLE_NAME">GPKG_MR_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_ATTRIBUTE_NAME">GPKG_MST_ATTRIBUTE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_ATTRIBUTE_TYPE_NAME">GPKG_MST_ATTRIBUTE_TYPE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_CATALOG_NAME">GPKG_MST_CATALOG_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_COLLECTION_HARDWARE_NAME">GPKG_MST_COLLECTION_HARDWARE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_COLLECTION_NAME">GPKG_MST_COLLECTION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_COLLECTION_SESSION_NAME">GPKG_MST_COLLECTION_SESSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_DATASET_NAME">GPKG_MST_DATASET_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_DIMENSION_GROUP_NAME">GPKG_MST_DIMENSION_GROUP_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_FEATURE_NAME">GPKG_MST_FEATURE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_FEATURE_TYPE_NAME">GPKG_MST_FEATURE_TYPE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_FIELD_SESSION_NAME">GPKG_MST_FIELD_SESSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_MODEL_NAME">GPKG_MST_MODEL_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_MULTI_POINT_NAME">GPKG_MST_MULTI_POINT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_MULTI_POLYGON_NAME">GPKG_MST_MULTI_POLYGON_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_MULTI_POLYGON_POINTS_NAME">GPKG_MST_MULTI_POLYGON_POINTS_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_MULTI_POLYLINE_NAME">GPKG_MST_MULTI_POLYLINE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_MULTI_POLYLINE_POINTS_NAME">GPKG_MST_MULTI_POLYLINE_POINTS_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_NON_GEOGRAPHIC_DATASET_NAME">GPKG_MST_NON_GEOGRAPHIC_DATASET_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_POINT_NAME">GPKG_MST_POINT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_POLYGON_NAME">GPKG_MST_POLYGON_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_POLYGON_POINTS_NAME">GPKG_MST_POLYGON_POINTS_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_POLYLINE_NAME">GPKG_MST_POLYLINE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_POLYLINE_POINTS_NAME">GPKG_MST_POLYLINE_POINTS_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_SCHEMA_NAME">GPKG_MST_SCHEMA_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_SERIES_NAME">GPKG_MST_SERIES_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_SERVICE_NAME">GPKG_MST_SERVICE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_SOFTWARE_NAME">GPKG_MST_SOFTWARE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_STYLE_NAME">GPKG_MST_STYLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_TAXONOMY_NAME">GPKG_MST_TAXONOMY_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_TILE_NAME">GPKG_MST_TILE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_MST_UNDEFINED_NAME">GPKG_MST_UNDEFINED_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_M_COLUMN_ID">GPKG_M_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_M_COLUMN_METADATA">GPKG_M_COLUMN_METADATA</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_M_COLUMN_MIME_TYPE">GPKG_M_COLUMN_MIME_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_M_COLUMN_PK">GPKG_M_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_M_COLUMN_SCOPE">GPKG_M_COLUMN_SCOPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_M_COLUMN_STANDARD_URI">GPKG_M_COLUMN_STANDARD_URI</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_M_TABLE_NAME">GPKG_M_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_NGA_EXTENSION_AUTHOR">GPKG_NGA_EXTENSION_AUTHOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_NGA_TABLES">GPKG_NGA_TABLES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_CONTRIBUTOR">GPKG_PE_CONTRIBUTOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_COVERAGE">GPKG_PE_COVERAGE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_CREATED">GPKG_PE_CREATED</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_CREATOR">GPKG_PE_CREATOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_DATE">GPKG_PE_DATE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_DESCRIPTION">GPKG_PE_DESCRIPTION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_IDENTIFIER">GPKG_PE_IDENTIFIER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_LICENSE">GPKG_PE_LICENSE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_MODIFIED">GPKG_PE_MODIFIED</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_PUBLISHER">GPKG_PE_PUBLISHER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_REFERENCES">GPKG_PE_REFERENCES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_RELATION">GPKG_PE_RELATION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_SOURCE">GPKG_PE_SOURCE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_SPATIAL">GPKG_PE_SPATIAL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_SUBJECT">GPKG_PE_SUBJECT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_TAG">GPKG_PE_TAG</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_TEMPORAL">GPKG_PE_TEMPORAL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_TITLE">GPKG_PE_TITLE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_TYPE">GPKG_PE_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_URI">GPKG_PE_URI</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_VALID">GPKG_PE_VALID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PE_VERSION">GPKG_PE_VERSION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROPERTY_LIST_TYPE">GPKG_PROPERTY_LIST_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_COLORS_ALPHA">GPKG_PROP_COLORS_ALPHA</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_COLORS_BLUE">GPKG_PROP_COLORS_BLUE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_COLORS_GREEN">GPKG_PROP_COLORS_GREEN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_COLORS_RED">GPKG_PROP_COLORS_RED</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_COLORS_WHITE">GPKG_PROP_COLORS_WHITE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_CONNECTION_POOL">GPKG_PROP_CONNECTION_POOL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_CONNECTION_POOL_CHECK_CONNECTIONS">GPKG_PROP_CONNECTION_POOL_CHECK_CONNECTIONS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_CONNECTION_POOL_CHECK_CONNECTIONS_FREQUENCY">GPKG_PROP_CONNECTION_POOL_CHECK_CONNECTIONS_FREQUENCY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_CONNECTION_POOL_CHECK_CONNECTIONS_WARNING_TIME">GPKG_PROP_CONNECTION_POOL_CHECK_CONNECTIONS_WARNING_TIME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_CONNECTION_POOL_MAINTAIN_STACK_TRACES">GPKG_PROP_CONNECTION_POOL_MAINTAIN_STACK_TRACES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_CONNECTION_POOL_OPEN_CONNECTIONS_PER_POOL">GPKG_PROP_CONNECTION_POOL_OPEN_CONNECTIONS_PER_POOL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_CONTENTS_DATA_TYPE">GPKG_PROP_CONTENTS_DATA_TYPE</a> </li> <li 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href="../Constants.html#/c:@GPKG_PROP_EXTENSION_FEATURE_STYLE_DEFINITION">GPKG_PROP_EXTENSION_FEATURE_STYLE_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_EXTENSION_FEATURE_TILE_LINK_DEFINITION">GPKG_PROP_EXTENSION_FEATURE_TILE_LINK_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_EXTENSION_GEOMETRY_INDEX_DEFINITION">GPKG_PROP_EXTENSION_GEOMETRY_INDEX_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_EXTENSION_PROPERTIES_DEFINITION">GPKG_PROP_EXTENSION_PROPERTIES_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_EXTENSION_RELATED_TABLES_DEFINITION">GPKG_PROP_EXTENSION_RELATED_TABLES_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_EXTENSION_TILE_SCALING_DEFINITION">GPKG_PROP_EXTENSION_TILE_SCALING_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_GENERATOR">GPKG_PROP_FEATURE_GENERATOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_GENERATOR_DOWNLOAD_ATTEMPTS">GPKG_PROP_FEATURE_GENERATOR_DOWNLOAD_ATTEMPTS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_LINE_STROKE_WIDTH">GPKG_PROP_FEATURE_LINE_STROKE_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_OVERLAY_QUERY">GPKG_PROP_FEATURE_OVERLAY_QUERY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_POINT_RADIUS">GPKG_PROP_FEATURE_POINT_RADIUS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_POLYGON_FILL">GPKG_PROP_FEATURE_POLYGON_FILL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_POLYGON_STROKE_WIDTH">GPKG_PROP_FEATURE_POLYGON_STROKE_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_QUERY_DETAILED_INFO_PRINT_FEATURES">GPKG_PROP_FEATURE_QUERY_DETAILED_INFO_PRINT_FEATURES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_QUERY_DETAILED_INFO_PRINT_POINTS">GPKG_PROP_FEATURE_QUERY_DETAILED_INFO_PRINT_POINTS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_QUERY_FEATURES_INFO">GPKG_PROP_FEATURE_QUERY_FEATURES_INFO</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_QUERY_MAX_FEATURES_INFO">GPKG_PROP_FEATURE_QUERY_MAX_FEATURES_INFO</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_QUERY_MAX_FEATURE_DETAILED_INFO">GPKG_PROP_FEATURE_QUERY_MAX_FEATURE_DETAILED_INFO</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_QUERY_MAX_POINT_DETAILED_INFO">GPKG_PROP_FEATURE_QUERY_MAX_POINT_DETAILED_INFO</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_QUERY_SCREEN_CLICK_PERCENTAGE">GPKG_PROP_FEATURE_QUERY_SCREEN_CLICK_PERCENTAGE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_TILES">GPKG_PROP_FEATURE_TILES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_FEATURE_TILES_COMPRESS_FORMAT">GPKG_PROP_FEATURE_TILES_COMPRESS_FORMAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_MANAGER_VALIDATION">GPKG_PROP_MANAGER_VALIDATION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_MANAGER_VALIDATION_IMPORT_HEADER">GPKG_PROP_MANAGER_VALIDATION_IMPORT_HEADER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_MANAGER_VALIDATION_IMPORT_INTEGRITY">GPKG_PROP_MANAGER_VALIDATION_IMPORT_INTEGRITY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_MANAGER_VALIDATION_OPEN_HEADER">GPKG_PROP_MANAGER_VALIDATION_OPEN_HEADER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_MANAGER_VALIDATION_OPEN_INTEGRITY">GPKG_PROP_MANAGER_VALIDATION_OPEN_INTEGRITY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_MAX_ZOOM_LEVEL">GPKG_PROP_MAX_ZOOM_LEVEL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES">GPKG_PROP_NUMBER_FEATURE_TILES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_CIRCLE_COLOR">GPKG_PROP_NUMBER_FEATURE_TILES_CIRCLE_COLOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_CIRCLE_FILL_COLOR">GPKG_PROP_NUMBER_FEATURE_TILES_CIRCLE_FILL_COLOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_CIRCLE_PADDING_PERCENTAGE">GPKG_PROP_NUMBER_FEATURE_TILES_CIRCLE_PADDING_PERCENTAGE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_CIRCLE_STROKE_WIDTH">GPKG_PROP_NUMBER_FEATURE_TILES_CIRCLE_STROKE_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_DRAW_CIRCLE">GPKG_PROP_NUMBER_FEATURE_TILES_DRAW_CIRCLE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_DRAW_TILE_BORDER">GPKG_PROP_NUMBER_FEATURE_TILES_DRAW_TILE_BORDER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_DRAW_UNINDEXED_TILES">GPKG_PROP_NUMBER_FEATURE_TILES_DRAW_UNINDEXED_TILES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_FILL_CIRCLE">GPKG_PROP_NUMBER_FEATURE_TILES_FILL_CIRCLE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_FILL_TILE">GPKG_PROP_NUMBER_FEATURE_TILES_FILL_TILE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_TEXT_COLOR">GPKG_PROP_NUMBER_FEATURE_TILES_TEXT_COLOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_TEXT_FONT">GPKG_PROP_NUMBER_FEATURE_TILES_TEXT_FONT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_TEXT_FONT_SIZE">GPKG_PROP_NUMBER_FEATURE_TILES_TEXT_FONT_SIZE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_TILE_BORDER_COLOR">GPKG_PROP_NUMBER_FEATURE_TILES_TILE_BORDER_COLOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_TILE_BORDER_STROKE_WIDTH">GPKG_PROP_NUMBER_FEATURE_TILES_TILE_BORDER_STROKE_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_TILE_FILL_COLOR">GPKG_PROP_NUMBER_FEATURE_TILES_TILE_FILL_COLOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_NUMBER_FEATURE_TILES_UNINDEXED_TEXT">GPKG_PROP_NUMBER_FEATURE_TILES_UNINDEXED_TEXT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_DEFINITION">GPKG_PROP_SRS_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_DEFINITION_12_063">GPKG_PROP_SRS_DEFINITION_12_063</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_DESCRIPTION">GPKG_PROP_SRS_DESCRIPTION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_ORGANIZATION">GPKG_PROP_SRS_ORGANIZATION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_ORGANIZATION_COORDSYS_ID">GPKG_PROP_SRS_ORGANIZATION_COORDSYS_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_SRS_ID">GPKG_PROP_SRS_SRS_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_SRS_NAME">GPKG_PROP_SRS_SRS_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_UNDEFINED_CARTESIAN">GPKG_PROP_SRS_UNDEFINED_CARTESIAN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_UNDEFINED_GEOGRAPHIC">GPKG_PROP_SRS_UNDEFINED_GEOGRAPHIC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_WEB_MERCATOR">GPKG_PROP_SRS_WEB_MERCATOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_WGS_84">GPKG_PROP_SRS_WGS_84</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_SRS_WGS_84_3D">GPKG_PROP_SRS_WGS_84_3D</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_TILE_GENERATOR_VARIABLE">GPKG_PROP_TILE_GENERATOR_VARIABLE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_TILE_GENERATOR_VARIABLE_MAX_LAT">GPKG_PROP_TILE_GENERATOR_VARIABLE_MAX_LAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_TILE_GENERATOR_VARIABLE_MAX_LON">GPKG_PROP_TILE_GENERATOR_VARIABLE_MAX_LON</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_TILE_GENERATOR_VARIABLE_MIN_LAT">GPKG_PROP_TILE_GENERATOR_VARIABLE_MIN_LAT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_TILE_GENERATOR_VARIABLE_MIN_LON">GPKG_PROP_TILE_GENERATOR_VARIABLE_MIN_LON</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_TILE_GENERATOR_VARIABLE_X">GPKG_PROP_TILE_GENERATOR_VARIABLE_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_TILE_GENERATOR_VARIABLE_Y">GPKG_PROP_TILE_GENERATOR_VARIABLE_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_PROP_TILE_GENERATOR_VARIABLE_Z">GPKG_PROP_TILE_GENERATOR_VARIABLE_Z</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RESOURCES_PROPERTIES">GPKG_RESOURCES_PROPERTIES</a> </li> <li 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href="../Constants.html#/c:@GPKG_RST_TABLE_NAME">GPKG_RST_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RTREE_INDEX_EXTENSION_COLUMN_ID">GPKG_RTREE_INDEX_EXTENSION_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RTREE_INDEX_EXTENSION_COLUMN_MAX_X">GPKG_RTREE_INDEX_EXTENSION_COLUMN_MAX_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RTREE_INDEX_EXTENSION_COLUMN_MAX_Y">GPKG_RTREE_INDEX_EXTENSION_COLUMN_MAX_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RTREE_INDEX_EXTENSION_COLUMN_MIN_X">GPKG_RTREE_INDEX_EXTENSION_COLUMN_MIN_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RTREE_INDEX_EXTENSION_COLUMN_MIN_Y">GPKG_RTREE_INDEX_EXTENSION_COLUMN_MIN_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RTREE_INDEX_EXTENSION_NAME">GPKG_RTREE_INDEX_EXTENSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RTREE_INDEX_PREFIX">GPKG_RTREE_INDEX_PREFIX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RT_ATTRIBUTES_NAME">GPKG_RT_ATTRIBUTES_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RT_FEATURES_NAME">GPKG_RT_FEATURES_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RT_MEDIA_NAME">GPKG_RT_MEDIA_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RT_SIMPLE_ATTRIBUTES_NAME">GPKG_RT_SIMPLE_ATTRIBUTES_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_RT_TILES_NAME">GPKG_RT_TILES_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SCHEMA_EXTENSION_NAME">GPKG_SCHEMA_EXTENSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMC_NAME_NAME">GPKG_SMC_NAME_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMC_ROOTPAGE_NAME">GPKG_SMC_ROOTPAGE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMC_SQL_NAME">GPKG_SMC_SQL_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMC_TBL_NAME_NAME">GPKG_SMC_TBL_NAME_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMC_TYPE_NAME">GPKG_SMC_TYPE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMT_COLUMN_GEOMETRY_TYPE_NAME">GPKG_SMT_COLUMN_GEOMETRY_TYPE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMT_INDEX_NAME">GPKG_SMT_INDEX_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMT_TABLE_NAME">GPKG_SMT_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMT_TRIGGER_NAME">GPKG_SMT_TRIGGER_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SMT_VIEW_NAME">GPKG_SMT_VIEW_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SM_TABLE_NAME">GPKG_SM_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SQLITE_APPLICATION_ID">GPKG_SQLITE_APPLICATION_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SQLITE_HEADER_PREFIX">GPKG_SQLITE_HEADER_PREFIX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SRS_COLUMN_DEFINITION">GPKG_SRS_COLUMN_DEFINITION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SRS_COLUMN_DEFINITION_12_063">GPKG_SRS_COLUMN_DEFINITION_12_063</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SRS_COLUMN_DESCRIPTION">GPKG_SRS_COLUMN_DESCRIPTION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SRS_COLUMN_ORGANIZATION">GPKG_SRS_COLUMN_ORGANIZATION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SRS_COLUMN_ORGANIZATION_COORDSYS_ID">GPKG_SRS_COLUMN_ORGANIZATION_COORDSYS_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SRS_COLUMN_PK">GPKG_SRS_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SRS_COLUMN_SRS_ID">GPKG_SRS_COLUMN_SRS_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SRS_COLUMN_SRS_NAME">GPKG_SRS_COLUMN_SRS_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_SRS_TABLE_NAME">GPKG_SRS_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ST_COLUMN_COLOR">GPKG_ST_COLUMN_COLOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ST_COLUMN_DESCRIPTION">GPKG_ST_COLUMN_DESCRIPTION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ST_COLUMN_FILL_COLOR">GPKG_ST_COLUMN_FILL_COLOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ST_COLUMN_FILL_OPACITY">GPKG_ST_COLUMN_FILL_OPACITY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ST_COLUMN_ID">GPKG_ST_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ST_COLUMN_NAME">GPKG_ST_COLUMN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ST_COLUMN_OPACITY">GPKG_ST_COLUMN_OPACITY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ST_COLUMN_WIDTH">GPKG_ST_COLUMN_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ST_TABLE_NAME">GPKG_ST_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TC_COLUMN_ID">GPKG_TC_COLUMN_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TC_COLUMN_TILE_COLUMN">GPKG_TC_COLUMN_TILE_COLUMN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TC_COLUMN_TILE_DATA">GPKG_TC_COLUMN_TILE_DATA</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TC_COLUMN_TILE_ROW">GPKG_TC_COLUMN_TILE_ROW</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TC_COLUMN_ZOOM_LEVEL">GPKG_TC_COLUMN_ZOOM_LEVEL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_CID">GPKG_TI_CID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_CID_INDEX">GPKG_TI_CID_INDEX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_COLUMN_LAST_INDEXED">GPKG_TI_COLUMN_LAST_INDEXED</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_COLUMN_PK">GPKG_TI_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_COLUMN_TABLE_NAME">GPKG_TI_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_DEFAULT_NULL">GPKG_TI_DEFAULT_NULL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_DFLT_VALUE">GPKG_TI_DFLT_VALUE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_DFLT_VALUE_INDEX">GPKG_TI_DFLT_VALUE_INDEX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_NAME">GPKG_TI_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_NAME_INDEX">GPKG_TI_NAME_INDEX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_NOT_NULL">GPKG_TI_NOT_NULL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_NOT_NULL_INDEX">GPKG_TI_NOT_NULL_INDEX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_PK">GPKG_TI_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_PK_INDEX">GPKG_TI_PK_INDEX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_TABLE_NAME">GPKG_TI_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_TYPE">GPKG_TI_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TI_TYPE_INDEX">GPKG_TI_TYPE_INDEX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TMS_COLUMN_MAX_X">GPKG_TMS_COLUMN_MAX_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TMS_COLUMN_MAX_Y">GPKG_TMS_COLUMN_MAX_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TMS_COLUMN_MIN_X">GPKG_TMS_COLUMN_MIN_X</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TMS_COLUMN_MIN_Y">GPKG_TMS_COLUMN_MIN_Y</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TMS_COLUMN_PK">GPKG_TMS_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TMS_COLUMN_SRS_ID">GPKG_TMS_COLUMN_SRS_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TMS_COLUMN_TABLE_NAME">GPKG_TMS_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TMS_TABLE_NAME">GPKG_TMS_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_MATRIX_HEIGHT">GPKG_TM_COLUMN_MATRIX_HEIGHT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_MATRIX_WIDTH">GPKG_TM_COLUMN_MATRIX_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_PIXEL_X_SIZE">GPKG_TM_COLUMN_PIXEL_X_SIZE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_PIXEL_Y_SIZE">GPKG_TM_COLUMN_PIXEL_Y_SIZE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_PK1">GPKG_TM_COLUMN_PK1</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_PK2">GPKG_TM_COLUMN_PK2</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_TABLE_NAME">GPKG_TM_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_TILE_HEIGHT">GPKG_TM_COLUMN_TILE_HEIGHT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_TILE_WIDTH">GPKG_TM_COLUMN_TILE_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_COLUMN_ZOOM_LEVEL">GPKG_TM_COLUMN_ZOOM_LEVEL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TM_TABLE_NAME">GPKG_TM_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TSC_CLOSEST_IN_OUT_NAME">GPKG_TSC_CLOSEST_IN_OUT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TSC_CLOSEST_OUT_IN_NAME">GPKG_TSC_CLOSEST_OUT_IN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TSC_IN_NAME">GPKG_TSC_IN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TSC_IN_OUT_NAME">GPKG_TSC_IN_OUT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TSC_OUT_IN_NAME">GPKG_TSC_OUT_IN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TSC_OUT_NAME">GPKG_TSC_OUT_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TS_COLUMN_PK">GPKG_TS_COLUMN_PK</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TS_COLUMN_SCALING_TYPE">GPKG_TS_COLUMN_SCALING_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TS_COLUMN_TABLE_NAME">GPKG_TS_COLUMN_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TS_COLUMN_ZOOM_IN">GPKG_TS_COLUMN_ZOOM_IN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TS_COLUMN_ZOOM_OUT">GPKG_TS_COLUMN_ZOOM_OUT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TS_TABLE_NAME">GPKG_TS_TABLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TU_SCALE_FACTOR_DEFAULT">GPKG_TU_SCALE_FACTOR_DEFAULT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TU_TILE_DP">GPKG_TU_TILE_DP</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TU_TILE_PIXELS_DEFAULT">GPKG_TU_TILE_PIXELS_DEFAULT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_TU_TILE_PIXELS_HIGH">GPKG_TU_TILE_PIXELS_HIGH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_UMT_COLUMN_BASE_ID">GPKG_UMT_COLUMN_BASE_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_UMT_COLUMN_RELATED_ID">GPKG_UMT_COLUMN_RELATED_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_UNIQUE">GPKG_UNIQUE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_USER_VERSION">GPKG_USER_VERSION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_UTM_DEFAULT_ID_COLUMN_NAME">GPKG_UTM_DEFAULT_ID_COLUMN_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_WEBP_EXTENSION_NAME">GPKG_WEBP_EXTENSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@GPKG_ZOOM_OTHER_EXTENSION_NAME">GPKG_ZOOM_OTHER_EXTENSION_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGUserColumn.h@NOT_NULL_CONSTRAINT_ORDER">NOT_NULL_CONSTRAINT_ORDER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGUserColumn.h@NO_INDEX">NO_INDEX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_BBOX">OAF_BBOX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_COLLECTIONS">OAF_COLLECTIONS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_CRS">OAF_CRS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_CRS_BASE_URL">OAF_CRS_BASE_URL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_CRS_PATTERN">OAF_CRS_PATTERN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_CRS_PATTERN_AUTHORITY_GROUP">OAF_CRS_PATTERN_AUTHORITY_GROUP</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_CRS_PATTERN_CODE_GROUP">OAF_CRS_PATTERN_CODE_GROUP</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_CRS_PATTERN_VERSION_GROUP">OAF_CRS_PATTERN_VERSION_GROUP</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_DESCRIPTION">OAF_DESCRIPTION</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_EXTENT">OAF_EXTENT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_HREF">OAF_HREF</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_HREFLANG">OAF_HREFLANG</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_ID">OAF_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_INTERVAL">OAF_INTERVAL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_ITEM_TYPE">OAF_ITEM_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_LENGTH">OAF_LENGTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_LIMIT_DEFAULT">OAF_LIMIT_DEFAULT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_LINKS">OAF_LINKS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_LINK_RELATION_NEXT">OAF_LINK_RELATION_NEXT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_NUMBER_MATCHED">OAF_NUMBER_MATCHED</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_NUMBER_RETURNED">OAF_NUMBER_RETURNED</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_REL">OAF_REL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_SPATIAL">OAF_SPATIAL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_TEMPORAL">OAF_TEMPORAL</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_TIME_STAMP">OAF_TIME_STAMP</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_TITLE">OAF_TITLE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_TRS">OAF_TRS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@OAF_TYPE">OAF_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:GPKGUserColumn.h@PRIMARY_KEY_CONSTRAINT_ORDER">PRIMARY_KEY_CONSTRAINT_ORDER</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_AUTHORITY_EPSG">PROJ_AUTHORITY_EPSG</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_AUTHORITY_NONE">PROJ_AUTHORITY_NONE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_AUTHORITY_NSG">PROJ_AUTHORITY_NSG</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_AUTHORITY_OGC">PROJ_AUTHORITY_OGC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_BUNDLE_NAME">PROJ_BUNDLE_NAME</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_EPSG_WEB_MERCATOR">PROJ_EPSG_WEB_MERCATOR</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_EPSG_WORLD_GEODETIC_SYSTEM">PROJ_EPSG_WORLD_GEODETIC_SYSTEM</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_EPSG_WORLD_GEODETIC_SYSTEM_GEOGRAPHICAL_3D">PROJ_EPSG_WORLD_GEODETIC_SYSTEM_GEOGRAPHICAL_3D</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_MERCATOR_RADIUS">PROJ_MERCATOR_RADIUS</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_OGC_CRS84">PROJ_OGC_CRS84</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_PROPERTIES">PROJ_PROPERTIES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_PROPERTY_LIST_TYPE">PROJ_PROPERTY_LIST_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_UNDEFINED_CARTESIAN">PROJ_UNDEFINED_CARTESIAN</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_UNDEFINED_GEOGRAPHIC">PROJ_UNDEFINED_GEOGRAPHIC</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_WEB_MERCATOR_HALF_WORLD_WIDTH">PROJ_WEB_MERCATOR_HALF_WORLD_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_WEB_MERCATOR_MAX_LAT_RANGE">PROJ_WEB_MERCATOR_MAX_LAT_RANGE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_WEB_MERCATOR_MIN_LAT_RANGE">PROJ_WEB_MERCATOR_MIN_LAT_RANGE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_WGS84_HALF_WORLD_LAT_HEIGHT">PROJ_WGS84_HALF_WORLD_LAT_HEIGHT</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@PROJ_WGS84_HALF_WORLD_LON_WIDTH">PROJ_WGS84_HALF_WORLD_LON_WIDTH</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@SFG_MEMBER_BBOX">SFG_MEMBER_BBOX</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@SFG_MEMBER_COORDINATES">SFG_MEMBER_COORDINATES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@SFG_MEMBER_FEATURES">SFG_MEMBER_FEATURES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@SFG_MEMBER_GEOMETRIES">SFG_MEMBER_GEOMETRIES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@SFG_MEMBER_GEOMETRY">SFG_MEMBER_GEOMETRY</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@SFG_MEMBER_ID">SFG_MEMBER_ID</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@SFG_MEMBER_PROPERTIES">SFG_MEMBER_PROPERTIES</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@SFG_MEMBER_TYPE">SFG_MEMBER_TYPE</a> </li> <li class="nav-group-task"> <a href="../Constants.html#/c:@SFG_TYPE_FEATURE">SFG_TYPE_FEATURE</a> </li> <li 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href="../Functions.html#/c:@F@vector2">vector2</a> </li> </ul> </li> <li class="nav-group-name"> <a href="../Structs.html">Structures</a> <ul class="nav-group-tasks"> <li class="nav-group-task"> <a href="../Structs/ARG_list.html">ARG_list</a> </li> <li class="nav-group-task"> <a href="../Structs/CTABLE.html">CTABLE</a> </li> <li class="nav-group-task"> <a href="../Structs/DERIVS.html">DERIVS</a> </li> <li class="nav-group-task"> <a href="../Structs/FACTORS.html">FACTORS</a> </li> <li class="nav-group-task"> <a href="../Structs/GPKGBoundingBoxSize.html">GPKGBoundingBoxSize</a> </li> <li class="nav-group-task"> <a href="../Structs/PJ_DATUMS.html">PJ_DATUMS</a> </li> <li class="nav-group-task"> <a href="../Structs/PJ_ELLPS.html">PJ_ELLPS</a> </li> <li class="nav-group-task"> <a href="../Structs/PJ_LIST.html">PJ_LIST</a> </li> <li class="nav-group-task"> <a href="../Structs/PJ_PRIME_MERIDIANS.html">PJ_PRIME_MERIDIANS</a> </li> <li class="nav-group-task"> <a href="../Structs/PJ_SELFTEST_LIST.html">PJ_SELFTEST_LIST</a> </li> <li class="nav-group-task"> <a href="../Structs/PJ_UNITS.html">PJ_UNITS</a> </li> <li class="nav-group-task"> <a href="../Structs/PJconsts.html">PJconsts</a> </li> <li class="nav-group-task"> <a href="../Structs/PW_COEF.html">PW_COEF</a> </li> <li class="nav-group-task"> <a href="../Structs/_PJ_GridCatalog.html">_PJ_GridCatalog</a> </li> <li class="nav-group-task"> <a href="../Structs/_pj_gi.html">_pj_gi</a> </li> <li class="nav-group-task"> <a href="../Structs/projFileAPI_t.html">projFileAPI_t</a> </li> </ul> </li> </ul> </nav> <article class="main-content"> <section> <section class="section"> <h1>GPKGGriddedTile</h1> <div class="declaration"> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@interface</span> <span class="nc">GPKGGriddedTile</span> <span class="p">:</span> <span class="nc">NSObject</span> <span class="o">&lt;</span><span class="n">NSMutableCopying</span><span class="o">&gt;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="kd">class</span> <span class="kt">GPKGGriddedTile</span> <span class="p">:</span> <span class="kt">NSObject</span><span class="p">,</span> <span class="kt">NSMutableCopying</span></code></pre> </div> </div> <p>Gridded Tile object</p> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L30-L98">Show on GitHub</a> </div> </section> <section class="section task-group-section"> <div class="task-group"> <ul> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(py)id"></a> <a name="//apple_ref/objc/Property/id" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(py)id">id</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>Auto increment primary key</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@property</span> <span class="p">(</span><span class="n">nonatomic</span><span class="p">,</span> <span class="n">strong</span><span class="p">)</span> <span class="n">NSNumber</span> <span class="o">*</span><span class="n">id</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="k">var</span> <span class="nv">id</span><span class="p">:</span> <span class="kt">NSNumber</span><span class="o">!</span> <span class="p">{</span> <span class="k">get</span> <span class="k">set</span> <span class="p">}</span></code></pre> </div> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L35">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(py)tableName"></a> <a name="//apple_ref/objc/Property/tableName" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(py)tableName">tableName</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>Name of tile pyramid user data table</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@property</span> <span class="p">(</span><span class="n">nonatomic</span><span class="p">,</span> <span class="n">strong</span><span class="p">)</span> <span class="n">NSString</span> <span class="o">*</span><span class="n">tableName</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="k">var</span> <span class="nv">tableName</span><span class="p">:</span> <span class="kt">String</span><span class="o">!</span> <span class="p">{</span> <span class="k">get</span> <span class="k">set</span> <span class="p">}</span></code></pre> </div> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L40">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(py)tableId"></a> <a name="//apple_ref/objc/Property/tableId" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(py)tableId">tableId</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>Foreign key to id in tile pyramid user data table</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@property</span> <span class="p">(</span><span class="n">nonatomic</span><span class="p">,</span> <span class="n">strong</span><span class="p">)</span> <span class="n">NSNumber</span> <span class="o">*</span><span class="n">tableId</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="k">var</span> <span class="nv">tableId</span><span class="p">:</span> <span class="kt">NSNumber</span><span class="o">!</span> <span class="p">{</span> <span class="k">get</span> <span class="k">set</span> <span class="p">}</span></code></pre> </div> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L45">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(py)scale"></a> <a name="//apple_ref/objc/Property/scale" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(py)scale">scale</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>Scale as a multiple relative to the unit of measure</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@property</span> <span class="p">(</span><span class="n">nonatomic</span><span class="p">,</span> <span class="n">strong</span><span class="p">)</span> <span class="n">NSDecimalNumber</span> <span class="o">*</span><span class="n">scale</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="k">var</span> <span class="nv">scale</span><span class="p">:</span> <span class="kt">NSDecimalNumber</span><span class="o">!</span> <span class="p">{</span> <span class="k">get</span> <span class="k">set</span> <span class="p">}</span></code></pre> </div> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L50">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(py)offset"></a> <a name="//apple_ref/objc/Property/offset" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(py)offset">offset</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>The offset to the 0 value</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@property</span> <span class="p">(</span><span class="n">nonatomic</span><span class="p">,</span> <span class="n">strong</span><span class="p">)</span> <span class="n">NSDecimalNumber</span> <span class="o">*</span><span class="n">offset</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="k">var</span> <span class="nv">offset</span><span class="p">:</span> <span class="kt">NSDecimalNumber</span><span class="o">!</span> <span class="p">{</span> <span class="k">get</span> <span class="k">set</span> <span class="p">}</span></code></pre> </div> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L55">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(py)min"></a> <a name="//apple_ref/objc/Property/min" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(py)min">min</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>Minimum value of this tile</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@property</span> <span class="p">(</span><span class="n">nonatomic</span><span class="p">,</span> <span class="n">strong</span><span class="p">)</span> <span class="n">NSDecimalNumber</span> <span class="o">*</span><span class="n">min</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="k">var</span> <span class="nv">min</span><span class="p">:</span> <span class="kt">NSDecimalNumber</span><span class="o">!</span> <span class="p">{</span> <span class="k">get</span> <span class="k">set</span> <span class="p">}</span></code></pre> </div> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L60">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(py)max"></a> <a name="//apple_ref/objc/Property/max" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(py)max">max</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>Maximum value of this tile</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@property</span> <span class="p">(</span><span class="n">nonatomic</span><span class="p">,</span> <span class="n">strong</span><span class="p">)</span> <span class="n">NSDecimalNumber</span> <span class="o">*</span><span class="n">max</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="k">var</span> <span class="nv">max</span><span class="p">:</span> <span class="kt">NSDecimalNumber</span><span class="o">!</span> <span class="p">{</span> <span class="k">get</span> <span class="k">set</span> <span class="p">}</span></code></pre> </div> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L65">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(py)mean"></a> <a name="//apple_ref/objc/Property/mean" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(py)mean">mean</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>The arithmetic mean of values in this tile</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@property</span> <span class="p">(</span><span class="n">nonatomic</span><span class="p">,</span> <span class="n">strong</span><span class="p">)</span> <span class="n">NSDecimalNumber</span> <span class="o">*</span><span class="n">mean</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="k">var</span> <span class="nv">mean</span><span class="p">:</span> <span class="kt">NSDecimalNumber</span><span class="o">!</span> <span class="p">{</span> <span class="k">get</span> <span class="k">set</span> <span class="p">}</span></code></pre> </div> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L70">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(py)standardDeviation"></a> <a name="//apple_ref/objc/Property/standardDeviation" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(py)standardDeviation">standardDeviation</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>The standard deviation of values in this tile</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">@property</span> <span class="p">(</span><span class="n">nonatomic</span><span class="p">,</span> <span class="n">strong</span><span class="p">)</span> <span class="n">NSDecimalNumber</span> <span class="o">*</span><span class="n">standardDeviation</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="k">var</span> <span class="nv">standardDeviation</span><span class="p">:</span> <span class="kt">NSDecimalNumber</span><span class="o">!</span> <span class="p">{</span> <span class="k">get</span> <span class="k">set</span> <span class="p">}</span></code></pre> </div> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L75">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(im)setContents:"></a> <a name="//apple_ref/objc/Method/-setContents:" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(im)setContents:">-setContents:<wbr></a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>Set the contents</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">-</span> <span class="p">(</span><span class="kt">void</span><span class="p">)</span><span class="nf">setContents</span><span class="p">:(</span><span class="n"><a href="../Classes/GPKGContents.html">GPKGContents</a></span> <span class="o">*</span><span class="p">)</span><span class="nv">contents</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="kd">func</span> <span class="nf">setContents</span><span class="p">(</span><span class="n">_</span> <span class="nv">contents</span><span class="p">:</span> <span class="kt"><a href="../Classes/GPKGContents.html">GPKGContents</a></span><span class="o">!</span><span class="p">)</span></code></pre> </div> </div> <div> <h4>Parameters</h4> <table class="graybox"> <tbody> <tr> <td> <code> <em>contents</em> </code> </td> <td> <div> <p>contents</p> </div> </td> </tr> </tbody> </table> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L82">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(im)scaleOrDefault"></a> <a name="//apple_ref/objc/Method/-scaleOrDefault" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(im)scaleOrDefault">-scaleOrDefault</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>Get the scale or default value</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">-</span> <span class="p">(</span><span class="kt">double</span><span class="p">)</span><span class="n">scaleOrDefault</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="kd">func</span> <span class="nf">scaleOrDefault</span><span class="p">()</span> <span class="o">-&gt;</span> <span class="kt">Double</span></code></pre> </div> </div> <div> <h4>Return Value</h4> <p>scale as a multiple relative to the unit of measure</p> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L89">Show on GitHub</a> </div> </section> </div> </li> <li class="item"> <div> <code> <a name="/c:objc(cs)GPKGGriddedTile(im)offsetOrDefault"></a> <a name="//apple_ref/objc/Method/-offsetOrDefault" class="dashAnchor"></a> <a class="token" href="#/c:objc(cs)GPKGGriddedTile(im)offsetOrDefault">-offsetOrDefault</a> </code> </div> <div class="height-container"> <div class="pointer-container"></div> <section class="section"> <div class="pointer"></div> <div class="abstract"> <p>Get the offset or default value</p> </div> <div class="declaration"> <h4>Declaration</h4> <div class="language"> <p class="aside-title">Objective-C</p> <pre class="highlight objective_c"><code><span class="k">-</span> <span class="p">(</span><span class="kt">double</span><span class="p">)</span><span class="n">offsetOrDefault</span><span class="p">;</span></code></pre> </div> <div class="language"> <p class="aside-title">Swift</p> <pre class="highlight swift"><code><span class="kd">func</span> <span class="nf">offsetOrDefault</span><span class="p">()</span> <span class="o">-&gt;</span> <span class="kt">Double</span></code></pre> </div> </div> <div> <h4>Return Value</h4> <p>offset to the 0 value</p> </div> <div class="slightly-smaller"> <a href="https://github.com/ngageoint/geopackage-ios/tree/7.3.0/geopackage-ios/extension/coverage/GPKGGriddedTile.h#L96">Show on GitHub</a> </div> </section> </div> </li> </ul> </div> </section> </section> <section id="footer"> <p>&copy; 2022 <a class="link" href="https://www.nga.mil" target="_blank" rel="external noopener">NGA</a>. All rights reserved. (Last updated: 2022-09-08)</p> <p>Generated by <a class="link" href="https://github.com/realm/jazzy" target="_blank" rel="external noopener">jazzy ♪♫ v0.14.2</a>, a <a class="link" href="https://realm.io" target="_blank" rel="external noopener">Realm</a> project.</p> </section> </article> </div> </body> </html>
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package com.navercorp.pinpoint.common.server.bo.codec.stat.strategy; import com.navercorp.pinpoint.common.buffer.Buffer; import com.navercorp.pinpoint.common.server.bo.codec.ArithmeticOperation; import com.navercorp.pinpoint.common.server.bo.codec.TypedBufferHandler; import com.navercorp.pinpoint.common.server.bo.codec.strategy.EncodingStrategy; import com.navercorp.pinpoint.common.server.bo.codec.strategy.impl.DeltaEncodingStrategy; import com.navercorp.pinpoint.common.server.bo.codec.strategy.impl.DeltaOfDeltaEncodingStrategy; import com.navercorp.pinpoint.common.server.bo.codec.strategy.impl.RepeatCountEncodingStrategy; import com.navercorp.pinpoint.common.server.bo.codec.strategy.impl.ValueEncodingStrategy; import com.navercorp.pinpoint.common.util.BytesUtils; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.List; /** * @author HyunGil Jeong */ public enum UnsignedLongEncodingStrategy implements EncodingStrategy<Long> { NONE(new ValueEncodingStrategy.Unsigned<Long>(TypedBufferHandler.LONG_BUFFER_HANDLER)), REPEAT_COUNT(new RepeatCountEncodingStrategy.Unsigned<Long>(TypedBufferHandler.LONG_BUFFER_HANDLER)), DELTA(new DeltaEncodingStrategy.Unsigned<Long>(TypedBufferHandler.LONG_BUFFER_HANDLER, ArithmeticOperation.LONG_OPERATIONS)), DELTA_OF_DELTA(new DeltaOfDeltaEncodingStrategy.Unsigned<Long>(TypedBufferHandler.LONG_BUFFER_HANDLER, ArithmeticOperation.LONG_OPERATIONS)); private final EncodingStrategy<Long> delegate; UnsignedLongEncodingStrategy(EncodingStrategy<Long> delegate) { this.delegate = delegate; } @Override public byte getCode() { return this.delegate.getCode(); } @Override public void encodeValues(Buffer buffer, List<Long> values) { this.delegate.encodeValues(buffer, values); } @Override public List<Long> decodeValues(Buffer buffer, int numValues) { return this.delegate.decodeValues(buffer, numValues); } public static UnsignedLongEncodingStrategy getFromCode(int code) { for (UnsignedLongEncodingStrategy encodingStrategy : UnsignedLongEncodingStrategy.values()) { if (encodingStrategy.getCode() == (code & 0xFF)) { return encodingStrategy; } } throw new IllegalArgumentException("Unknown code : " + code); } public static class Analyzer implements StrategyAnalyzer<Long> { private final EncodingStrategy<Long> bestStrategy; private final List<Long> values; private Analyzer(EncodingStrategy<Long> bestStrategy, List<Long> values) { this.bestStrategy = bestStrategy; this.values = values; } @Override public EncodingStrategy<Long> getBestStrategy() { return this.bestStrategy; } @Override public List<Long> getValues() { return this.values; } public static class Builder implements StrategyAnalyzerBuilder<Long> { private final List<Long> values = new ArrayList<Long>(); private long previousValue = 0L; private long previousDelta = 0L; private int byteSizeValue = 0; private int byteSizeDelta = 0; private int byteSizeDeltaOfDelta = 0; private int byteSizeRepeatCount = 0; private int repeatedValueCount = 0; @Override public StrategyAnalyzerBuilder<Long> addValue(Long value) { long delta = value - this.previousValue; if (this.values.isEmpty()) { initializeByteSizes(value); } else { updateByteSizes(value, delta); this.previousDelta = delta; } this.previousValue = value; this.values.add(value); return this; } @Override public StrategyAnalyzer<Long> build() { if (this.repeatedValueCount > 0) { this.byteSizeRepeatCount += BytesUtils.computeVar32Size(this.repeatedValueCount); } EncodingStrategy<Long> bestStrategy; int minimumNumBytesUsed = Collections.min(Arrays.asList( this.byteSizeValue, this.byteSizeDelta, this.byteSizeDeltaOfDelta, this.byteSizeRepeatCount)); if (this.byteSizeValue == minimumNumBytesUsed) { bestStrategy = NONE; } else if (this.byteSizeDelta == minimumNumBytesUsed) { bestStrategy = DELTA; } else if (this.byteSizeDeltaOfDelta == minimumNumBytesUsed) { bestStrategy = DELTA_OF_DELTA; } else { bestStrategy = REPEAT_COUNT; } List<Long> values = new ArrayList<Long>(this.values); this.values.clear(); return new Analyzer(bestStrategy, values); } int getByteSizeValue() { return byteSizeValue; } int getByteSizeDelta() { return byteSizeDelta; } int getByteSizeDeltaOfDelta() { return byteSizeDeltaOfDelta; } int getByteSizeRepeatCount() { return byteSizeRepeatCount; } private void initializeByteSizes(long value) { int expectedNumBytesUsedByValue = expectedBytesVLength(value); this.byteSizeValue = expectedNumBytesUsedByValue; this.byteSizeDelta = expectedNumBytesUsedByValue; this.byteSizeDeltaOfDelta = expectedNumBytesUsedByValue; this.repeatedValueCount = 1; this.byteSizeRepeatCount = expectedNumBytesUsedByValue; } private void updateByteSizes(long value, long delta) { int expectedNumBytesUsedByValue = expectedBytesVLength(value); this.byteSizeValue += expectedNumBytesUsedByValue; this.byteSizeDelta += expectedBytesVLength(value ^ this.previousValue); this.byteSizeDeltaOfDelta += expectedBytesSVLength(delta - this.previousDelta); if (this.previousValue != value) { this.byteSizeRepeatCount += BytesUtils.computeVar32Size(this.repeatedValueCount); this.byteSizeRepeatCount += expectedNumBytesUsedByValue; this.repeatedValueCount = 1; } else { this.repeatedValueCount++; } } private int expectedBytesVLength(long value) { return BytesUtils.computeVar64Size(value); } private int expectedBytesSVLength(long value) { return expectedBytesVLength(BytesUtils.longToZigZag(value)); } } } }
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<?xml version="1.0" encoding="utf-8"?> <!-- ~ Copyright (c) 2016, WSO2 Inc. (http://wso2.com) All Rights Reserved. ~ ~ Licensed under the Apache License, Version 2.0 (the "License"); ~ you may not use this file except in compliance with the License. ~ You may obtain a copy of the License at ~ ~ http://www.apache.org/licenses/LICENSE-2.0 ~ ~ Unless required by applicable law or agreed to in writing, software ~ distributed under the License is distributed on an "AS IS" BASIS, ~ WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. ~ See the License for the specific language governing permissions and ~ limitations under the License. --> <project xmlns="http://maven.apache.org/POM/4.0.0" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 http://maven.apache.org/xsd/maven-4.0.0.xsd"> <modelVersion>4.0.0</modelVersion> <artifactId>org.wso2.carbon.uuf.sample.api</artifactId> <version>1.0.0-SNAPSHOT</version> <packaging>bundle</packaging> <name>WSO2 UUF Sample - Hello Service API</name> <description>This bundle contains the implementation of the Hello Serivce sample API.</description> <url>http://wso2.org</url> <parent> <groupId>org.wso2.carbon.uuf.sample</groupId> <artifactId>sample-parent</artifactId> <version>1.0.0-SNAPSHOT</version> <relativePath>../../pom.xml</relativePath> </parent> <dependencies> <dependency> <groupId>org.wso2.msf4j</groupId> <artifactId>msf4j-core</artifactId> </dependency> <dependency> <groupId>org.wso2.carbon.uuf</groupId> <artifactId>org.wso2.carbon.uuf.core</artifactId> </dependency> </dependencies> <build> <plugins> <plugin> <groupId>org.apache.felix</groupId> <artifactId>maven-bundle-plugin</artifactId> <configuration> <instructions> <Import-Package> org.wso2.msf4j; version="${msf4j.version.range}", javax.ws.rs.*; version="${javax.ws.rs.version.range}", org.wso2.carbon.uuf.api.*; version="${carbon.uuf.version}", </Import-Package> <Export-Package> org.wso2.carbon.uuf.sample.api.*;version="${project.version}" </Export-Package> <Carbon-Component> osgi.service;objectClass="org.wso2.carbon.uuf.api.RestApi </Carbon-Component> </instructions> </configuration> </plugin> </plugins> </build> </project>
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<?xml version="1.0" encoding="utf-8"?> <set xmlns:android="http://schemas.android.com/apk/res/android"> <alpha android:duration="300" android:fromAlpha="0.0" android:toAlpha="1.0"/> <scale android:duration="300" android:fromXScale="0.0" android:fromYScale="0.0" android:pivotX="50%" android:pivotY="50%" android:toXScale="1.0" android:toYScale="1.0"/> </set>
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package cn.limw.summer.cometd.server.transport.json; import java.io.IOException; import java.text.ParseException; import javax.servlet.AsyncContext; import javax.servlet.ServletException; import javax.servlet.http.HttpServletRequest; import javax.servlet.http.HttpServletResponse; import org.cometd.bayeux.server.ServerMessage; import org.cometd.bayeux.server.ServerMessage.Mutable; import org.cometd.server.BayeuxServerImpl; import org.cometd.server.ServerSessionImpl; import org.cometd.server.transport.JSONTransport; import cn.limw.summer.cometd.server.transport.util.StreamHttpTransportUtil; /** * @author li * @version 1 (2015年6月12日 下午2:14:51) * @since Java7 */ public class AbstractJSONTransport extends JSONTransport { public AbstractJSONTransport(BayeuxServerImpl bayeux) { super(bayeux); } public void process(HttpServletRequest request, HttpServletResponse response) throws IOException, ServletException { LongPollScheduler scheduler = (LongPollScheduler) request.getAttribute(StreamHttpTransportUtil.SCHEDULER_ATTRIBUTE); if (scheduler == null) { // Not a resumed /meta/connect, process messages. try { ServerMessage.Mutable[] messages = parseMessages(request); processMessages(request, response, messages); } catch (ParseException x) { handleJSONParseException(request, response, x.getMessage(), x.getCause()); } } else { doResume(request, scheduler.getServerSession(), scheduler.getMetaConnectReply()); } } public void doResume(HttpServletRequest request, ServerSessionImpl serverSession, Mutable metaConnectReply) { callSuperResume(request.getAsyncContext(), serverSession, metaConnectReply); } public void callSuperResume(AsyncContext asyncContext, ServerSessionImpl serverSession, Mutable metaConnectReply) { resume(asyncContext, serverSession, metaConnectReply); } }
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package com.helospark.lightdi.it.customconditional.beans; import com.helospark.lightdi.annotation.Component; import com.helospark.lightdi.it.customconditional.ConditionalOnBeanNameContaining; @Component @ConditionalOnBeanNameContaining(nameContains = "matching") public class MatchingNameBean { }
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test !== false ? success() :
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from core.himesis import Himesis import uuid class HTransition2ListenBranch(Himesis): def __init__(self): """ Creates the himesis graph representing the DSLTrans rule Transition2ListenBranch. """ # Flag this instance as compiled now self.is_compiled = True super(HTransition2ListenBranch, self).__init__(name='HTransition2ListenBranch', num_nodes=0, edges=[]) # Set the graph attributes self["mm__"] = ['HimesisMM'] self["name"] = """Transition2ListenBranch""" self["GUID__"] = uuid.uuid3(uuid.NAMESPACE_DNS,'Transition2ListenBranch') # match model. We only support one match model self.add_node() self.vs[0]["mm__"] = """MatchModel""" # apply model node self.add_node() self.vs[1]["mm__"] = """ApplyModel""" # paired with relation between match and apply models self.add_node() self.vs[2]["mm__"] = """paired_with""" # match class State() node self.add_node() self.vs[3]["mm__"] = """State""" self.vs[3]["attr1"] = """+""" # match_contains node for class State() self.add_node() self.vs[4]["mm__"] = """match_contains""" # match class Transition() node self.add_node() self.vs[5]["mm__"] = """Transition""" self.vs[5]["attr1"] = """+""" # match_contains node for class Transition() self.add_node() self.vs[6]["mm__"] = """match_contains""" # match class Trigger() node self.add_node() self.vs[7]["mm__"] = """Trigger""" self.vs[7]["attr1"] = """1""" # match_contains node for class Trigger() self.add_node() self.vs[8]["mm__"] = """match_contains""" # match class Signal() node self.add_node() self.vs[9]["mm__"] = """Signal""" self.vs[9]["attr1"] = """1""" # match_contains node for class Signal() self.add_node() self.vs[10]["mm__"] = """match_contains""" # apply class Listen() node self.add_node() self.vs[11]["mm__"] = """Listen""" self.vs[11]["attr1"] = """1""" # apply_contains node for class Listen() self.add_node() self.vs[12]["mm__"] = """apply_contains""" # apply class ListenBranch() node self.add_node() self.vs[13]["mm__"] = """ListenBranch""" self.vs[13]["attr1"] = """1""" # apply_contains node for class ListenBranch() self.add_node() self.vs[14]["mm__"] = """apply_contains""" # apply class Inst() node self.add_node() self.vs[15]["mm__"] = """Inst""" self.vs[15]["attr1"] = """1""" # apply_contains node for class Inst() self.add_node() self.vs[16]["mm__"] = """apply_contains""" # match association State--outgoingTransitions-->Transition node self.add_node() self.vs[17]["attr1"] = """outgoingTransitions""" self.vs[17]["mm__"] = """directLink_S""" # match association Transition--triggers-->Trigger node self.add_node() self.vs[18]["attr1"] = """triggers""" self.vs[18]["mm__"] = """directLink_S""" # match association Trigger--signal-->Signal node self.add_node() self.vs[19]["attr1"] = """signal""" self.vs[19]["mm__"] = """directLink_S""" # apply association Listen--branches-->ListenBranch node self.add_node() self.vs[20]["attr1"] = """branches""" self.vs[20]["mm__"] = """directLink_T""" # apply association ListenBranch--p-->Inst node self.add_node() self.vs[21]["attr1"] = """p""" self.vs[21]["mm__"] = """directLink_T""" # backward association State---->Listen node self.add_node() self.vs[22]["mm__"] = """backward_link""" # backward association Transition---->Inst node self.add_node() self.vs[23]["mm__"] = """backward_link""" # Add the edges self.add_edges([ (0,4), # matchmodel -> match_contains (4,3), # match_contains -> match_class State() (0,6), # matchmodel -> match_contains (6,5), # match_contains -> match_class Transition() (0,8), # matchmodel -> match_contains (8,7), # match_contains -> match_class Trigger() (0,10), # matchmodel -> match_contains (10,9), # match_contains -> match_class Signal() (1,12), # applymodel -> apply_contains (12,11), # apply_contains -> apply_class Listen() (1,14), # applymodel -> apply_contains (14,13), # apply_contains -> apply_class ListenBranch() (1,16), # applymodel -> apply_contains (16,15), # apply_contains -> apply_class Inst() (3,17), # match_class State() -> association outgoingTransitions (17,5), # association outgoingTransitions -> match_class Transition() (5,18), # match_class Transition() -> association triggers (18,7), # association triggers -> match_class Trigger() (7,19), # match_class Trigger() -> association signal (19,9), # association signal -> match_class Signal() (11,20), # apply_class Listen() -> association branches (20,13), # association branches -> apply_class ListenBranch() (13,21), # apply_class ListenBranch() -> association p (21,15), # association p -> apply_class Inst() (11,22), # apply_class Listen() -> backward_association (22,3), # backward_association -> apply_class State() (15,23), # apply_class Inst() -> backward_association (23,5), # backward_association -> apply_class Transition() (0,2), # matchmodel -> pairedwith (2,1) # pairedwith -> applyModel ]) # Add the attribute equations self["equations"] = [((3,'isComposite'),('constant','false')), ((3,'hasOutgoingTransitions'),('constant','true')), ((11,'__ApplyAttribute'),('constant','listensimplestate')), ((13,'channel'),(9,'name')), ((15,'__ApplyAttribute'),('constant','instfortrans')), ]
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#include "abstract_compiler.sep.0.h" /* method abstract_compiler#AMethPropdef#compile_intern_to_c for (self: AMethPropdef, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]): Bool */ short int abstract_compiler__AMethPropdef__compile_intern_to_c(val* self, val* p0, val* p1, val* p2) { short int var /* : Bool */; val* var_v /* var v: AbstractCompilerVisitor */; val* var_mpropdef /* var mpropdef: MMethodDef */; val* var_arguments /* var arguments: Array[RuntimeVariable] */; val* var1 /* : MProperty */; val* var3 /* : MProperty */; val* var4 /* : String */; val* var6 /* : String */; val* var_pname /* var pname: String */; val* var7 /* : MClassDef */; val* var9 /* : MClassDef */; val* var10 /* : MClass */; val* var12 /* : MClass */; val* var13 /* : String */; val* var15 /* : String */; val* var_cname /* var cname: String */; val* var16 /* : nullable MSignature */; val* var18 /* : nullable MSignature */; val* var19 /* : nullable MType */; val* var21 /* : nullable MType */; val* var_ret /* var ret: nullable MType */; val* var22 /* : null */; short int var23 /* : Bool */; short int var24 /* : Bool */; val* var_other /* var other: nullable Object */; short int var26 /* : Bool */; short int var27 /* : Bool */; short int var28 /* : Bool */; val* var29 /* : nullable Object */; val* var30 /* : MType */; short int var31 /* : Bool */; static val* varonce; val* var32 /* : String */; char* var33 /* : NativeString */; long var34 /* : Int */; val* var35 /* : FlatString */; short int var36 /* : Bool */; short int var37 /* : Bool */; short int var39 /* : Bool */; short int var40 /* : Bool */; short int var41 /* : Bool */; short int var_ /* var : Bool */; static val* varonce42; val* var43 /* : String */; char* var44 /* : NativeString */; long var45 /* : Int */; val* var46 /* : FlatString */; short int var47 /* : Bool */; short int var48 /* : Bool */; short int var50 /* : Bool */; short int var51 /* : Bool */; short int var52 /* : Bool */; static val* varonce53; val* var54 /* : String */; char* var55 /* : NativeString */; long var56 /* : Int */; val* var57 /* : FlatString */; short int var58 /* : Bool */; short int var59 /* : Bool */; static val* varonce60; val* var61 /* : String */; char* var62 /* : NativeString */; long var63 /* : Int */; val* var64 /* : FlatString */; short int var65 /* : Bool */; short int var66 /* : Bool */; static val* varonce67; val* var68 /* : String */; char* var69 /* : NativeString */; long var70 /* : Int */; val* var71 /* : FlatString */; val* var72 /* : nullable Object */; static val* varonce73; val* var74 /* : String */; char* var75 /* : NativeString */; long var76 /* : Int */; val* var77 /* : FlatString */; val* var78 /* : Array[Object] */; long var79 /* : Int */; val* var80 /* : NativeArray[Object] */; val* var81 /* : String */; short int var82 /* : Bool */; static val* varonce83; val* var84 /* : String */; char* var85 /* : NativeString */; long var86 /* : Int */; val* var87 /* : FlatString */; short int var88 /* : Bool */; short int var89 /* : Bool */; val* var90 /* : nullable Object */; short int var91 /* : Bool */; static val* varonce92; val* var93 /* : String */; char* var94 /* : NativeString */; long var95 /* : Int */; val* var96 /* : FlatString */; short int var97 /* : Bool */; short int var98 /* : Bool */; long var99 /* : Int */; val* var100 /* : nullable Object */; static val* varonce101; val* var102 /* : String */; char* var103 /* : NativeString */; long var104 /* : Int */; val* var105 /* : FlatString */; long var106 /* : Int */; val* var107 /* : nullable Object */; val* var108 /* : Array[Object] */; long var109 /* : Int */; val* var110 /* : NativeArray[Object] */; val* var111 /* : String */; val* var112 /* : RuntimeVariable */; short int var113 /* : Bool */; static val* varonce114; val* var115 /* : String */; char* var116 /* : NativeString */; long var117 /* : Int */; val* var118 /* : FlatString */; short int var119 /* : Bool */; short int var120 /* : Bool */; long var121 /* : Int */; val* var122 /* : nullable Object */; static val* varonce123; val* var124 /* : String */; char* var125 /* : NativeString */; long var126 /* : Int */; val* var127 /* : FlatString */; long var128 /* : Int */; val* var129 /* : nullable Object */; val* var130 /* : Array[Object] */; long var131 /* : Int */; val* var132 /* : NativeArray[Object] */; val* var133 /* : String */; val* var134 /* : RuntimeVariable */; short int var135 /* : Bool */; static val* varonce136; val* var137 /* : String */; char* var138 /* : NativeString */; long var139 /* : Int */; val* var140 /* : FlatString */; short int var141 /* : Bool */; short int var142 /* : Bool */; static val* varonce143; val* var144 /* : String */; char* var145 /* : NativeString */; long var146 /* : Int */; val* var147 /* : FlatString */; long var148 /* : Int */; val* var149 /* : nullable Object */; val* var150 /* : Array[Object] */; long var151 /* : Int */; val* var152 /* : NativeArray[Object] */; val* var153 /* : String */; val* var154 /* : RuntimeVariable */; short int var155 /* : Bool */; static val* varonce156; val* var157 /* : String */; char* var158 /* : NativeString */; long var159 /* : Int */; val* var160 /* : FlatString */; short int var161 /* : Bool */; short int var162 /* : Bool */; long var163 /* : Int */; val* var164 /* : nullable Object */; static val* varonce165; val* var166 /* : String */; char* var167 /* : NativeString */; long var168 /* : Int */; val* var169 /* : FlatString */; long var170 /* : Int */; val* var171 /* : nullable Object */; val* var172 /* : Array[Object] */; long var173 /* : Int */; val* var174 /* : NativeArray[Object] */; val* var175 /* : String */; val* var176 /* : RuntimeVariable */; short int var177 /* : Bool */; static val* varonce178; val* var179 /* : String */; char* var180 /* : NativeString */; long var181 /* : Int */; val* var182 /* : FlatString */; short int var183 /* : Bool */; short int var184 /* : Bool */; long var185 /* : Int */; val* var186 /* : nullable Object */; static val* varonce187; val* var188 /* : String */; char* var189 /* : NativeString */; long var190 /* : Int */; val* var191 /* : FlatString */; long var192 /* : Int */; val* var193 /* : nullable Object */; val* var194 /* : Array[Object] */; long var195 /* : Int */; val* var196 /* : NativeArray[Object] */; val* var197 /* : String */; val* var198 /* : RuntimeVariable */; short int var199 /* : Bool */; static val* varonce200; val* var201 /* : String */; char* var202 /* : NativeString */; long var203 /* : Int */; val* var204 /* : FlatString */; short int var205 /* : Bool */; short int var206 /* : Bool */; long var207 /* : Int */; val* var208 /* : nullable Object */; static val* varonce209; val* var210 /* : String */; char* var211 /* : NativeString */; long var212 /* : Int */; val* var213 /* : FlatString */; long var214 /* : Int */; val* var215 /* : nullable Object */; val* var216 /* : Array[Object] */; long var217 /* : Int */; val* var218 /* : NativeArray[Object] */; val* var219 /* : String */; val* var220 /* : RuntimeVariable */; short int var221 /* : Bool */; static val* varonce222; val* var223 /* : String */; char* var224 /* : NativeString */; long var225 /* : Int */; val* var226 /* : FlatString */; short int var227 /* : Bool */; short int var228 /* : Bool */; long var229 /* : Int */; val* var230 /* : nullable Object */; static val* varonce231; val* var232 /* : String */; char* var233 /* : NativeString */; long var234 /* : Int */; val* var235 /* : FlatString */; long var236 /* : Int */; val* var237 /* : nullable Object */; val* var238 /* : Array[Object] */; long var239 /* : Int */; val* var240 /* : NativeArray[Object] */; val* var241 /* : String */; val* var242 /* : RuntimeVariable */; short int var243 /* : Bool */; static val* varonce244; val* var245 /* : String */; char* var246 /* : NativeString */; long var247 /* : Int */; val* var248 /* : FlatString */; short int var249 /* : Bool */; short int var250 /* : Bool */; long var251 /* : Int */; val* var252 /* : nullable Object */; static val* varonce253; val* var254 /* : String */; char* var255 /* : NativeString */; long var256 /* : Int */; val* var257 /* : FlatString */; long var258 /* : Int */; val* var259 /* : nullable Object */; val* var260 /* : Array[Object] */; long var261 /* : Int */; val* var262 /* : NativeArray[Object] */; val* var263 /* : String */; val* var264 /* : RuntimeVariable */; short int var265 /* : Bool */; static val* varonce266; val* var267 /* : String */; char* var268 /* : NativeString */; long var269 /* : Int */; val* var270 /* : FlatString */; short int var271 /* : Bool */; short int var272 /* : Bool */; long var273 /* : Int */; val* var274 /* : nullable Object */; long var275 /* : Int */; val* var276 /* : nullable Object */; val* var277 /* : RuntimeVariable */; short int var278 /* : Bool */; static val* varonce279; val* var280 /* : String */; char* var281 /* : NativeString */; long var282 /* : Int */; val* var283 /* : FlatString */; short int var284 /* : Bool */; short int var285 /* : Bool */; long var286 /* : Int */; val* var287 /* : nullable Object */; long var288 /* : Int */; val* var289 /* : nullable Object */; val* var290 /* : RuntimeVariable */; val* var_res /* var res: RuntimeVariable */; static val* varonce291; val* var292 /* : String */; char* var293 /* : NativeString */; long var294 /* : Int */; val* var295 /* : FlatString */; val* var296 /* : Array[Object] */; long var297 /* : Int */; val* var298 /* : NativeArray[Object] */; val* var299 /* : String */; val* var300 /* : RuntimeVariable */; short int var301 /* : Bool */; static val* varonce302; val* var303 /* : String */; char* var304 /* : NativeString */; long var305 /* : Int */; val* var306 /* : FlatString */; short int var307 /* : Bool */; short int var308 /* : Bool */; long var309 /* : Int */; val* var310 /* : nullable Object */; static val* varonce311; val* var312 /* : String */; char* var313 /* : NativeString */; long var314 /* : Int */; val* var315 /* : FlatString */; long var316 /* : Int */; val* var317 /* : nullable Object */; val* var318 /* : Array[Object] */; long var319 /* : Int */; val* var320 /* : NativeArray[Object] */; val* var321 /* : String */; val* var322 /* : RuntimeVariable */; short int var323 /* : Bool */; static val* varonce324; val* var325 /* : String */; char* var326 /* : NativeString */; long var327 /* : Int */; val* var328 /* : FlatString */; short int var329 /* : Bool */; short int var330 /* : Bool */; long var331 /* : Int */; val* var332 /* : nullable Object */; static val* varonce333; val* var334 /* : String */; char* var335 /* : NativeString */; long var336 /* : Int */; val* var337 /* : FlatString */; long var338 /* : Int */; val* var339 /* : nullable Object */; val* var340 /* : Array[Object] */; long var341 /* : Int */; val* var342 /* : NativeArray[Object] */; val* var343 /* : String */; val* var344 /* : RuntimeVariable */; short int var345 /* : Bool */; static val* varonce346; val* var347 /* : String */; char* var348 /* : NativeString */; long var349 /* : Int */; val* var350 /* : FlatString */; short int var351 /* : Bool */; short int var352 /* : Bool */; long var353 /* : Int */; val* var354 /* : nullable Object */; static val* varonce355; val* var356 /* : String */; char* var357 /* : NativeString */; long var358 /* : Int */; val* var359 /* : FlatString */; long var360 /* : Int */; val* var361 /* : nullable Object */; val* var362 /* : Array[Object] */; long var363 /* : Int */; val* var364 /* : NativeArray[Object] */; val* var365 /* : String */; val* var366 /* : RuntimeVariable */; short int var367 /* : Bool */; static val* varonce368; val* var369 /* : String */; char* var370 /* : NativeString */; long var371 /* : Int */; val* var372 /* : FlatString */; short int var373 /* : Bool */; short int var374 /* : Bool */; long var375 /* : Int */; val* var376 /* : nullable Object */; static val* varonce377; val* var378 /* : String */; char* var379 /* : NativeString */; long var380 /* : Int */; val* var381 /* : FlatString */; long var382 /* : Int */; val* var383 /* : nullable Object */; val* var384 /* : Array[Object] */; long var385 /* : Int */; val* var386 /* : NativeArray[Object] */; val* var387 /* : String */; val* var388 /* : RuntimeVariable */; short int var389 /* : Bool */; static val* varonce390; val* var391 /* : String */; char* var392 /* : NativeString */; long var393 /* : Int */; val* var394 /* : FlatString */; short int var395 /* : Bool */; short int var396 /* : Bool */; static val* varonce397; val* var398 /* : String */; char* var399 /* : NativeString */; long var400 /* : Int */; val* var401 /* : FlatString */; long var402 /* : Int */; val* var403 /* : nullable Object */; val* var404 /* : Array[Object] */; long var405 /* : Int */; val* var406 /* : NativeArray[Object] */; val* var407 /* : String */; val* var408 /* : RuntimeVariable */; short int var409 /* : Bool */; static val* varonce410; val* var411 /* : String */; char* var412 /* : NativeString */; long var413 /* : Int */; val* var414 /* : FlatString */; short int var415 /* : Bool */; short int var416 /* : Bool */; long var417 /* : Int */; val* var418 /* : nullable Object */; val* var419 /* : Array[Object] */; long var420 /* : Int */; val* var421 /* : NativeArray[Object] */; val* var422 /* : String */; val* var423 /* : RuntimeVariable */; short int var424 /* : Bool */; static val* varonce425; val* var426 /* : String */; char* var427 /* : NativeString */; long var428 /* : Int */; val* var429 /* : FlatString */; short int var430 /* : Bool */; short int var431 /* : Bool */; static val* varonce432; val* var433 /* : String */; char* var434 /* : NativeString */; long var435 /* : Int */; val* var436 /* : FlatString */; short int var437 /* : Bool */; short int var438 /* : Bool */; static val* varonce439; val* var440 /* : String */; char* var441 /* : NativeString */; long var442 /* : Int */; val* var443 /* : FlatString */; val* var444 /* : nullable Object */; static val* varonce445; val* var446 /* : String */; char* var447 /* : NativeString */; long var448 /* : Int */; val* var449 /* : FlatString */; val* var450 /* : Array[Object] */; long var451 /* : Int */; val* var452 /* : NativeArray[Object] */; val* var453 /* : String */; short int var454 /* : Bool */; static val* varonce455; val* var456 /* : String */; char* var457 /* : NativeString */; long var458 /* : Int */; val* var459 /* : FlatString */; short int var460 /* : Bool */; short int var461 /* : Bool */; static val* varonce462; val* var463 /* : String */; char* var464 /* : NativeString */; long var465 /* : Int */; val* var466 /* : FlatString */; val* var467 /* : nullable Object */; val* var468 /* : Array[Object] */; long var469 /* : Int */; val* var470 /* : NativeArray[Object] */; val* var471 /* : String */; val* var472 /* : RuntimeVariable */; short int var473 /* : Bool */; static val* varonce474; val* var475 /* : String */; char* var476 /* : NativeString */; long var477 /* : Int */; val* var478 /* : FlatString */; short int var479 /* : Bool */; short int var480 /* : Bool */; long var481 /* : Int */; val* var482 /* : nullable Object */; static val* varonce483; val* var484 /* : String */; char* var485 /* : NativeString */; long var486 /* : Int */; val* var487 /* : FlatString */; long var488 /* : Int */; val* var489 /* : nullable Object */; val* var490 /* : Array[Object] */; long var491 /* : Int */; val* var492 /* : NativeArray[Object] */; val* var493 /* : String */; val* var494 /* : RuntimeVariable */; short int var495 /* : Bool */; static val* varonce496; val* var497 /* : String */; char* var498 /* : NativeString */; long var499 /* : Int */; val* var500 /* : FlatString */; short int var501 /* : Bool */; short int var502 /* : Bool */; long var503 /* : Int */; val* var504 /* : nullable Object */; static val* varonce505; val* var506 /* : String */; char* var507 /* : NativeString */; long var508 /* : Int */; val* var509 /* : FlatString */; long var510 /* : Int */; val* var511 /* : nullable Object */; val* var512 /* : Array[Object] */; long var513 /* : Int */; val* var514 /* : NativeArray[Object] */; val* var515 /* : String */; val* var516 /* : RuntimeVariable */; short int var517 /* : Bool */; static val* varonce518; val* var519 /* : String */; char* var520 /* : NativeString */; long var521 /* : Int */; val* var522 /* : FlatString */; short int var523 /* : Bool */; short int var524 /* : Bool */; long var525 /* : Int */; val* var526 /* : nullable Object */; long var527 /* : Int */; val* var528 /* : nullable Object */; val* var529 /* : RuntimeVariable */; short int var530 /* : Bool */; static val* varonce531; val* var532 /* : String */; char* var533 /* : NativeString */; long var534 /* : Int */; val* var535 /* : FlatString */; short int var536 /* : Bool */; short int var537 /* : Bool */; long var538 /* : Int */; val* var539 /* : nullable Object */; long var540 /* : Int */; val* var541 /* : nullable Object */; val* var542 /* : RuntimeVariable */; val* var_res543 /* var res: RuntimeVariable */; static val* varonce544; val* var545 /* : String */; char* var546 /* : NativeString */; long var547 /* : Int */; val* var548 /* : FlatString */; val* var549 /* : Array[Object] */; long var550 /* : Int */; val* var551 /* : NativeArray[Object] */; val* var552 /* : String */; val* var553 /* : RuntimeVariable */; short int var554 /* : Bool */; static val* varonce555; val* var556 /* : String */; char* var557 /* : NativeString */; long var558 /* : Int */; val* var559 /* : FlatString */; short int var560 /* : Bool */; short int var561 /* : Bool */; long var562 /* : Int */; val* var563 /* : nullable Object */; static val* varonce564; val* var565 /* : String */; char* var566 /* : NativeString */; long var567 /* : Int */; val* var568 /* : FlatString */; long var569 /* : Int */; val* var570 /* : nullable Object */; val* var571 /* : Array[Object] */; long var572 /* : Int */; val* var573 /* : NativeArray[Object] */; val* var574 /* : String */; val* var575 /* : RuntimeVariable */; short int var576 /* : Bool */; static val* varonce577; val* var578 /* : String */; char* var579 /* : NativeString */; long var580 /* : Int */; val* var581 /* : FlatString */; short int var582 /* : Bool */; short int var583 /* : Bool */; long var584 /* : Int */; val* var585 /* : nullable Object */; static val* varonce586; val* var587 /* : String */; char* var588 /* : NativeString */; long var589 /* : Int */; val* var590 /* : FlatString */; long var591 /* : Int */; val* var592 /* : nullable Object */; val* var593 /* : Array[Object] */; long var594 /* : Int */; val* var595 /* : NativeArray[Object] */; val* var596 /* : String */; val* var597 /* : RuntimeVariable */; short int var598 /* : Bool */; static val* varonce599; val* var600 /* : String */; char* var601 /* : NativeString */; long var602 /* : Int */; val* var603 /* : FlatString */; short int var604 /* : Bool */; short int var605 /* : Bool */; long var606 /* : Int */; val* var607 /* : nullable Object */; static val* varonce608; val* var609 /* : String */; char* var610 /* : NativeString */; long var611 /* : Int */; val* var612 /* : FlatString */; long var613 /* : Int */; val* var614 /* : nullable Object */; val* var615 /* : Array[Object] */; long var616 /* : Int */; val* var617 /* : NativeArray[Object] */; val* var618 /* : String */; val* var619 /* : RuntimeVariable */; short int var620 /* : Bool */; static val* varonce621; val* var622 /* : String */; char* var623 /* : NativeString */; long var624 /* : Int */; val* var625 /* : FlatString */; short int var626 /* : Bool */; short int var627 /* : Bool */; long var628 /* : Int */; val* var629 /* : nullable Object */; static val* varonce630; val* var631 /* : String */; char* var632 /* : NativeString */; long var633 /* : Int */; val* var634 /* : FlatString */; long var635 /* : Int */; val* var636 /* : nullable Object */; val* var637 /* : Array[Object] */; long var638 /* : Int */; val* var639 /* : NativeArray[Object] */; val* var640 /* : String */; val* var641 /* : RuntimeVariable */; short int var642 /* : Bool */; static val* varonce643; val* var644 /* : String */; char* var645 /* : NativeString */; long var646 /* : Int */; val* var647 /* : FlatString */; short int var648 /* : Bool */; short int var649 /* : Bool */; long var650 /* : Int */; val* var651 /* : nullable Object */; static val* varonce652; val* var653 /* : String */; char* var654 /* : NativeString */; long var655 /* : Int */; val* var656 /* : FlatString */; val* var657 /* : Array[Object] */; long var658 /* : Int */; val* var659 /* : NativeArray[Object] */; val* var660 /* : String */; val* var661 /* : RuntimeVariable */; short int var662 /* : Bool */; static val* varonce663; val* var664 /* : String */; char* var665 /* : NativeString */; long var666 /* : Int */; val* var667 /* : FlatString */; short int var668 /* : Bool */; short int var669 /* : Bool */; static val* varonce670; val* var671 /* : String */; char* var672 /* : NativeString */; long var673 /* : Int */; val* var674 /* : FlatString */; long var675 /* : Int */; val* var676 /* : nullable Object */; val* var677 /* : Array[Object] */; long var678 /* : Int */; val* var679 /* : NativeArray[Object] */; val* var680 /* : String */; val* var681 /* : RuntimeVariable */; short int var682 /* : Bool */; static val* varonce683; val* var684 /* : String */; char* var685 /* : NativeString */; long var686 /* : Int */; val* var687 /* : FlatString */; short int var688 /* : Bool */; short int var689 /* : Bool */; static val* varonce690; val* var691 /* : String */; char* var692 /* : NativeString */; long var693 /* : Int */; val* var694 /* : FlatString */; short int var695 /* : Bool */; short int var696 /* : Bool */; static val* varonce697; val* var698 /* : String */; char* var699 /* : NativeString */; long var700 /* : Int */; val* var701 /* : FlatString */; val* var702 /* : nullable Object */; static val* varonce703; val* var704 /* : String */; char* var705 /* : NativeString */; long var706 /* : Int */; val* var707 /* : FlatString */; val* var708 /* : Array[Object] */; long var709 /* : Int */; val* var710 /* : NativeArray[Object] */; val* var711 /* : String */; short int var712 /* : Bool */; static val* varonce713; val* var714 /* : String */; char* var715 /* : NativeString */; long var716 /* : Int */; val* var717 /* : FlatString */; short int var718 /* : Bool */; short int var719 /* : Bool */; static val* varonce720; val* var721 /* : String */; char* var722 /* : NativeString */; long var723 /* : Int */; val* var724 /* : FlatString */; val* var725 /* : nullable Object */; val* var726 /* : Array[Object] */; long var727 /* : Int */; val* var728 /* : NativeArray[Object] */; val* var729 /* : String */; val* var730 /* : RuntimeVariable */; short int var731 /* : Bool */; static val* varonce732; val* var733 /* : String */; char* var734 /* : NativeString */; long var735 /* : Int */; val* var736 /* : FlatString */; short int var737 /* : Bool */; short int var738 /* : Bool */; long var739 /* : Int */; val* var740 /* : nullable Object */; long var741 /* : Int */; val* var742 /* : nullable Object */; val* var743 /* : RuntimeVariable */; short int var744 /* : Bool */; static val* varonce745; val* var746 /* : String */; char* var747 /* : NativeString */; long var748 /* : Int */; val* var749 /* : FlatString */; short int var750 /* : Bool */; short int var751 /* : Bool */; long var752 /* : Int */; val* var753 /* : nullable Object */; long var754 /* : Int */; val* var755 /* : nullable Object */; val* var756 /* : RuntimeVariable */; val* var_res757 /* var res: RuntimeVariable */; static val* varonce758; val* var759 /* : String */; char* var760 /* : NativeString */; long var761 /* : Int */; val* var762 /* : FlatString */; val* var763 /* : Array[Object] */; long var764 /* : Int */; val* var765 /* : NativeArray[Object] */; val* var766 /* : String */; val* var767 /* : RuntimeVariable */; short int var768 /* : Bool */; static val* varonce769; val* var770 /* : String */; char* var771 /* : NativeString */; long var772 /* : Int */; val* var773 /* : FlatString */; short int var774 /* : Bool */; short int var775 /* : Bool */; static val* varonce776; val* var777 /* : String */; char* var778 /* : NativeString */; long var779 /* : Int */; val* var780 /* : FlatString */; short int var781 /* : Bool */; short int var782 /* : Bool */; static val* varonce783; val* var784 /* : String */; char* var785 /* : NativeString */; long var786 /* : Int */; val* var787 /* : FlatString */; val* var788 /* : nullable Object */; static val* varonce789; val* var790 /* : String */; char* var791 /* : NativeString */; long var792 /* : Int */; val* var793 /* : FlatString */; val* var794 /* : Array[Object] */; long var795 /* : Int */; val* var796 /* : NativeArray[Object] */; val* var797 /* : String */; short int var798 /* : Bool */; static val* varonce799; val* var800 /* : String */; char* var801 /* : NativeString */; long var802 /* : Int */; val* var803 /* : FlatString */; short int var804 /* : Bool */; short int var805 /* : Bool */; static val* varonce806; val* var807 /* : String */; char* var808 /* : NativeString */; long var809 /* : Int */; val* var810 /* : FlatString */; val* var811 /* : nullable Object */; val* var812 /* : Array[Object] */; long var813 /* : Int */; val* var814 /* : NativeArray[Object] */; val* var815 /* : String */; val* var816 /* : RuntimeVariable */; short int var817 /* : Bool */; static val* varonce818; val* var819 /* : String */; char* var820 /* : NativeString */; long var821 /* : Int */; val* var822 /* : FlatString */; short int var823 /* : Bool */; short int var824 /* : Bool */; long var825 /* : Int */; val* var826 /* : nullable Object */; static val* varonce827; val* var828 /* : String */; char* var829 /* : NativeString */; long var830 /* : Int */; val* var831 /* : FlatString */; long var832 /* : Int */; val* var833 /* : nullable Object */; val* var834 /* : Array[Object] */; long var835 /* : Int */; val* var836 /* : NativeArray[Object] */; val* var837 /* : String */; val* var838 /* : RuntimeVariable */; short int var839 /* : Bool */; static val* varonce840; val* var841 /* : String */; char* var842 /* : NativeString */; long var843 /* : Int */; val* var844 /* : FlatString */; short int var845 /* : Bool */; short int var846 /* : Bool */; long var847 /* : Int */; val* var848 /* : nullable Object */; static val* varonce849; val* var850 /* : String */; char* var851 /* : NativeString */; long var852 /* : Int */; val* var853 /* : FlatString */; long var854 /* : Int */; val* var855 /* : nullable Object */; val* var856 /* : Array[Object] */; long var857 /* : Int */; val* var858 /* : NativeArray[Object] */; val* var859 /* : String */; val* var860 /* : RuntimeVariable */; short int var861 /* : Bool */; static val* varonce862; val* var863 /* : String */; char* var864 /* : NativeString */; long var865 /* : Int */; val* var866 /* : FlatString */; short int var867 /* : Bool */; short int var868 /* : Bool */; static val* varonce869; val* var870 /* : String */; char* var871 /* : NativeString */; long var872 /* : Int */; val* var873 /* : FlatString */; long var874 /* : Int */; val* var875 /* : nullable Object */; val* var876 /* : Array[Object] */; long var877 /* : Int */; val* var878 /* : NativeArray[Object] */; val* var879 /* : String */; val* var880 /* : RuntimeVariable */; short int var881 /* : Bool */; static val* varonce882; val* var883 /* : String */; char* var884 /* : NativeString */; long var885 /* : Int */; val* var886 /* : FlatString */; short int var887 /* : Bool */; short int var888 /* : Bool */; long var889 /* : Int */; val* var890 /* : nullable Object */; static val* varonce891; val* var892 /* : String */; char* var893 /* : NativeString */; long var894 /* : Int */; val* var895 /* : FlatString */; val* var896 /* : Array[Object] */; long var897 /* : Int */; val* var898 /* : NativeArray[Object] */; val* var899 /* : String */; val* var900 /* : RuntimeVariable */; short int var901 /* : Bool */; static val* varonce902; val* var903 /* : String */; char* var904 /* : NativeString */; long var905 /* : Int */; val* var906 /* : FlatString */; short int var907 /* : Bool */; short int var908 /* : Bool */; long var909 /* : Int */; val* var910 /* : nullable Object */; static val* varonce911; val* var912 /* : String */; char* var913 /* : NativeString */; long var914 /* : Int */; val* var915 /* : FlatString */; val* var916 /* : Array[Object] */; long var917 /* : Int */; val* var918 /* : NativeArray[Object] */; val* var919 /* : String */; val* var920 /* : RuntimeVariable */; short int var921 /* : Bool */; static val* varonce922; val* var923 /* : String */; char* var924 /* : NativeString */; long var925 /* : Int */; val* var926 /* : FlatString */; short int var927 /* : Bool */; short int var928 /* : Bool */; long var929 /* : Int */; val* var930 /* : nullable Object */; static val* varonce931; val* var932 /* : String */; char* var933 /* : NativeString */; long var934 /* : Int */; val* var935 /* : FlatString */; long var936 /* : Int */; val* var937 /* : nullable Object */; val* var938 /* : Array[Object] */; long var939 /* : Int */; val* var940 /* : NativeArray[Object] */; val* var941 /* : String */; val* var942 /* : RuntimeVariable */; short int var943 /* : Bool */; static val* varonce944; val* var945 /* : String */; char* var946 /* : NativeString */; long var947 /* : Int */; val* var948 /* : FlatString */; short int var949 /* : Bool */; short int var950 /* : Bool */; long var951 /* : Int */; val* var952 /* : nullable Object */; static val* varonce953; val* var954 /* : String */; char* var955 /* : NativeString */; long var956 /* : Int */; val* var957 /* : FlatString */; long var958 /* : Int */; val* var959 /* : nullable Object */; val* var960 /* : Array[Object] */; long var961 /* : Int */; val* var962 /* : NativeArray[Object] */; val* var963 /* : String */; val* var964 /* : RuntimeVariable */; short int var965 /* : Bool */; static val* varonce966; val* var967 /* : String */; char* var968 /* : NativeString */; long var969 /* : Int */; val* var970 /* : FlatString */; short int var971 /* : Bool */; short int var972 /* : Bool */; long var973 /* : Int */; val* var974 /* : nullable Object */; long var975 /* : Int */; val* var976 /* : nullable Object */; val* var977 /* : RuntimeVariable */; short int var978 /* : Bool */; static val* varonce979; val* var980 /* : String */; char* var981 /* : NativeString */; long var982 /* : Int */; val* var983 /* : FlatString */; short int var984 /* : Bool */; short int var985 /* : Bool */; long var986 /* : Int */; val* var987 /* : nullable Object */; long var988 /* : Int */; val* var989 /* : nullable Object */; val* var990 /* : RuntimeVariable */; val* var_res991 /* var res: RuntimeVariable */; static val* varonce992; val* var993 /* : String */; char* var994 /* : NativeString */; long var995 /* : Int */; val* var996 /* : FlatString */; val* var997 /* : Array[Object] */; long var998 /* : Int */; val* var999 /* : NativeArray[Object] */; val* var1000 /* : String */; val* var1001 /* : RuntimeVariable */; short int var1002 /* : Bool */; static val* varonce1003; val* var1004 /* : String */; char* var1005 /* : NativeString */; long var1006 /* : Int */; val* var1007 /* : FlatString */; short int var1008 /* : Bool */; short int var1009 /* : Bool */; long var1010 /* : Int */; val* var1011 /* : nullable Object */; static val* varonce1012; val* var1013 /* : String */; char* var1014 /* : NativeString */; long var1015 /* : Int */; val* var1016 /* : FlatString */; long var1017 /* : Int */; val* var1018 /* : nullable Object */; val* var1019 /* : Array[Object] */; long var1020 /* : Int */; val* var1021 /* : NativeArray[Object] */; val* var1022 /* : String */; val* var1023 /* : RuntimeVariable */; short int var1024 /* : Bool */; static val* varonce1025; val* var1026 /* : String */; char* var1027 /* : NativeString */; long var1028 /* : Int */; val* var1029 /* : FlatString */; short int var1030 /* : Bool */; short int var1031 /* : Bool */; long var1032 /* : Int */; val* var1033 /* : nullable Object */; static val* varonce1034; val* var1035 /* : String */; char* var1036 /* : NativeString */; long var1037 /* : Int */; val* var1038 /* : FlatString */; long var1039 /* : Int */; val* var1040 /* : nullable Object */; val* var1041 /* : Array[Object] */; long var1042 /* : Int */; val* var1043 /* : NativeArray[Object] */; val* var1044 /* : String */; val* var1045 /* : RuntimeVariable */; short int var1046 /* : Bool */; static val* varonce1047; val* var1048 /* : String */; char* var1049 /* : NativeString */; long var1050 /* : Int */; val* var1051 /* : FlatString */; short int var1052 /* : Bool */; short int var1053 /* : Bool */; long var1054 /* : Int */; val* var1055 /* : nullable Object */; static val* varonce1056; val* var1057 /* : String */; char* var1058 /* : NativeString */; long var1059 /* : Int */; val* var1060 /* : FlatString */; long var1061 /* : Int */; val* var1062 /* : nullable Object */; val* var1063 /* : Array[Object] */; long var1064 /* : Int */; val* var1065 /* : NativeArray[Object] */; val* var1066 /* : String */; val* var1067 /* : RuntimeVariable */; short int var1068 /* : Bool */; static val* varonce1069; val* var1070 /* : String */; char* var1071 /* : NativeString */; long var1072 /* : Int */; val* var1073 /* : FlatString */; short int var1074 /* : Bool */; short int var1075 /* : Bool */; long var1076 /* : Int */; val* var1077 /* : nullable Object */; static val* varonce1078; val* var1079 /* : String */; char* var1080 /* : NativeString */; long var1081 /* : Int */; val* var1082 /* : FlatString */; long var1083 /* : Int */; val* var1084 /* : nullable Object */; val* var1085 /* : Array[Object] */; long var1086 /* : Int */; val* var1087 /* : NativeArray[Object] */; val* var1088 /* : String */; val* var1089 /* : RuntimeVariable */; short int var1090 /* : Bool */; static val* varonce1091; val* var1092 /* : String */; char* var1093 /* : NativeString */; long var1094 /* : Int */; val* var1095 /* : FlatString */; short int var1096 /* : Bool */; short int var1097 /* : Bool */; static val* varonce1098; val* var1099 /* : String */; char* var1100 /* : NativeString */; long var1101 /* : Int */; val* var1102 /* : FlatString */; long var1103 /* : Int */; val* var1104 /* : nullable Object */; val* var1105 /* : Array[Object] */; long var1106 /* : Int */; val* var1107 /* : NativeArray[Object] */; val* var1108 /* : String */; val* var1109 /* : RuntimeVariable */; short int var1110 /* : Bool */; static val* varonce1111; val* var1112 /* : String */; char* var1113 /* : NativeString */; long var1114 /* : Int */; val* var1115 /* : FlatString */; short int var1116 /* : Bool */; short int var1117 /* : Bool */; static val* varonce1118; val* var1119 /* : String */; char* var1120 /* : NativeString */; long var1121 /* : Int */; val* var1122 /* : FlatString */; short int var1123 /* : Bool */; short int var1124 /* : Bool */; long var1125 /* : Int */; val* var1126 /* : nullable Object */; static val* varonce1127; val* var1128 /* : String */; char* var1129 /* : NativeString */; long var1130 /* : Int */; val* var1131 /* : FlatString */; long var1132 /* : Int */; val* var1133 /* : nullable Object */; static val* varonce1134; val* var1135 /* : String */; char* var1136 /* : NativeString */; long var1137 /* : Int */; val* var1138 /* : FlatString */; val* var1139 /* : Array[Object] */; long var1140 /* : Int */; val* var1141 /* : NativeArray[Object] */; val* var1142 /* : String */; val* var1143 /* : RuntimeVariable */; short int var1144 /* : Bool */; static val* varonce1145; val* var1146 /* : String */; char* var1147 /* : NativeString */; long var1148 /* : Int */; val* var1149 /* : FlatString */; short int var1150 /* : Bool */; short int var1151 /* : Bool */; long var1152 /* : Int */; val* var1153 /* : nullable Object */; static val* varonce1154; val* var1155 /* : String */; char* var1156 /* : NativeString */; long var1157 /* : Int */; val* var1158 /* : FlatString */; long var1159 /* : Int */; val* var1160 /* : nullable Object */; static val* varonce1161; val* var1162 /* : String */; char* var1163 /* : NativeString */; long var1164 /* : Int */; val* var1165 /* : FlatString */; long var1166 /* : Int */; val* var1167 /* : nullable Object */; static val* varonce1168; val* var1169 /* : String */; char* var1170 /* : NativeString */; long var1171 /* : Int */; val* var1172 /* : FlatString */; val* var1173 /* : Array[Object] */; long var1174 /* : Int */; val* var1175 /* : NativeArray[Object] */; val* var1176 /* : String */; short int var1177 /* : Bool */; static val* varonce1178; val* var1179 /* : String */; char* var1180 /* : NativeString */; long var1181 /* : Int */; val* var1182 /* : FlatString */; short int var1183 /* : Bool */; short int var1184 /* : Bool */; static val* varonce1185; val* var1186 /* : String */; char* var1187 /* : NativeString */; long var1188 /* : Int */; val* var1189 /* : FlatString */; long var1190 /* : Int */; val* var1191 /* : nullable Object */; static val* varonce1192; val* var1193 /* : String */; char* var1194 /* : NativeString */; long var1195 /* : Int */; val* var1196 /* : FlatString */; long var1197 /* : Int */; val* var1198 /* : nullable Object */; static val* varonce1199; val* var1200 /* : String */; char* var1201 /* : NativeString */; long var1202 /* : Int */; val* var1203 /* : FlatString */; long var1204 /* : Int */; val* var1205 /* : nullable Object */; static val* varonce1206; val* var1207 /* : String */; char* var1208 /* : NativeString */; long var1209 /* : Int */; val* var1210 /* : FlatString */; long var1211 /* : Int */; val* var1212 /* : nullable Object */; static val* varonce1213; val* var1214 /* : String */; char* var1215 /* : NativeString */; long var1216 /* : Int */; val* var1217 /* : FlatString */; long var1218 /* : Int */; val* var1219 /* : nullable Object */; static val* varonce1220; val* var1221 /* : String */; char* var1222 /* : NativeString */; long var1223 /* : Int */; val* var1224 /* : FlatString */; val* var1225 /* : Array[Object] */; long var1226 /* : Int */; val* var1227 /* : NativeArray[Object] */; val* var1228 /* : String */; short int var1229 /* : Bool */; static val* varonce1230; val* var1231 /* : String */; char* var1232 /* : NativeString */; long var1233 /* : Int */; val* var1234 /* : FlatString */; short int var1235 /* : Bool */; short int var1236 /* : Bool */; static val* varonce1237; val* var1238 /* : String */; char* var1239 /* : NativeString */; long var1240 /* : Int */; val* var1241 /* : FlatString */; long var1242 /* : Int */; val* var1243 /* : nullable Object */; static val* varonce1244; val* var1245 /* : String */; char* var1246 /* : NativeString */; long var1247 /* : Int */; val* var1248 /* : FlatString */; val* var1249 /* : Array[Object] */; long var1250 /* : Int */; val* var1251 /* : NativeArray[Object] */; val* var1252 /* : String */; val* var1253 /* : RuntimeVariable */; short int var1254 /* : Bool */; static val* varonce1255; val* var1256 /* : String */; char* var1257 /* : NativeString */; long var1258 /* : Int */; val* var1259 /* : FlatString */; short int var1260 /* : Bool */; short int var1261 /* : Bool */; static val* varonce1262; val* var1263 /* : String */; char* var1264 /* : NativeString */; long var1265 /* : Int */; val* var1266 /* : FlatString */; long var1267 /* : Int */; val* var1268 /* : nullable Object */; static val* varonce1269; val* var1270 /* : String */; char* var1271 /* : NativeString */; long var1272 /* : Int */; val* var1273 /* : FlatString */; val* var1274 /* : Array[Object] */; long var1275 /* : Int */; val* var1276 /* : NativeArray[Object] */; val* var1277 /* : String */; val* var1278 /* : RuntimeVariable */; short int var1279 /* : Bool */; static val* varonce1280; val* var1281 /* : String */; char* var1282 /* : NativeString */; long var1283 /* : Int */; val* var1284 /* : FlatString */; short int var1285 /* : Bool */; short int var1286 /* : Bool */; short int var1287 /* : Bool */; static val* varonce1288; val* var1289 /* : String */; char* var1290 /* : NativeString */; long var1291 /* : Int */; val* var1292 /* : FlatString */; short int var1293 /* : Bool */; short int var1294 /* : Bool */; static val* varonce1295; val* var1296 /* : String */; char* var1297 /* : NativeString */; long var1298 /* : Int */; val* var1299 /* : FlatString */; long var1300 /* : Int */; val* var1301 /* : nullable Object */; static val* varonce1302; val* var1303 /* : String */; char* var1304 /* : NativeString */; long var1305 /* : Int */; val* var1306 /* : FlatString */; val* var1307 /* : Array[Object] */; long var1308 /* : Int */; val* var1309 /* : NativeArray[Object] */; val* var1310 /* : String */; short int var1311 /* : Bool */; static val* varonce1312; val* var1313 /* : String */; char* var1314 /* : NativeString */; long var1315 /* : Int */; val* var1316 /* : FlatString */; short int var1317 /* : Bool */; short int var1318 /* : Bool */; static val* varonce1319; val* var1320 /* : String */; char* var1321 /* : NativeString */; long var1322 /* : Int */; val* var1323 /* : FlatString */; val* var1324 /* : RuntimeVariable */; short int var1325 /* : Bool */; static val* varonce1326; val* var1327 /* : String */; char* var1328 /* : NativeString */; long var1329 /* : Int */; val* var1330 /* : FlatString */; short int var1331 /* : Bool */; short int var1332 /* : Bool */; static val* varonce1333; val* var1334 /* : String */; char* var1335 /* : NativeString */; long var1336 /* : Int */; val* var1337 /* : FlatString */; long var1338 /* : Int */; val* var1339 /* : nullable Object */; static val* varonce1340; val* var1341 /* : String */; char* var1342 /* : NativeString */; long var1343 /* : Int */; val* var1344 /* : FlatString */; val* var1345 /* : Array[Object] */; long var1346 /* : Int */; val* var1347 /* : NativeArray[Object] */; val* var1348 /* : String */; val* var1349 /* : RuntimeVariable */; short int var1350 /* : Bool */; static val* varonce1351; val* var1352 /* : String */; char* var1353 /* : NativeString */; long var1354 /* : Int */; val* var1355 /* : FlatString */; short int var1356 /* : Bool */; short int var1357 /* : Bool */; short int var1358 /* : Bool */; static val* varonce1359; val* var1360 /* : String */; char* var1361 /* : NativeString */; long var1362 /* : Int */; val* var1363 /* : FlatString */; short int var1364 /* : Bool */; short int var1365 /* : Bool */; static val* varonce1366; val* var1367 /* : String */; char* var1368 /* : NativeString */; long var1369 /* : Int */; val* var1370 /* : FlatString */; val* var1371 /* : nullable Object */; val* var1372 /* : Array[Object] */; long var1373 /* : Int */; val* var1374 /* : NativeArray[Object] */; val* var1375 /* : String */; val* var1376 /* : RuntimeVariable */; short int var1377 /* : Bool */; static val* varonce1378; val* var1379 /* : String */; char* var1380 /* : NativeString */; long var1381 /* : Int */; val* var1382 /* : FlatString */; short int var1383 /* : Bool */; short int var1384 /* : Bool */; long var1385 /* : Int */; val* var1386 /* : nullable Object */; long var1387 /* : Int */; val* var1388 /* : nullable Object */; val* var1389 /* : RuntimeVariable */; short int var1390 /* : Bool */; static val* varonce1391; val* var1392 /* : String */; char* var1393 /* : NativeString */; long var1394 /* : Int */; val* var1395 /* : FlatString */; short int var1396 /* : Bool */; short int var1397 /* : Bool */; long var1398 /* : Int */; val* var1399 /* : nullable Object */; long var1400 /* : Int */; val* var1401 /* : nullable Object */; val* var1402 /* : RuntimeVariable */; short int var1403 /* : Bool */; static val* varonce1404; val* var1405 /* : String */; char* var1406 /* : NativeString */; long var1407 /* : Int */; val* var1408 /* : FlatString */; short int var1409 /* : Bool */; short int var1410 /* : Bool */; val* var1411 /* : nullable Object */; val* var1412 /* : String */; val* var_nat /* var nat: String */; static val* varonce1413; val* var1414 /* : String */; char* var1415 /* : NativeString */; long var1416 /* : Int */; val* var1417 /* : FlatString */; static val* varonce1418; val* var1419 /* : String */; char* var1420 /* : NativeString */; long var1421 /* : Int */; val* var1422 /* : FlatString */; val* var1423 /* : Array[Object] */; long var1424 /* : Int */; val* var1425 /* : NativeArray[Object] */; val* var1426 /* : String */; short int var1427 /* : Bool */; static val* varonce1428; val* var1429 /* : String */; char* var1430 /* : NativeString */; long var1431 /* : Int */; val* var1432 /* : FlatString */; short int var1433 /* : Bool */; short int var1434 /* : Bool */; val* var1435 /* : nullable Object */; val* var1436 /* : String */; val* var_nat1437 /* var nat: String */; static val* varonce1438; val* var1439 /* : String */; char* var1440 /* : NativeString */; long var1441 /* : Int */; val* var1442 /* : FlatString */; val* var1443 /* : Array[Object] */; long var1444 /* : Int */; val* var1445 /* : NativeArray[Object] */; val* var1446 /* : String */; val* var1447 /* : RuntimeVariable */; short int var1448 /* : Bool */; static val* varonce1449; val* var1450 /* : String */; char* var1451 /* : NativeString */; long var1452 /* : Int */; val* var1453 /* : FlatString */; short int var1454 /* : Bool */; short int var1455 /* : Bool */; static val* varonce1456; val* var1457 /* : String */; char* var1458 /* : NativeString */; long var1459 /* : Int */; val* var1460 /* : FlatString */; short int var1461 /* : Bool */; static val* varonce1462; val* var1463 /* : String */; char* var1464 /* : NativeString */; long var1465 /* : Int */; val* var1466 /* : FlatString */; short int var1467 /* : Bool */; short int var1468 /* : Bool */; static val* varonce1469; val* var1470 /* : String */; char* var1471 /* : NativeString */; long var1472 /* : Int */; val* var1473 /* : FlatString */; val* var1474 /* : RuntimeVariable */; short int var1475 /* : Bool */; static val* varonce1476; val* var1477 /* : String */; char* var1478 /* : NativeString */; long var1479 /* : Int */; val* var1480 /* : FlatString */; short int var1481 /* : Bool */; short int var1482 /* : Bool */; static val* varonce1483; val* var1484 /* : String */; char* var1485 /* : NativeString */; long var1486 /* : Int */; val* var1487 /* : FlatString */; long var1488 /* : Int */; val* var1489 /* : nullable Object */; static val* varonce1490; val* var1491 /* : String */; char* var1492 /* : NativeString */; long var1493 /* : Int */; val* var1494 /* : FlatString */; val* var1495 /* : Array[Object] */; long var1496 /* : Int */; val* var1497 /* : NativeArray[Object] */; val* var1498 /* : String */; val* var1499 /* : RuntimeVariable */; short int var1500 /* : Bool */; short int var1501 /* : Bool */; var_v = p0; var_mpropdef = p1; var_arguments = p2; { { /* Inline model#MPropDef#mproperty (var_mpropdef) on <var_mpropdef:MMethodDef> */ var3 = var_mpropdef->attrs[COLOR_model__MPropDef___mproperty].val; /* _mproperty on <var_mpropdef:MMethodDef> */ if (unlikely(var3 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mproperty"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var1 = var3; RET_LABEL2:(void)0; } } { { /* Inline model#MProperty#name (var1) on <var1:MProperty(MMethod)> */ var6 = var1->attrs[COLOR_model__MProperty___name].val; /* _name on <var1:MProperty(MMethod)> */ if (unlikely(var6 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _name"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1620); show_backtrace(1); } var4 = var6; RET_LABEL5:(void)0; } } var_pname = var4; { { /* Inline model#MPropDef#mclassdef (var_mpropdef) on <var_mpropdef:MMethodDef> */ var9 = var_mpropdef->attrs[COLOR_model__MPropDef___mclassdef].val; /* _mclassdef on <var_mpropdef:MMethodDef> */ if (unlikely(var9 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mclassdef"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1895); show_backtrace(1); } var7 = var9; RET_LABEL8:(void)0; } } { { /* Inline model#MClassDef#mclass (var7) on <var7:MClassDef> */ var12 = var7->attrs[COLOR_model__MClassDef___mclass].val; /* _mclass on <var7:MClassDef> */ if (unlikely(var12 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mclass"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 492); show_backtrace(1); } var10 = var12; RET_LABEL11:(void)0; } } { { /* Inline model#MClass#name (var10) on <var10:MClass> */ var15 = var10->attrs[COLOR_model__MClass___name].val; /* _name on <var10:MClass> */ if (unlikely(var15 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _name"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 352); show_backtrace(1); } var13 = var15; RET_LABEL14:(void)0; } } var_cname = var13; { { /* Inline model#MMethodDef#msignature (var_mpropdef) on <var_mpropdef:MMethodDef> */ var18 = var_mpropdef->attrs[COLOR_model__MMethodDef___msignature].val; /* _msignature on <var_mpropdef:MMethodDef> */ var16 = var18; RET_LABEL17:(void)0; } } if (var16 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2008); show_backtrace(1); } else { { /* Inline model#MSignature#return_mtype (var16) on <var16:nullable MSignature> */ if (unlikely(var16 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1468); show_backtrace(1); } var21 = var16->attrs[COLOR_model__MSignature___return_mtype].val; /* _return_mtype on <var16:nullable MSignature> */ var19 = var21; RET_LABEL20:(void)0; } } var_ret = var19; var22 = NULL; if (var_ret == NULL) { var23 = 0; /* is null */ } else { var23 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_ret,var22) on <var_ret:nullable MType> */ var_other = var22; { var27 = ((short int (*)(val*, val*))(var_ret->class->vft[COLOR_kernel__Object___61d_61d]))(var_ret, var_other) /* == on <var_ret:nullable MType(MType)>*/; var26 = var27; } var28 = !var26; var24 = var28; goto RET_LABEL25; RET_LABEL25:(void)0; } var23 = var24; } if (var23){ { var29 = abstract_collection__SequenceRead__first(var_arguments); } { var30 = abstract_compiler__AbstractCompilerVisitor__resolve_for(var_v, var_ret, var29); } var_ret = var30; } else { } if (varonce) { var32 = varonce; } else { var33 = "=="; var34 = 2; var35 = string__NativeString__to_s_with_length(var33, var34); var32 = var35; varonce = var32; } { { /* Inline kernel#Object#!= (var_pname,var32) on <var_pname:String> */ var_other = var32; { var40 = ((short int (*)(val*, val*))(var_pname->class->vft[COLOR_kernel__Object___61d_61d]))(var_pname, var_other) /* == on <var_pname:String>*/; var39 = var40; } var41 = !var39; var37 = var41; goto RET_LABEL38; RET_LABEL38:(void)0; } var36 = var37; } var_ = var36; if (var36){ if (varonce42) { var43 = varonce42; } else { var44 = "!="; var45 = 2; var46 = string__NativeString__to_s_with_length(var44, var45); var43 = var46; varonce42 = var43; } { { /* Inline kernel#Object#!= (var_pname,var43) on <var_pname:String> */ var_other = var43; { var51 = ((short int (*)(val*, val*))(var_pname->class->vft[COLOR_kernel__Object___61d_61d]))(var_pname, var_other) /* == on <var_pname:String>*/; var50 = var51; } var52 = !var50; var48 = var52; goto RET_LABEL49; RET_LABEL49:(void)0; } var47 = var48; } var31 = var47; } else { var31 = var_; } if (var31){ { separate_compiler__SeparateCompilerVisitor__adapt_signature(var_v, var_mpropdef, var_arguments); /* Direct call separate_compiler#SeparateCompilerVisitor#adapt_signature on <var_v:AbstractCompilerVisitor>*/ } { separate_compiler__SeparateCompilerVisitor__unbox_signature_extern(var_v, var_mpropdef, var_arguments); /* Direct call separate_compiler#SeparateCompilerVisitor#unbox_signature_extern on <var_v:AbstractCompilerVisitor>*/ } } else { } if (varonce53) { var54 = varonce53; } else { var55 = "Int"; var56 = 3; var57 = string__NativeString__to_s_with_length(var55, var56); var54 = var57; varonce53 = var54; } { var59 = string__FlatString___61d_61d(var_cname, var54); var58 = var59; } if (var58){ if (varonce60) { var61 = varonce60; } else { var62 = "output"; var63 = 6; var64 = string__NativeString__to_s_with_length(var62, var63); var61 = var64; varonce60 = var61; } { var66 = string__FlatString___61d_61d(var_pname, var61); var65 = var66; } if (var65){ if (varonce67) { var68 = varonce67; } else { var69 = "printf(\"%ld\\n\", "; var70 = 16; var71 = string__NativeString__to_s_with_length(var69, var70); var68 = var71; varonce67 = var68; } { var72 = abstract_collection__SequenceRead__first(var_arguments); } if (varonce73) { var74 = varonce73; } else { var75 = ");"; var76 = 2; var77 = string__NativeString__to_s_with_length(var75, var76); var74 = var77; varonce73 = var74; } var78 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var78 = array_instance Array[Object] */ var79 = 3; var80 = NEW_array__NativeArray(var79, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var80)->values[0] = (val*) var68; ((struct instance_array__NativeArray*)var80)->values[1] = (val*) var72; ((struct instance_array__NativeArray*)var80)->values[2] = (val*) var74; { ((void (*)(val*, val*, long))(var78->class->vft[COLOR_array__Array__with_native]))(var78, var80, var79) /* with_native on <var78:Array[Object]>*/; } } { var81 = ((val* (*)(val*))(var78->class->vft[COLOR_string__Object__to_s]))(var78) /* to_s on <var78:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var81); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var82 = 1; var = var82; goto RET_LABEL; } else { if (varonce83) { var84 = varonce83; } else { var85 = "object_id"; var86 = 9; var87 = string__NativeString__to_s_with_length(var85, var86); var84 = var87; varonce83 = var84; } { var89 = string__FlatString___61d_61d(var_pname, var84); var88 = var89; } if (var88){ { var90 = abstract_collection__SequenceRead__first(var_arguments); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var90); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var91 = 1; var = var91; goto RET_LABEL; } else { if (varonce92) { var93 = varonce92; } else { var94 = "+"; var95 = 1; var96 = string__NativeString__to_s_with_length(var94, var95); var93 = var96; varonce92 = var93; } { var98 = string__FlatString___61d_61d(var_pname, var93); var97 = var98; } if (var97){ var99 = 0; { var100 = array__Array___91d_93d(var_arguments, var99); } if (varonce101) { var102 = varonce101; } else { var103 = " + "; var104 = 3; var105 = string__NativeString__to_s_with_length(var103, var104); var102 = var105; varonce101 = var102; } var106 = 1; { var107 = array__Array___91d_93d(var_arguments, var106); } var108 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var108 = array_instance Array[Object] */ var109 = 3; var110 = NEW_array__NativeArray(var109, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var110)->values[0] = (val*) var100; ((struct instance_array__NativeArray*)var110)->values[1] = (val*) var102; ((struct instance_array__NativeArray*)var110)->values[2] = (val*) var107; { ((void (*)(val*, val*, long))(var108->class->vft[COLOR_array__Array__with_native]))(var108, var110, var109) /* with_native on <var108:Array[Object]>*/; } } { var111 = ((val* (*)(val*))(var108->class->vft[COLOR_string__Object__to_s]))(var108) /* to_s on <var108:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2024); show_backtrace(1); } { var112 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var111, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var112); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var113 = 1; var = var113; goto RET_LABEL; } else { if (varonce114) { var115 = varonce114; } else { var116 = "-"; var117 = 1; var118 = string__NativeString__to_s_with_length(var116, var117); var115 = var118; varonce114 = var115; } { var120 = string__FlatString___61d_61d(var_pname, var115); var119 = var120; } if (var119){ var121 = 0; { var122 = array__Array___91d_93d(var_arguments, var121); } if (varonce123) { var124 = varonce123; } else { var125 = " - "; var126 = 3; var127 = string__NativeString__to_s_with_length(var125, var126); var124 = var127; varonce123 = var124; } var128 = 1; { var129 = array__Array___91d_93d(var_arguments, var128); } var130 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var130 = array_instance Array[Object] */ var131 = 3; var132 = NEW_array__NativeArray(var131, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var132)->values[0] = (val*) var122; ((struct instance_array__NativeArray*)var132)->values[1] = (val*) var124; ((struct instance_array__NativeArray*)var132)->values[2] = (val*) var129; { ((void (*)(val*, val*, long))(var130->class->vft[COLOR_array__Array__with_native]))(var130, var132, var131) /* with_native on <var130:Array[Object]>*/; } } { var133 = ((val* (*)(val*))(var130->class->vft[COLOR_string__Object__to_s]))(var130) /* to_s on <var130:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2027); show_backtrace(1); } { var134 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var133, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var134); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var135 = 1; var = var135; goto RET_LABEL; } else { if (varonce136) { var137 = varonce136; } else { var138 = "unary -"; var139 = 7; var140 = string__NativeString__to_s_with_length(var138, var139); var137 = var140; varonce136 = var137; } { var142 = string__FlatString___61d_61d(var_pname, var137); var141 = var142; } if (var141){ if (varonce143) { var144 = varonce143; } else { var145 = "-"; var146 = 1; var147 = string__NativeString__to_s_with_length(var145, var146); var144 = var147; varonce143 = var144; } var148 = 0; { var149 = array__Array___91d_93d(var_arguments, var148); } var150 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var150 = array_instance Array[Object] */ var151 = 2; var152 = NEW_array__NativeArray(var151, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var152)->values[0] = (val*) var144; ((struct instance_array__NativeArray*)var152)->values[1] = (val*) var149; { ((void (*)(val*, val*, long))(var150->class->vft[COLOR_array__Array__with_native]))(var150, var152, var151) /* with_native on <var150:Array[Object]>*/; } } { var153 = ((val* (*)(val*))(var150->class->vft[COLOR_string__Object__to_s]))(var150) /* to_s on <var150:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2030); show_backtrace(1); } { var154 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var153, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var154); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var155 = 1; var = var155; goto RET_LABEL; } else { if (varonce156) { var157 = varonce156; } else { var158 = "*"; var159 = 1; var160 = string__NativeString__to_s_with_length(var158, var159); var157 = var160; varonce156 = var157; } { var162 = string__FlatString___61d_61d(var_pname, var157); var161 = var162; } if (var161){ var163 = 0; { var164 = array__Array___91d_93d(var_arguments, var163); } if (varonce165) { var166 = varonce165; } else { var167 = " * "; var168 = 3; var169 = string__NativeString__to_s_with_length(var167, var168); var166 = var169; varonce165 = var166; } var170 = 1; { var171 = array__Array___91d_93d(var_arguments, var170); } var172 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var172 = array_instance Array[Object] */ var173 = 3; var174 = NEW_array__NativeArray(var173, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var174)->values[0] = (val*) var164; ((struct instance_array__NativeArray*)var174)->values[1] = (val*) var166; ((struct instance_array__NativeArray*)var174)->values[2] = (val*) var171; { ((void (*)(val*, val*, long))(var172->class->vft[COLOR_array__Array__with_native]))(var172, var174, var173) /* with_native on <var172:Array[Object]>*/; } } { var175 = ((val* (*)(val*))(var172->class->vft[COLOR_string__Object__to_s]))(var172) /* to_s on <var172:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2033); show_backtrace(1); } { var176 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var175, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var176); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var177 = 1; var = var177; goto RET_LABEL; } else { if (varonce178) { var179 = varonce178; } else { var180 = "/"; var181 = 1; var182 = string__NativeString__to_s_with_length(var180, var181); var179 = var182; varonce178 = var179; } { var184 = string__FlatString___61d_61d(var_pname, var179); var183 = var184; } if (var183){ var185 = 0; { var186 = array__Array___91d_93d(var_arguments, var185); } if (varonce187) { var188 = varonce187; } else { var189 = " / "; var190 = 3; var191 = string__NativeString__to_s_with_length(var189, var190); var188 = var191; varonce187 = var188; } var192 = 1; { var193 = array__Array___91d_93d(var_arguments, var192); } var194 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var194 = array_instance Array[Object] */ var195 = 3; var196 = NEW_array__NativeArray(var195, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var196)->values[0] = (val*) var186; ((struct instance_array__NativeArray*)var196)->values[1] = (val*) var188; ((struct instance_array__NativeArray*)var196)->values[2] = (val*) var193; { ((void (*)(val*, val*, long))(var194->class->vft[COLOR_array__Array__with_native]))(var194, var196, var195) /* with_native on <var194:Array[Object]>*/; } } { var197 = ((val* (*)(val*))(var194->class->vft[COLOR_string__Object__to_s]))(var194) /* to_s on <var194:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2036); show_backtrace(1); } { var198 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var197, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var198); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var199 = 1; var = var199; goto RET_LABEL; } else { if (varonce200) { var201 = varonce200; } else { var202 = "%"; var203 = 1; var204 = string__NativeString__to_s_with_length(var202, var203); var201 = var204; varonce200 = var201; } { var206 = string__FlatString___61d_61d(var_pname, var201); var205 = var206; } if (var205){ var207 = 0; { var208 = array__Array___91d_93d(var_arguments, var207); } if (varonce209) { var210 = varonce209; } else { var211 = " % "; var212 = 3; var213 = string__NativeString__to_s_with_length(var211, var212); var210 = var213; varonce209 = var210; } var214 = 1; { var215 = array__Array___91d_93d(var_arguments, var214); } var216 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var216 = array_instance Array[Object] */ var217 = 3; var218 = NEW_array__NativeArray(var217, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var218)->values[0] = (val*) var208; ((struct instance_array__NativeArray*)var218)->values[1] = (val*) var210; ((struct instance_array__NativeArray*)var218)->values[2] = (val*) var215; { ((void (*)(val*, val*, long))(var216->class->vft[COLOR_array__Array__with_native]))(var216, var218, var217) /* with_native on <var216:Array[Object]>*/; } } { var219 = ((val* (*)(val*))(var216->class->vft[COLOR_string__Object__to_s]))(var216) /* to_s on <var216:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2039); show_backtrace(1); } { var220 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var219, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var220); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var221 = 1; var = var221; goto RET_LABEL; } else { if (varonce222) { var223 = varonce222; } else { var224 = "lshift"; var225 = 6; var226 = string__NativeString__to_s_with_length(var224, var225); var223 = var226; varonce222 = var223; } { var228 = string__FlatString___61d_61d(var_pname, var223); var227 = var228; } if (var227){ var229 = 0; { var230 = array__Array___91d_93d(var_arguments, var229); } if (varonce231) { var232 = varonce231; } else { var233 = " << "; var234 = 4; var235 = string__NativeString__to_s_with_length(var233, var234); var232 = var235; varonce231 = var232; } var236 = 1; { var237 = array__Array___91d_93d(var_arguments, var236); } var238 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var238 = array_instance Array[Object] */ var239 = 3; var240 = NEW_array__NativeArray(var239, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var240)->values[0] = (val*) var230; ((struct instance_array__NativeArray*)var240)->values[1] = (val*) var232; ((struct instance_array__NativeArray*)var240)->values[2] = (val*) var237; { ((void (*)(val*, val*, long))(var238->class->vft[COLOR_array__Array__with_native]))(var238, var240, var239) /* with_native on <var238:Array[Object]>*/; } } { var241 = ((val* (*)(val*))(var238->class->vft[COLOR_string__Object__to_s]))(var238) /* to_s on <var238:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2042); show_backtrace(1); } { var242 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var241, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var242); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var243 = 1; var = var243; goto RET_LABEL; } else { if (varonce244) { var245 = varonce244; } else { var246 = "rshift"; var247 = 6; var248 = string__NativeString__to_s_with_length(var246, var247); var245 = var248; varonce244 = var245; } { var250 = string__FlatString___61d_61d(var_pname, var245); var249 = var250; } if (var249){ var251 = 0; { var252 = array__Array___91d_93d(var_arguments, var251); } if (varonce253) { var254 = varonce253; } else { var255 = " >> "; var256 = 4; var257 = string__NativeString__to_s_with_length(var255, var256); var254 = var257; varonce253 = var254; } var258 = 1; { var259 = array__Array___91d_93d(var_arguments, var258); } var260 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var260 = array_instance Array[Object] */ var261 = 3; var262 = NEW_array__NativeArray(var261, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var262)->values[0] = (val*) var252; ((struct instance_array__NativeArray*)var262)->values[1] = (val*) var254; ((struct instance_array__NativeArray*)var262)->values[2] = (val*) var259; { ((void (*)(val*, val*, long))(var260->class->vft[COLOR_array__Array__with_native]))(var260, var262, var261) /* with_native on <var260:Array[Object]>*/; } } { var263 = ((val* (*)(val*))(var260->class->vft[COLOR_string__Object__to_s]))(var260) /* to_s on <var260:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2045); show_backtrace(1); } { var264 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var263, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var264); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var265 = 1; var = var265; goto RET_LABEL; } else { if (varonce266) { var267 = varonce266; } else { var268 = "=="; var269 = 2; var270 = string__NativeString__to_s_with_length(var268, var269); var267 = var270; varonce266 = var267; } { var272 = string__FlatString___61d_61d(var_pname, var267); var271 = var272; } if (var271){ var273 = 0; { var274 = array__Array___91d_93d(var_arguments, var273); } var275 = 1; { var276 = array__Array___91d_93d(var_arguments, var275); } { var277 = separate_compiler__SeparateCompilerVisitor__equal_test(var_v, var274, var276); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var277); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var278 = 1; var = var278; goto RET_LABEL; } else { if (varonce279) { var280 = varonce279; } else { var281 = "!="; var282 = 2; var283 = string__NativeString__to_s_with_length(var281, var282); var280 = var283; varonce279 = var280; } { var285 = string__FlatString___61d_61d(var_pname, var280); var284 = var285; } if (var284){ var286 = 0; { var287 = array__Array___91d_93d(var_arguments, var286); } var288 = 1; { var289 = array__Array___91d_93d(var_arguments, var288); } { var290 = separate_compiler__SeparateCompilerVisitor__equal_test(var_v, var287, var289); } var_res = var290; if (varonce291) { var292 = varonce291; } else { var293 = "!"; var294 = 1; var295 = string__NativeString__to_s_with_length(var293, var294); var292 = var295; varonce291 = var292; } var296 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var296 = array_instance Array[Object] */ var297 = 2; var298 = NEW_array__NativeArray(var297, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var298)->values[0] = (val*) var292; ((struct instance_array__NativeArray*)var298)->values[1] = (val*) var_res; { ((void (*)(val*, val*, long))(var296->class->vft[COLOR_array__Array__with_native]))(var296, var298, var297) /* with_native on <var296:Array[Object]>*/; } } { var299 = ((val* (*)(val*))(var296->class->vft[COLOR_string__Object__to_s]))(var296) /* to_s on <var296:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2052); show_backtrace(1); } { var300 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var299, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var300); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var301 = 1; var = var301; goto RET_LABEL; } else { if (varonce302) { var303 = varonce302; } else { var304 = "<"; var305 = 1; var306 = string__NativeString__to_s_with_length(var304, var305); var303 = var306; varonce302 = var303; } { var308 = string__FlatString___61d_61d(var_pname, var303); var307 = var308; } if (var307){ var309 = 0; { var310 = array__Array___91d_93d(var_arguments, var309); } if (varonce311) { var312 = varonce311; } else { var313 = " < "; var314 = 3; var315 = string__NativeString__to_s_with_length(var313, var314); var312 = var315; varonce311 = var312; } var316 = 1; { var317 = array__Array___91d_93d(var_arguments, var316); } var318 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var318 = array_instance Array[Object] */ var319 = 3; var320 = NEW_array__NativeArray(var319, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var320)->values[0] = (val*) var310; ((struct instance_array__NativeArray*)var320)->values[1] = (val*) var312; ((struct instance_array__NativeArray*)var320)->values[2] = (val*) var317; { ((void (*)(val*, val*, long))(var318->class->vft[COLOR_array__Array__with_native]))(var318, var320, var319) /* with_native on <var318:Array[Object]>*/; } } { var321 = ((val* (*)(val*))(var318->class->vft[COLOR_string__Object__to_s]))(var318) /* to_s on <var318:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2055); show_backtrace(1); } { var322 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var321, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var322); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var323 = 1; var = var323; goto RET_LABEL; } else { if (varonce324) { var325 = varonce324; } else { var326 = ">"; var327 = 1; var328 = string__NativeString__to_s_with_length(var326, var327); var325 = var328; varonce324 = var325; } { var330 = string__FlatString___61d_61d(var_pname, var325); var329 = var330; } if (var329){ var331 = 0; { var332 = array__Array___91d_93d(var_arguments, var331); } if (varonce333) { var334 = varonce333; } else { var335 = " > "; var336 = 3; var337 = string__NativeString__to_s_with_length(var335, var336); var334 = var337; varonce333 = var334; } var338 = 1; { var339 = array__Array___91d_93d(var_arguments, var338); } var340 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var340 = array_instance Array[Object] */ var341 = 3; var342 = NEW_array__NativeArray(var341, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var342)->values[0] = (val*) var332; ((struct instance_array__NativeArray*)var342)->values[1] = (val*) var334; ((struct instance_array__NativeArray*)var342)->values[2] = (val*) var339; { ((void (*)(val*, val*, long))(var340->class->vft[COLOR_array__Array__with_native]))(var340, var342, var341) /* with_native on <var340:Array[Object]>*/; } } { var343 = ((val* (*)(val*))(var340->class->vft[COLOR_string__Object__to_s]))(var340) /* to_s on <var340:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2058); show_backtrace(1); } { var344 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var343, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var344); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var345 = 1; var = var345; goto RET_LABEL; } else { if (varonce346) { var347 = varonce346; } else { var348 = "<="; var349 = 2; var350 = string__NativeString__to_s_with_length(var348, var349); var347 = var350; varonce346 = var347; } { var352 = string__FlatString___61d_61d(var_pname, var347); var351 = var352; } if (var351){ var353 = 0; { var354 = array__Array___91d_93d(var_arguments, var353); } if (varonce355) { var356 = varonce355; } else { var357 = " <= "; var358 = 4; var359 = string__NativeString__to_s_with_length(var357, var358); var356 = var359; varonce355 = var356; } var360 = 1; { var361 = array__Array___91d_93d(var_arguments, var360); } var362 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var362 = array_instance Array[Object] */ var363 = 3; var364 = NEW_array__NativeArray(var363, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var364)->values[0] = (val*) var354; ((struct instance_array__NativeArray*)var364)->values[1] = (val*) var356; ((struct instance_array__NativeArray*)var364)->values[2] = (val*) var361; { ((void (*)(val*, val*, long))(var362->class->vft[COLOR_array__Array__with_native]))(var362, var364, var363) /* with_native on <var362:Array[Object]>*/; } } { var365 = ((val* (*)(val*))(var362->class->vft[COLOR_string__Object__to_s]))(var362) /* to_s on <var362:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2061); show_backtrace(1); } { var366 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var365, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var366); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var367 = 1; var = var367; goto RET_LABEL; } else { if (varonce368) { var369 = varonce368; } else { var370 = ">="; var371 = 2; var372 = string__NativeString__to_s_with_length(var370, var371); var369 = var372; varonce368 = var369; } { var374 = string__FlatString___61d_61d(var_pname, var369); var373 = var374; } if (var373){ var375 = 0; { var376 = array__Array___91d_93d(var_arguments, var375); } if (varonce377) { var378 = varonce377; } else { var379 = " >= "; var380 = 4; var381 = string__NativeString__to_s_with_length(var379, var380); var378 = var381; varonce377 = var378; } var382 = 1; { var383 = array__Array___91d_93d(var_arguments, var382); } var384 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var384 = array_instance Array[Object] */ var385 = 3; var386 = NEW_array__NativeArray(var385, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var386)->values[0] = (val*) var376; ((struct instance_array__NativeArray*)var386)->values[1] = (val*) var378; ((struct instance_array__NativeArray*)var386)->values[2] = (val*) var383; { ((void (*)(val*, val*, long))(var384->class->vft[COLOR_array__Array__with_native]))(var384, var386, var385) /* with_native on <var384:Array[Object]>*/; } } { var387 = ((val* (*)(val*))(var384->class->vft[COLOR_string__Object__to_s]))(var384) /* to_s on <var384:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2064); show_backtrace(1); } { var388 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var387, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var388); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var389 = 1; var = var389; goto RET_LABEL; } else { if (varonce390) { var391 = varonce390; } else { var392 = "to_f"; var393 = 4; var394 = string__NativeString__to_s_with_length(var392, var393); var391 = var394; varonce390 = var391; } { var396 = string__FlatString___61d_61d(var_pname, var391); var395 = var396; } if (var395){ if (varonce397) { var398 = varonce397; } else { var399 = "(double)"; var400 = 8; var401 = string__NativeString__to_s_with_length(var399, var400); var398 = var401; varonce397 = var398; } var402 = 0; { var403 = array__Array___91d_93d(var_arguments, var402); } var404 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var404 = array_instance Array[Object] */ var405 = 2; var406 = NEW_array__NativeArray(var405, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var406)->values[0] = (val*) var398; ((struct instance_array__NativeArray*)var406)->values[1] = (val*) var403; { ((void (*)(val*, val*, long))(var404->class->vft[COLOR_array__Array__with_native]))(var404, var406, var405) /* with_native on <var404:Array[Object]>*/; } } { var407 = ((val* (*)(val*))(var404->class->vft[COLOR_string__Object__to_s]))(var404) /* to_s on <var404:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2067); show_backtrace(1); } { var408 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var407, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var408); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var409 = 1; var = var409; goto RET_LABEL; } else { if (varonce410) { var411 = varonce410; } else { var412 = "ascii"; var413 = 5; var414 = string__NativeString__to_s_with_length(var412, var413); var411 = var414; varonce410 = var411; } { var416 = string__FlatString___61d_61d(var_pname, var411); var415 = var416; } if (var415){ var417 = 0; { var418 = array__Array___91d_93d(var_arguments, var417); } var419 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var419 = array_instance Array[Object] */ var420 = 1; var421 = NEW_array__NativeArray(var420, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var421)->values[0] = (val*) var418; { ((void (*)(val*, val*, long))(var419->class->vft[COLOR_array__Array__with_native]))(var419, var421, var420) /* with_native on <var419:Array[Object]>*/; } } { var422 = ((val* (*)(val*))(var419->class->vft[COLOR_string__Object__to_s]))(var419) /* to_s on <var419:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2070); show_backtrace(1); } { var423 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var422, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var423); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var424 = 1; var = var424; goto RET_LABEL; } else { } } } } } } } } } } } } } } } } } } } else { if (varonce425) { var426 = varonce425; } else { var427 = "Char"; var428 = 4; var429 = string__NativeString__to_s_with_length(var427, var428); var426 = var429; varonce425 = var426; } { var431 = string__FlatString___61d_61d(var_cname, var426); var430 = var431; } if (var430){ if (varonce432) { var433 = varonce432; } else { var434 = "output"; var435 = 6; var436 = string__NativeString__to_s_with_length(var434, var435); var433 = var436; varonce432 = var433; } { var438 = string__FlatString___61d_61d(var_pname, var433); var437 = var438; } if (var437){ if (varonce439) { var440 = varonce439; } else { var441 = "printf(\"%c\", "; var442 = 13; var443 = string__NativeString__to_s_with_length(var441, var442); var440 = var443; varonce439 = var440; } { var444 = abstract_collection__SequenceRead__first(var_arguments); } if (varonce445) { var446 = varonce445; } else { var447 = ");"; var448 = 2; var449 = string__NativeString__to_s_with_length(var447, var448); var446 = var449; varonce445 = var446; } var450 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var450 = array_instance Array[Object] */ var451 = 3; var452 = NEW_array__NativeArray(var451, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var452)->values[0] = (val*) var440; ((struct instance_array__NativeArray*)var452)->values[1] = (val*) var444; ((struct instance_array__NativeArray*)var452)->values[2] = (val*) var446; { ((void (*)(val*, val*, long))(var450->class->vft[COLOR_array__Array__with_native]))(var450, var452, var451) /* with_native on <var450:Array[Object]>*/; } } { var453 = ((val* (*)(val*))(var450->class->vft[COLOR_string__Object__to_s]))(var450) /* to_s on <var450:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var453); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var454 = 1; var = var454; goto RET_LABEL; } else { if (varonce455) { var456 = varonce455; } else { var457 = "object_id"; var458 = 9; var459 = string__NativeString__to_s_with_length(var457, var458); var456 = var459; varonce455 = var456; } { var461 = string__FlatString___61d_61d(var_pname, var456); var460 = var461; } if (var460){ if (varonce462) { var463 = varonce462; } else { var464 = "(long)"; var465 = 6; var466 = string__NativeString__to_s_with_length(var464, var465); var463 = var466; varonce462 = var463; } { var467 = abstract_collection__SequenceRead__first(var_arguments); } var468 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var468 = array_instance Array[Object] */ var469 = 2; var470 = NEW_array__NativeArray(var469, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var470)->values[0] = (val*) var463; ((struct instance_array__NativeArray*)var470)->values[1] = (val*) var467; { ((void (*)(val*, val*, long))(var468->class->vft[COLOR_array__Array__with_native]))(var468, var470, var469) /* with_native on <var468:Array[Object]>*/; } } { var471 = ((val* (*)(val*))(var468->class->vft[COLOR_string__Object__to_s]))(var468) /* to_s on <var468:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2078); show_backtrace(1); } { var472 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var471, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var472); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var473 = 1; var = var473; goto RET_LABEL; } else { if (varonce474) { var475 = varonce474; } else { var476 = "successor"; var477 = 9; var478 = string__NativeString__to_s_with_length(var476, var477); var475 = var478; varonce474 = var475; } { var480 = string__FlatString___61d_61d(var_pname, var475); var479 = var480; } if (var479){ var481 = 0; { var482 = array__Array___91d_93d(var_arguments, var481); } if (varonce483) { var484 = varonce483; } else { var485 = " + "; var486 = 3; var487 = string__NativeString__to_s_with_length(var485, var486); var484 = var487; varonce483 = var484; } var488 = 1; { var489 = array__Array___91d_93d(var_arguments, var488); } var490 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var490 = array_instance Array[Object] */ var491 = 3; var492 = NEW_array__NativeArray(var491, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var492)->values[0] = (val*) var482; ((struct instance_array__NativeArray*)var492)->values[1] = (val*) var484; ((struct instance_array__NativeArray*)var492)->values[2] = (val*) var489; { ((void (*)(val*, val*, long))(var490->class->vft[COLOR_array__Array__with_native]))(var490, var492, var491) /* with_native on <var490:Array[Object]>*/; } } { var493 = ((val* (*)(val*))(var490->class->vft[COLOR_string__Object__to_s]))(var490) /* to_s on <var490:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2081); show_backtrace(1); } { var494 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var493, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var494); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var495 = 1; var = var495; goto RET_LABEL; } else { if (varonce496) { var497 = varonce496; } else { var498 = "predecessor"; var499 = 11; var500 = string__NativeString__to_s_with_length(var498, var499); var497 = var500; varonce496 = var497; } { var502 = string__FlatString___61d_61d(var_pname, var497); var501 = var502; } if (var501){ var503 = 0; { var504 = array__Array___91d_93d(var_arguments, var503); } if (varonce505) { var506 = varonce505; } else { var507 = " - "; var508 = 3; var509 = string__NativeString__to_s_with_length(var507, var508); var506 = var509; varonce505 = var506; } var510 = 1; { var511 = array__Array___91d_93d(var_arguments, var510); } var512 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var512 = array_instance Array[Object] */ var513 = 3; var514 = NEW_array__NativeArray(var513, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var514)->values[0] = (val*) var504; ((struct instance_array__NativeArray*)var514)->values[1] = (val*) var506; ((struct instance_array__NativeArray*)var514)->values[2] = (val*) var511; { ((void (*)(val*, val*, long))(var512->class->vft[COLOR_array__Array__with_native]))(var512, var514, var513) /* with_native on <var512:Array[Object]>*/; } } { var515 = ((val* (*)(val*))(var512->class->vft[COLOR_string__Object__to_s]))(var512) /* to_s on <var512:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2084); show_backtrace(1); } { var516 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var515, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var516); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var517 = 1; var = var517; goto RET_LABEL; } else { if (varonce518) { var519 = varonce518; } else { var520 = "=="; var521 = 2; var522 = string__NativeString__to_s_with_length(var520, var521); var519 = var522; varonce518 = var519; } { var524 = string__FlatString___61d_61d(var_pname, var519); var523 = var524; } if (var523){ var525 = 0; { var526 = array__Array___91d_93d(var_arguments, var525); } var527 = 1; { var528 = array__Array___91d_93d(var_arguments, var527); } { var529 = separate_compiler__SeparateCompilerVisitor__equal_test(var_v, var526, var528); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var529); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var530 = 1; var = var530; goto RET_LABEL; } else { if (varonce531) { var532 = varonce531; } else { var533 = "!="; var534 = 2; var535 = string__NativeString__to_s_with_length(var533, var534); var532 = var535; varonce531 = var532; } { var537 = string__FlatString___61d_61d(var_pname, var532); var536 = var537; } if (var536){ var538 = 0; { var539 = array__Array___91d_93d(var_arguments, var538); } var540 = 1; { var541 = array__Array___91d_93d(var_arguments, var540); } { var542 = separate_compiler__SeparateCompilerVisitor__equal_test(var_v, var539, var541); } var_res543 = var542; if (varonce544) { var545 = varonce544; } else { var546 = "!"; var547 = 1; var548 = string__NativeString__to_s_with_length(var546, var547); var545 = var548; varonce544 = var545; } var549 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var549 = array_instance Array[Object] */ var550 = 2; var551 = NEW_array__NativeArray(var550, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var551)->values[0] = (val*) var545; ((struct instance_array__NativeArray*)var551)->values[1] = (val*) var_res543; { ((void (*)(val*, val*, long))(var549->class->vft[COLOR_array__Array__with_native]))(var549, var551, var550) /* with_native on <var549:Array[Object]>*/; } } { var552 = ((val* (*)(val*))(var549->class->vft[COLOR_string__Object__to_s]))(var549) /* to_s on <var549:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2091); show_backtrace(1); } { var553 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var552, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var553); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var554 = 1; var = var554; goto RET_LABEL; } else { if (varonce555) { var556 = varonce555; } else { var557 = "<"; var558 = 1; var559 = string__NativeString__to_s_with_length(var557, var558); var556 = var559; varonce555 = var556; } { var561 = string__FlatString___61d_61d(var_pname, var556); var560 = var561; } if (var560){ var562 = 0; { var563 = array__Array___91d_93d(var_arguments, var562); } if (varonce564) { var565 = varonce564; } else { var566 = " < "; var567 = 3; var568 = string__NativeString__to_s_with_length(var566, var567); var565 = var568; varonce564 = var565; } var569 = 1; { var570 = array__Array___91d_93d(var_arguments, var569); } var571 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var571 = array_instance Array[Object] */ var572 = 3; var573 = NEW_array__NativeArray(var572, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var573)->values[0] = (val*) var563; ((struct instance_array__NativeArray*)var573)->values[1] = (val*) var565; ((struct instance_array__NativeArray*)var573)->values[2] = (val*) var570; { ((void (*)(val*, val*, long))(var571->class->vft[COLOR_array__Array__with_native]))(var571, var573, var572) /* with_native on <var571:Array[Object]>*/; } } { var574 = ((val* (*)(val*))(var571->class->vft[COLOR_string__Object__to_s]))(var571) /* to_s on <var571:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2094); show_backtrace(1); } { var575 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var574, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var575); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var576 = 1; var = var576; goto RET_LABEL; } else { if (varonce577) { var578 = varonce577; } else { var579 = ">"; var580 = 1; var581 = string__NativeString__to_s_with_length(var579, var580); var578 = var581; varonce577 = var578; } { var583 = string__FlatString___61d_61d(var_pname, var578); var582 = var583; } if (var582){ var584 = 0; { var585 = array__Array___91d_93d(var_arguments, var584); } if (varonce586) { var587 = varonce586; } else { var588 = " > "; var589 = 3; var590 = string__NativeString__to_s_with_length(var588, var589); var587 = var590; varonce586 = var587; } var591 = 1; { var592 = array__Array___91d_93d(var_arguments, var591); } var593 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var593 = array_instance Array[Object] */ var594 = 3; var595 = NEW_array__NativeArray(var594, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var595)->values[0] = (val*) var585; ((struct instance_array__NativeArray*)var595)->values[1] = (val*) var587; ((struct instance_array__NativeArray*)var595)->values[2] = (val*) var592; { ((void (*)(val*, val*, long))(var593->class->vft[COLOR_array__Array__with_native]))(var593, var595, var594) /* with_native on <var593:Array[Object]>*/; } } { var596 = ((val* (*)(val*))(var593->class->vft[COLOR_string__Object__to_s]))(var593) /* to_s on <var593:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2097); show_backtrace(1); } { var597 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var596, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var597); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var598 = 1; var = var598; goto RET_LABEL; } else { if (varonce599) { var600 = varonce599; } else { var601 = "<="; var602 = 2; var603 = string__NativeString__to_s_with_length(var601, var602); var600 = var603; varonce599 = var600; } { var605 = string__FlatString___61d_61d(var_pname, var600); var604 = var605; } if (var604){ var606 = 0; { var607 = array__Array___91d_93d(var_arguments, var606); } if (varonce608) { var609 = varonce608; } else { var610 = " <= "; var611 = 4; var612 = string__NativeString__to_s_with_length(var610, var611); var609 = var612; varonce608 = var609; } var613 = 1; { var614 = array__Array___91d_93d(var_arguments, var613); } var615 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var615 = array_instance Array[Object] */ var616 = 3; var617 = NEW_array__NativeArray(var616, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var617)->values[0] = (val*) var607; ((struct instance_array__NativeArray*)var617)->values[1] = (val*) var609; ((struct instance_array__NativeArray*)var617)->values[2] = (val*) var614; { ((void (*)(val*, val*, long))(var615->class->vft[COLOR_array__Array__with_native]))(var615, var617, var616) /* with_native on <var615:Array[Object]>*/; } } { var618 = ((val* (*)(val*))(var615->class->vft[COLOR_string__Object__to_s]))(var615) /* to_s on <var615:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2100); show_backtrace(1); } { var619 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var618, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var619); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var620 = 1; var = var620; goto RET_LABEL; } else { if (varonce621) { var622 = varonce621; } else { var623 = ">="; var624 = 2; var625 = string__NativeString__to_s_with_length(var623, var624); var622 = var625; varonce621 = var622; } { var627 = string__FlatString___61d_61d(var_pname, var622); var626 = var627; } if (var626){ var628 = 0; { var629 = array__Array___91d_93d(var_arguments, var628); } if (varonce630) { var631 = varonce630; } else { var632 = " >= "; var633 = 4; var634 = string__NativeString__to_s_with_length(var632, var633); var631 = var634; varonce630 = var631; } var635 = 1; { var636 = array__Array___91d_93d(var_arguments, var635); } var637 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var637 = array_instance Array[Object] */ var638 = 3; var639 = NEW_array__NativeArray(var638, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var639)->values[0] = (val*) var629; ((struct instance_array__NativeArray*)var639)->values[1] = (val*) var631; ((struct instance_array__NativeArray*)var639)->values[2] = (val*) var636; { ((void (*)(val*, val*, long))(var637->class->vft[COLOR_array__Array__with_native]))(var637, var639, var638) /* with_native on <var637:Array[Object]>*/; } } { var640 = ((val* (*)(val*))(var637->class->vft[COLOR_string__Object__to_s]))(var637) /* to_s on <var637:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2103); show_backtrace(1); } { var641 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var640, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var641); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var642 = 1; var = var642; goto RET_LABEL; } else { if (varonce643) { var644 = varonce643; } else { var645 = "to_i"; var646 = 4; var647 = string__NativeString__to_s_with_length(var645, var646); var644 = var647; varonce643 = var644; } { var649 = string__FlatString___61d_61d(var_pname, var644); var648 = var649; } if (var648){ var650 = 0; { var651 = array__Array___91d_93d(var_arguments, var650); } if (varonce652) { var653 = varonce652; } else { var654 = "-\'0\'"; var655 = 4; var656 = string__NativeString__to_s_with_length(var654, var655); var653 = var656; varonce652 = var653; } var657 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var657 = array_instance Array[Object] */ var658 = 2; var659 = NEW_array__NativeArray(var658, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var659)->values[0] = (val*) var651; ((struct instance_array__NativeArray*)var659)->values[1] = (val*) var653; { ((void (*)(val*, val*, long))(var657->class->vft[COLOR_array__Array__with_native]))(var657, var659, var658) /* with_native on <var657:Array[Object]>*/; } } { var660 = ((val* (*)(val*))(var657->class->vft[COLOR_string__Object__to_s]))(var657) /* to_s on <var657:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2106); show_backtrace(1); } { var661 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var660, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var661); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var662 = 1; var = var662; goto RET_LABEL; } else { if (varonce663) { var664 = varonce663; } else { var665 = "ascii"; var666 = 5; var667 = string__NativeString__to_s_with_length(var665, var666); var664 = var667; varonce663 = var664; } { var669 = string__FlatString___61d_61d(var_pname, var664); var668 = var669; } if (var668){ if (varonce670) { var671 = varonce670; } else { var672 = "(unsigned char)"; var673 = 15; var674 = string__NativeString__to_s_with_length(var672, var673); var671 = var674; varonce670 = var671; } var675 = 0; { var676 = array__Array___91d_93d(var_arguments, var675); } var677 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var677 = array_instance Array[Object] */ var678 = 2; var679 = NEW_array__NativeArray(var678, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var679)->values[0] = (val*) var671; ((struct instance_array__NativeArray*)var679)->values[1] = (val*) var676; { ((void (*)(val*, val*, long))(var677->class->vft[COLOR_array__Array__with_native]))(var677, var679, var678) /* with_native on <var677:Array[Object]>*/; } } { var680 = ((val* (*)(val*))(var677->class->vft[COLOR_string__Object__to_s]))(var677) /* to_s on <var677:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2109); show_backtrace(1); } { var681 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var680, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var681); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var682 = 1; var = var682; goto RET_LABEL; } else { } } } } } } } } } } } } } else { if (varonce683) { var684 = varonce683; } else { var685 = "Bool"; var686 = 4; var687 = string__NativeString__to_s_with_length(var685, var686); var684 = var687; varonce683 = var684; } { var689 = string__FlatString___61d_61d(var_cname, var684); var688 = var689; } if (var688){ if (varonce690) { var691 = varonce690; } else { var692 = "output"; var693 = 6; var694 = string__NativeString__to_s_with_length(var692, var693); var691 = var694; varonce690 = var691; } { var696 = string__FlatString___61d_61d(var_pname, var691); var695 = var696; } if (var695){ if (varonce697) { var698 = varonce697; } else { var699 = "printf("; var700 = 7; var701 = string__NativeString__to_s_with_length(var699, var700); var698 = var701; varonce697 = var698; } { var702 = abstract_collection__SequenceRead__first(var_arguments); } if (varonce703) { var704 = varonce703; } else { var705 = "?\"true\\n\":\"false\\n\");"; var706 = 21; var707 = string__NativeString__to_s_with_length(var705, var706); var704 = var707; varonce703 = var704; } var708 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var708 = array_instance Array[Object] */ var709 = 3; var710 = NEW_array__NativeArray(var709, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var710)->values[0] = (val*) var698; ((struct instance_array__NativeArray*)var710)->values[1] = (val*) var702; ((struct instance_array__NativeArray*)var710)->values[2] = (val*) var704; { ((void (*)(val*, val*, long))(var708->class->vft[COLOR_array__Array__with_native]))(var708, var710, var709) /* with_native on <var708:Array[Object]>*/; } } { var711 = ((val* (*)(val*))(var708->class->vft[COLOR_string__Object__to_s]))(var708) /* to_s on <var708:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var711); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var712 = 1; var = var712; goto RET_LABEL; } else { if (varonce713) { var714 = varonce713; } else { var715 = "object_id"; var716 = 9; var717 = string__NativeString__to_s_with_length(var715, var716); var714 = var717; varonce713 = var714; } { var719 = string__FlatString___61d_61d(var_pname, var714); var718 = var719; } if (var718){ if (varonce720) { var721 = varonce720; } else { var722 = "(long)"; var723 = 6; var724 = string__NativeString__to_s_with_length(var722, var723); var721 = var724; varonce720 = var721; } { var725 = abstract_collection__SequenceRead__first(var_arguments); } var726 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var726 = array_instance Array[Object] */ var727 = 2; var728 = NEW_array__NativeArray(var727, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var728)->values[0] = (val*) var721; ((struct instance_array__NativeArray*)var728)->values[1] = (val*) var725; { ((void (*)(val*, val*, long))(var726->class->vft[COLOR_array__Array__with_native]))(var726, var728, var727) /* with_native on <var726:Array[Object]>*/; } } { var729 = ((val* (*)(val*))(var726->class->vft[COLOR_string__Object__to_s]))(var726) /* to_s on <var726:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2117); show_backtrace(1); } { var730 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var729, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var730); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var731 = 1; var = var731; goto RET_LABEL; } else { if (varonce732) { var733 = varonce732; } else { var734 = "=="; var735 = 2; var736 = string__NativeString__to_s_with_length(var734, var735); var733 = var736; varonce732 = var733; } { var738 = string__FlatString___61d_61d(var_pname, var733); var737 = var738; } if (var737){ var739 = 0; { var740 = array__Array___91d_93d(var_arguments, var739); } var741 = 1; { var742 = array__Array___91d_93d(var_arguments, var741); } { var743 = separate_compiler__SeparateCompilerVisitor__equal_test(var_v, var740, var742); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var743); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var744 = 1; var = var744; goto RET_LABEL; } else { if (varonce745) { var746 = varonce745; } else { var747 = "!="; var748 = 2; var749 = string__NativeString__to_s_with_length(var747, var748); var746 = var749; varonce745 = var746; } { var751 = string__FlatString___61d_61d(var_pname, var746); var750 = var751; } if (var750){ var752 = 0; { var753 = array__Array___91d_93d(var_arguments, var752); } var754 = 1; { var755 = array__Array___91d_93d(var_arguments, var754); } { var756 = separate_compiler__SeparateCompilerVisitor__equal_test(var_v, var753, var755); } var_res757 = var756; if (varonce758) { var759 = varonce758; } else { var760 = "!"; var761 = 1; var762 = string__NativeString__to_s_with_length(var760, var761); var759 = var762; varonce758 = var759; } var763 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var763 = array_instance Array[Object] */ var764 = 2; var765 = NEW_array__NativeArray(var764, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var765)->values[0] = (val*) var759; ((struct instance_array__NativeArray*)var765)->values[1] = (val*) var_res757; { ((void (*)(val*, val*, long))(var763->class->vft[COLOR_array__Array__with_native]))(var763, var765, var764) /* with_native on <var763:Array[Object]>*/; } } { var766 = ((val* (*)(val*))(var763->class->vft[COLOR_string__Object__to_s]))(var763) /* to_s on <var763:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2124); show_backtrace(1); } { var767 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var766, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var767); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var768 = 1; var = var768; goto RET_LABEL; } else { } } } } } else { if (varonce769) { var770 = varonce769; } else { var771 = "Float"; var772 = 5; var773 = string__NativeString__to_s_with_length(var771, var772); var770 = var773; varonce769 = var770; } { var775 = string__FlatString___61d_61d(var_cname, var770); var774 = var775; } if (var774){ if (varonce776) { var777 = varonce776; } else { var778 = "output"; var779 = 6; var780 = string__NativeString__to_s_with_length(var778, var779); var777 = var780; varonce776 = var777; } { var782 = string__FlatString___61d_61d(var_pname, var777); var781 = var782; } if (var781){ if (varonce783) { var784 = varonce783; } else { var785 = "printf(\"%f\\n\", "; var786 = 15; var787 = string__NativeString__to_s_with_length(var785, var786); var784 = var787; varonce783 = var784; } { var788 = abstract_collection__SequenceRead__first(var_arguments); } if (varonce789) { var790 = varonce789; } else { var791 = ");"; var792 = 2; var793 = string__NativeString__to_s_with_length(var791, var792); var790 = var793; varonce789 = var790; } var794 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var794 = array_instance Array[Object] */ var795 = 3; var796 = NEW_array__NativeArray(var795, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var796)->values[0] = (val*) var784; ((struct instance_array__NativeArray*)var796)->values[1] = (val*) var788; ((struct instance_array__NativeArray*)var796)->values[2] = (val*) var790; { ((void (*)(val*, val*, long))(var794->class->vft[COLOR_array__Array__with_native]))(var794, var796, var795) /* with_native on <var794:Array[Object]>*/; } } { var797 = ((val* (*)(val*))(var794->class->vft[COLOR_string__Object__to_s]))(var794) /* to_s on <var794:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var797); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var798 = 1; var = var798; goto RET_LABEL; } else { if (varonce799) { var800 = varonce799; } else { var801 = "object_id"; var802 = 9; var803 = string__NativeString__to_s_with_length(var801, var802); var800 = var803; varonce799 = var800; } { var805 = string__FlatString___61d_61d(var_pname, var800); var804 = var805; } if (var804){ if (varonce806) { var807 = varonce806; } else { var808 = "(double)"; var809 = 8; var810 = string__NativeString__to_s_with_length(var808, var809); var807 = var810; varonce806 = var807; } { var811 = abstract_collection__SequenceRead__first(var_arguments); } var812 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var812 = array_instance Array[Object] */ var813 = 2; var814 = NEW_array__NativeArray(var813, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var814)->values[0] = (val*) var807; ((struct instance_array__NativeArray*)var814)->values[1] = (val*) var811; { ((void (*)(val*, val*, long))(var812->class->vft[COLOR_array__Array__with_native]))(var812, var814, var813) /* with_native on <var812:Array[Object]>*/; } } { var815 = ((val* (*)(val*))(var812->class->vft[COLOR_string__Object__to_s]))(var812) /* to_s on <var812:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2132); show_backtrace(1); } { var816 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var815, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var816); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var817 = 1; var = var817; goto RET_LABEL; } else { if (varonce818) { var819 = varonce818; } else { var820 = "+"; var821 = 1; var822 = string__NativeString__to_s_with_length(var820, var821); var819 = var822; varonce818 = var819; } { var824 = string__FlatString___61d_61d(var_pname, var819); var823 = var824; } if (var823){ var825 = 0; { var826 = array__Array___91d_93d(var_arguments, var825); } if (varonce827) { var828 = varonce827; } else { var829 = " + "; var830 = 3; var831 = string__NativeString__to_s_with_length(var829, var830); var828 = var831; varonce827 = var828; } var832 = 1; { var833 = array__Array___91d_93d(var_arguments, var832); } var834 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var834 = array_instance Array[Object] */ var835 = 3; var836 = NEW_array__NativeArray(var835, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var836)->values[0] = (val*) var826; ((struct instance_array__NativeArray*)var836)->values[1] = (val*) var828; ((struct instance_array__NativeArray*)var836)->values[2] = (val*) var833; { ((void (*)(val*, val*, long))(var834->class->vft[COLOR_array__Array__with_native]))(var834, var836, var835) /* with_native on <var834:Array[Object]>*/; } } { var837 = ((val* (*)(val*))(var834->class->vft[COLOR_string__Object__to_s]))(var834) /* to_s on <var834:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2135); show_backtrace(1); } { var838 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var837, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var838); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var839 = 1; var = var839; goto RET_LABEL; } else { if (varonce840) { var841 = varonce840; } else { var842 = "-"; var843 = 1; var844 = string__NativeString__to_s_with_length(var842, var843); var841 = var844; varonce840 = var841; } { var846 = string__FlatString___61d_61d(var_pname, var841); var845 = var846; } if (var845){ var847 = 0; { var848 = array__Array___91d_93d(var_arguments, var847); } if (varonce849) { var850 = varonce849; } else { var851 = " - "; var852 = 3; var853 = string__NativeString__to_s_with_length(var851, var852); var850 = var853; varonce849 = var850; } var854 = 1; { var855 = array__Array___91d_93d(var_arguments, var854); } var856 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var856 = array_instance Array[Object] */ var857 = 3; var858 = NEW_array__NativeArray(var857, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var858)->values[0] = (val*) var848; ((struct instance_array__NativeArray*)var858)->values[1] = (val*) var850; ((struct instance_array__NativeArray*)var858)->values[2] = (val*) var855; { ((void (*)(val*, val*, long))(var856->class->vft[COLOR_array__Array__with_native]))(var856, var858, var857) /* with_native on <var856:Array[Object]>*/; } } { var859 = ((val* (*)(val*))(var856->class->vft[COLOR_string__Object__to_s]))(var856) /* to_s on <var856:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2138); show_backtrace(1); } { var860 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var859, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var860); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var861 = 1; var = var861; goto RET_LABEL; } else { if (varonce862) { var863 = varonce862; } else { var864 = "unary -"; var865 = 7; var866 = string__NativeString__to_s_with_length(var864, var865); var863 = var866; varonce862 = var863; } { var868 = string__FlatString___61d_61d(var_pname, var863); var867 = var868; } if (var867){ if (varonce869) { var870 = varonce869; } else { var871 = "-"; var872 = 1; var873 = string__NativeString__to_s_with_length(var871, var872); var870 = var873; varonce869 = var870; } var874 = 0; { var875 = array__Array___91d_93d(var_arguments, var874); } var876 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var876 = array_instance Array[Object] */ var877 = 2; var878 = NEW_array__NativeArray(var877, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var878)->values[0] = (val*) var870; ((struct instance_array__NativeArray*)var878)->values[1] = (val*) var875; { ((void (*)(val*, val*, long))(var876->class->vft[COLOR_array__Array__with_native]))(var876, var878, var877) /* with_native on <var876:Array[Object]>*/; } } { var879 = ((val* (*)(val*))(var876->class->vft[COLOR_string__Object__to_s]))(var876) /* to_s on <var876:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2141); show_backtrace(1); } { var880 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var879, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var880); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var881 = 1; var = var881; goto RET_LABEL; } else { if (varonce882) { var883 = varonce882; } else { var884 = "succ"; var885 = 4; var886 = string__NativeString__to_s_with_length(var884, var885); var883 = var886; varonce882 = var883; } { var888 = string__FlatString___61d_61d(var_pname, var883); var887 = var888; } if (var887){ var889 = 0; { var890 = array__Array___91d_93d(var_arguments, var889); } if (varonce891) { var892 = varonce891; } else { var893 = "+1"; var894 = 2; var895 = string__NativeString__to_s_with_length(var893, var894); var892 = var895; varonce891 = var892; } var896 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var896 = array_instance Array[Object] */ var897 = 2; var898 = NEW_array__NativeArray(var897, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var898)->values[0] = (val*) var890; ((struct instance_array__NativeArray*)var898)->values[1] = (val*) var892; { ((void (*)(val*, val*, long))(var896->class->vft[COLOR_array__Array__with_native]))(var896, var898, var897) /* with_native on <var896:Array[Object]>*/; } } { var899 = ((val* (*)(val*))(var896->class->vft[COLOR_string__Object__to_s]))(var896) /* to_s on <var896:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2144); show_backtrace(1); } { var900 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var899, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var900); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var901 = 1; var = var901; goto RET_LABEL; } else { if (varonce902) { var903 = varonce902; } else { var904 = "prec"; var905 = 4; var906 = string__NativeString__to_s_with_length(var904, var905); var903 = var906; varonce902 = var903; } { var908 = string__FlatString___61d_61d(var_pname, var903); var907 = var908; } if (var907){ var909 = 0; { var910 = array__Array___91d_93d(var_arguments, var909); } if (varonce911) { var912 = varonce911; } else { var913 = "-1"; var914 = 2; var915 = string__NativeString__to_s_with_length(var913, var914); var912 = var915; varonce911 = var912; } var916 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var916 = array_instance Array[Object] */ var917 = 2; var918 = NEW_array__NativeArray(var917, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var918)->values[0] = (val*) var910; ((struct instance_array__NativeArray*)var918)->values[1] = (val*) var912; { ((void (*)(val*, val*, long))(var916->class->vft[COLOR_array__Array__with_native]))(var916, var918, var917) /* with_native on <var916:Array[Object]>*/; } } { var919 = ((val* (*)(val*))(var916->class->vft[COLOR_string__Object__to_s]))(var916) /* to_s on <var916:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2147); show_backtrace(1); } { var920 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var919, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var920); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var921 = 1; var = var921; goto RET_LABEL; } else { if (varonce922) { var923 = varonce922; } else { var924 = "*"; var925 = 1; var926 = string__NativeString__to_s_with_length(var924, var925); var923 = var926; varonce922 = var923; } { var928 = string__FlatString___61d_61d(var_pname, var923); var927 = var928; } if (var927){ var929 = 0; { var930 = array__Array___91d_93d(var_arguments, var929); } if (varonce931) { var932 = varonce931; } else { var933 = " * "; var934 = 3; var935 = string__NativeString__to_s_with_length(var933, var934); var932 = var935; varonce931 = var932; } var936 = 1; { var937 = array__Array___91d_93d(var_arguments, var936); } var938 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var938 = array_instance Array[Object] */ var939 = 3; var940 = NEW_array__NativeArray(var939, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var940)->values[0] = (val*) var930; ((struct instance_array__NativeArray*)var940)->values[1] = (val*) var932; ((struct instance_array__NativeArray*)var940)->values[2] = (val*) var937; { ((void (*)(val*, val*, long))(var938->class->vft[COLOR_array__Array__with_native]))(var938, var940, var939) /* with_native on <var938:Array[Object]>*/; } } { var941 = ((val* (*)(val*))(var938->class->vft[COLOR_string__Object__to_s]))(var938) /* to_s on <var938:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2150); show_backtrace(1); } { var942 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var941, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var942); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var943 = 1; var = var943; goto RET_LABEL; } else { if (varonce944) { var945 = varonce944; } else { var946 = "/"; var947 = 1; var948 = string__NativeString__to_s_with_length(var946, var947); var945 = var948; varonce944 = var945; } { var950 = string__FlatString___61d_61d(var_pname, var945); var949 = var950; } if (var949){ var951 = 0; { var952 = array__Array___91d_93d(var_arguments, var951); } if (varonce953) { var954 = varonce953; } else { var955 = " / "; var956 = 3; var957 = string__NativeString__to_s_with_length(var955, var956); var954 = var957; varonce953 = var954; } var958 = 1; { var959 = array__Array___91d_93d(var_arguments, var958); } var960 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var960 = array_instance Array[Object] */ var961 = 3; var962 = NEW_array__NativeArray(var961, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var962)->values[0] = (val*) var952; ((struct instance_array__NativeArray*)var962)->values[1] = (val*) var954; ((struct instance_array__NativeArray*)var962)->values[2] = (val*) var959; { ((void (*)(val*, val*, long))(var960->class->vft[COLOR_array__Array__with_native]))(var960, var962, var961) /* with_native on <var960:Array[Object]>*/; } } { var963 = ((val* (*)(val*))(var960->class->vft[COLOR_string__Object__to_s]))(var960) /* to_s on <var960:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2153); show_backtrace(1); } { var964 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var963, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var964); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var965 = 1; var = var965; goto RET_LABEL; } else { if (varonce966) { var967 = varonce966; } else { var968 = "=="; var969 = 2; var970 = string__NativeString__to_s_with_length(var968, var969); var967 = var970; varonce966 = var967; } { var972 = string__FlatString___61d_61d(var_pname, var967); var971 = var972; } if (var971){ var973 = 0; { var974 = array__Array___91d_93d(var_arguments, var973); } var975 = 1; { var976 = array__Array___91d_93d(var_arguments, var975); } { var977 = separate_compiler__SeparateCompilerVisitor__equal_test(var_v, var974, var976); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var977); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var978 = 1; var = var978; goto RET_LABEL; } else { if (varonce979) { var980 = varonce979; } else { var981 = "!="; var982 = 2; var983 = string__NativeString__to_s_with_length(var981, var982); var980 = var983; varonce979 = var980; } { var985 = string__FlatString___61d_61d(var_pname, var980); var984 = var985; } if (var984){ var986 = 0; { var987 = array__Array___91d_93d(var_arguments, var986); } var988 = 1; { var989 = array__Array___91d_93d(var_arguments, var988); } { var990 = separate_compiler__SeparateCompilerVisitor__equal_test(var_v, var987, var989); } var_res991 = var990; if (varonce992) { var993 = varonce992; } else { var994 = "!"; var995 = 1; var996 = string__NativeString__to_s_with_length(var994, var995); var993 = var996; varonce992 = var993; } var997 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var997 = array_instance Array[Object] */ var998 = 2; var999 = NEW_array__NativeArray(var998, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var999)->values[0] = (val*) var993; ((struct instance_array__NativeArray*)var999)->values[1] = (val*) var_res991; { ((void (*)(val*, val*, long))(var997->class->vft[COLOR_array__Array__with_native]))(var997, var999, var998) /* with_native on <var997:Array[Object]>*/; } } { var1000 = ((val* (*)(val*))(var997->class->vft[COLOR_string__Object__to_s]))(var997) /* to_s on <var997:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2160); show_backtrace(1); } { var1001 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1000, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1001); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1002 = 1; var = var1002; goto RET_LABEL; } else { if (varonce1003) { var1004 = varonce1003; } else { var1005 = "<"; var1006 = 1; var1007 = string__NativeString__to_s_with_length(var1005, var1006); var1004 = var1007; varonce1003 = var1004; } { var1009 = string__FlatString___61d_61d(var_pname, var1004); var1008 = var1009; } if (var1008){ var1010 = 0; { var1011 = array__Array___91d_93d(var_arguments, var1010); } if (varonce1012) { var1013 = varonce1012; } else { var1014 = " < "; var1015 = 3; var1016 = string__NativeString__to_s_with_length(var1014, var1015); var1013 = var1016; varonce1012 = var1013; } var1017 = 1; { var1018 = array__Array___91d_93d(var_arguments, var1017); } var1019 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1019 = array_instance Array[Object] */ var1020 = 3; var1021 = NEW_array__NativeArray(var1020, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1021)->values[0] = (val*) var1011; ((struct instance_array__NativeArray*)var1021)->values[1] = (val*) var1013; ((struct instance_array__NativeArray*)var1021)->values[2] = (val*) var1018; { ((void (*)(val*, val*, long))(var1019->class->vft[COLOR_array__Array__with_native]))(var1019, var1021, var1020) /* with_native on <var1019:Array[Object]>*/; } } { var1022 = ((val* (*)(val*))(var1019->class->vft[COLOR_string__Object__to_s]))(var1019) /* to_s on <var1019:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2163); show_backtrace(1); } { var1023 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1022, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1023); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1024 = 1; var = var1024; goto RET_LABEL; } else { if (varonce1025) { var1026 = varonce1025; } else { var1027 = ">"; var1028 = 1; var1029 = string__NativeString__to_s_with_length(var1027, var1028); var1026 = var1029; varonce1025 = var1026; } { var1031 = string__FlatString___61d_61d(var_pname, var1026); var1030 = var1031; } if (var1030){ var1032 = 0; { var1033 = array__Array___91d_93d(var_arguments, var1032); } if (varonce1034) { var1035 = varonce1034; } else { var1036 = " > "; var1037 = 3; var1038 = string__NativeString__to_s_with_length(var1036, var1037); var1035 = var1038; varonce1034 = var1035; } var1039 = 1; { var1040 = array__Array___91d_93d(var_arguments, var1039); } var1041 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1041 = array_instance Array[Object] */ var1042 = 3; var1043 = NEW_array__NativeArray(var1042, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1043)->values[0] = (val*) var1033; ((struct instance_array__NativeArray*)var1043)->values[1] = (val*) var1035; ((struct instance_array__NativeArray*)var1043)->values[2] = (val*) var1040; { ((void (*)(val*, val*, long))(var1041->class->vft[COLOR_array__Array__with_native]))(var1041, var1043, var1042) /* with_native on <var1041:Array[Object]>*/; } } { var1044 = ((val* (*)(val*))(var1041->class->vft[COLOR_string__Object__to_s]))(var1041) /* to_s on <var1041:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2166); show_backtrace(1); } { var1045 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1044, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1045); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1046 = 1; var = var1046; goto RET_LABEL; } else { if (varonce1047) { var1048 = varonce1047; } else { var1049 = "<="; var1050 = 2; var1051 = string__NativeString__to_s_with_length(var1049, var1050); var1048 = var1051; varonce1047 = var1048; } { var1053 = string__FlatString___61d_61d(var_pname, var1048); var1052 = var1053; } if (var1052){ var1054 = 0; { var1055 = array__Array___91d_93d(var_arguments, var1054); } if (varonce1056) { var1057 = varonce1056; } else { var1058 = " <= "; var1059 = 4; var1060 = string__NativeString__to_s_with_length(var1058, var1059); var1057 = var1060; varonce1056 = var1057; } var1061 = 1; { var1062 = array__Array___91d_93d(var_arguments, var1061); } var1063 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1063 = array_instance Array[Object] */ var1064 = 3; var1065 = NEW_array__NativeArray(var1064, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1065)->values[0] = (val*) var1055; ((struct instance_array__NativeArray*)var1065)->values[1] = (val*) var1057; ((struct instance_array__NativeArray*)var1065)->values[2] = (val*) var1062; { ((void (*)(val*, val*, long))(var1063->class->vft[COLOR_array__Array__with_native]))(var1063, var1065, var1064) /* with_native on <var1063:Array[Object]>*/; } } { var1066 = ((val* (*)(val*))(var1063->class->vft[COLOR_string__Object__to_s]))(var1063) /* to_s on <var1063:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2169); show_backtrace(1); } { var1067 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1066, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1067); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1068 = 1; var = var1068; goto RET_LABEL; } else { if (varonce1069) { var1070 = varonce1069; } else { var1071 = ">="; var1072 = 2; var1073 = string__NativeString__to_s_with_length(var1071, var1072); var1070 = var1073; varonce1069 = var1070; } { var1075 = string__FlatString___61d_61d(var_pname, var1070); var1074 = var1075; } if (var1074){ var1076 = 0; { var1077 = array__Array___91d_93d(var_arguments, var1076); } if (varonce1078) { var1079 = varonce1078; } else { var1080 = " >= "; var1081 = 4; var1082 = string__NativeString__to_s_with_length(var1080, var1081); var1079 = var1082; varonce1078 = var1079; } var1083 = 1; { var1084 = array__Array___91d_93d(var_arguments, var1083); } var1085 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1085 = array_instance Array[Object] */ var1086 = 3; var1087 = NEW_array__NativeArray(var1086, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1087)->values[0] = (val*) var1077; ((struct instance_array__NativeArray*)var1087)->values[1] = (val*) var1079; ((struct instance_array__NativeArray*)var1087)->values[2] = (val*) var1084; { ((void (*)(val*, val*, long))(var1085->class->vft[COLOR_array__Array__with_native]))(var1085, var1087, var1086) /* with_native on <var1085:Array[Object]>*/; } } { var1088 = ((val* (*)(val*))(var1085->class->vft[COLOR_string__Object__to_s]))(var1085) /* to_s on <var1085:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2172); show_backtrace(1); } { var1089 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1088, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1089); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1090 = 1; var = var1090; goto RET_LABEL; } else { if (varonce1091) { var1092 = varonce1091; } else { var1093 = "to_i"; var1094 = 4; var1095 = string__NativeString__to_s_with_length(var1093, var1094); var1092 = var1095; varonce1091 = var1092; } { var1097 = string__FlatString___61d_61d(var_pname, var1092); var1096 = var1097; } if (var1096){ if (varonce1098) { var1099 = varonce1098; } else { var1100 = "(long)"; var1101 = 6; var1102 = string__NativeString__to_s_with_length(var1100, var1101); var1099 = var1102; varonce1098 = var1099; } var1103 = 0; { var1104 = array__Array___91d_93d(var_arguments, var1103); } var1105 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1105 = array_instance Array[Object] */ var1106 = 2; var1107 = NEW_array__NativeArray(var1106, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1107)->values[0] = (val*) var1099; ((struct instance_array__NativeArray*)var1107)->values[1] = (val*) var1104; { ((void (*)(val*, val*, long))(var1105->class->vft[COLOR_array__Array__with_native]))(var1105, var1107, var1106) /* with_native on <var1105:Array[Object]>*/; } } { var1108 = ((val* (*)(val*))(var1105->class->vft[COLOR_string__Object__to_s]))(var1105) /* to_s on <var1105:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2175); show_backtrace(1); } { var1109 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1108, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1109); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1110 = 1; var = var1110; goto RET_LABEL; } else { } } } } } } } } } } } } } } } } } else { if (varonce1111) { var1112 = varonce1111; } else { var1113 = "NativeString"; var1114 = 12; var1115 = string__NativeString__to_s_with_length(var1113, var1114); var1112 = var1115; varonce1111 = var1112; } { var1117 = string__FlatString___61d_61d(var_cname, var1112); var1116 = var1117; } if (var1116){ if (varonce1118) { var1119 = varonce1118; } else { var1120 = "[]"; var1121 = 2; var1122 = string__NativeString__to_s_with_length(var1120, var1121); var1119 = var1122; varonce1118 = var1119; } { var1124 = string__FlatString___61d_61d(var_pname, var1119); var1123 = var1124; } if (var1123){ var1125 = 0; { var1126 = array__Array___91d_93d(var_arguments, var1125); } if (varonce1127) { var1128 = varonce1127; } else { var1129 = "["; var1130 = 1; var1131 = string__NativeString__to_s_with_length(var1129, var1130); var1128 = var1131; varonce1127 = var1128; } var1132 = 1; { var1133 = array__Array___91d_93d(var_arguments, var1132); } if (varonce1134) { var1135 = varonce1134; } else { var1136 = "]"; var1137 = 1; var1138 = string__NativeString__to_s_with_length(var1136, var1137); var1135 = var1138; varonce1134 = var1135; } var1139 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1139 = array_instance Array[Object] */ var1140 = 4; var1141 = NEW_array__NativeArray(var1140, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1141)->values[0] = (val*) var1126; ((struct instance_array__NativeArray*)var1141)->values[1] = (val*) var1128; ((struct instance_array__NativeArray*)var1141)->values[2] = (val*) var1133; ((struct instance_array__NativeArray*)var1141)->values[3] = (val*) var1135; { ((void (*)(val*, val*, long))(var1139->class->vft[COLOR_array__Array__with_native]))(var1139, var1141, var1140) /* with_native on <var1139:Array[Object]>*/; } } { var1142 = ((val* (*)(val*))(var1139->class->vft[COLOR_string__Object__to_s]))(var1139) /* to_s on <var1139:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2180); show_backtrace(1); } { var1143 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1142, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1143); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1144 = 1; var = var1144; goto RET_LABEL; } else { if (varonce1145) { var1146 = varonce1145; } else { var1147 = "[]="; var1148 = 3; var1149 = string__NativeString__to_s_with_length(var1147, var1148); var1146 = var1149; varonce1145 = var1146; } { var1151 = string__FlatString___61d_61d(var_pname, var1146); var1150 = var1151; } if (var1150){ var1152 = 0; { var1153 = array__Array___91d_93d(var_arguments, var1152); } if (varonce1154) { var1155 = varonce1154; } else { var1156 = "["; var1157 = 1; var1158 = string__NativeString__to_s_with_length(var1156, var1157); var1155 = var1158; varonce1154 = var1155; } var1159 = 1; { var1160 = array__Array___91d_93d(var_arguments, var1159); } if (varonce1161) { var1162 = varonce1161; } else { var1163 = "]="; var1164 = 2; var1165 = string__NativeString__to_s_with_length(var1163, var1164); var1162 = var1165; varonce1161 = var1162; } var1166 = 2; { var1167 = array__Array___91d_93d(var_arguments, var1166); } if (varonce1168) { var1169 = varonce1168; } else { var1170 = ";"; var1171 = 1; var1172 = string__NativeString__to_s_with_length(var1170, var1171); var1169 = var1172; varonce1168 = var1169; } var1173 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1173 = array_instance Array[Object] */ var1174 = 6; var1175 = NEW_array__NativeArray(var1174, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1175)->values[0] = (val*) var1153; ((struct instance_array__NativeArray*)var1175)->values[1] = (val*) var1155; ((struct instance_array__NativeArray*)var1175)->values[2] = (val*) var1160; ((struct instance_array__NativeArray*)var1175)->values[3] = (val*) var1162; ((struct instance_array__NativeArray*)var1175)->values[4] = (val*) var1167; ((struct instance_array__NativeArray*)var1175)->values[5] = (val*) var1169; { ((void (*)(val*, val*, long))(var1173->class->vft[COLOR_array__Array__with_native]))(var1173, var1175, var1174) /* with_native on <var1173:Array[Object]>*/; } } { var1176 = ((val* (*)(val*))(var1173->class->vft[COLOR_string__Object__to_s]))(var1173) /* to_s on <var1173:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var1176); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var1177 = 1; var = var1177; goto RET_LABEL; } else { if (varonce1178) { var1179 = varonce1178; } else { var1180 = "copy_to"; var1181 = 7; var1182 = string__NativeString__to_s_with_length(var1180, var1181); var1179 = var1182; varonce1178 = var1179; } { var1184 = string__FlatString___61d_61d(var_pname, var1179); var1183 = var1184; } if (var1183){ if (varonce1185) { var1186 = varonce1185; } else { var1187 = "memmove("; var1188 = 8; var1189 = string__NativeString__to_s_with_length(var1187, var1188); var1186 = var1189; varonce1185 = var1186; } var1190 = 1; { var1191 = array__Array___91d_93d(var_arguments, var1190); } if (varonce1192) { var1193 = varonce1192; } else { var1194 = "+"; var1195 = 1; var1196 = string__NativeString__to_s_with_length(var1194, var1195); var1193 = var1196; varonce1192 = var1193; } var1197 = 4; { var1198 = array__Array___91d_93d(var_arguments, var1197); } if (varonce1199) { var1200 = varonce1199; } else { var1201 = ","; var1202 = 1; var1203 = string__NativeString__to_s_with_length(var1201, var1202); var1200 = var1203; varonce1199 = var1200; } var1204 = 0; { var1205 = array__Array___91d_93d(var_arguments, var1204); } if (varonce1206) { var1207 = varonce1206; } else { var1208 = "+"; var1209 = 1; var1210 = string__NativeString__to_s_with_length(var1208, var1209); var1207 = var1210; varonce1206 = var1207; } var1211 = 3; { var1212 = array__Array___91d_93d(var_arguments, var1211); } if (varonce1213) { var1214 = varonce1213; } else { var1215 = ","; var1216 = 1; var1217 = string__NativeString__to_s_with_length(var1215, var1216); var1214 = var1217; varonce1213 = var1214; } var1218 = 2; { var1219 = array__Array___91d_93d(var_arguments, var1218); } if (varonce1220) { var1221 = varonce1220; } else { var1222 = ");"; var1223 = 2; var1224 = string__NativeString__to_s_with_length(var1222, var1223); var1221 = var1224; varonce1220 = var1221; } var1225 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1225 = array_instance Array[Object] */ var1226 = 11; var1227 = NEW_array__NativeArray(var1226, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1227)->values[0] = (val*) var1186; ((struct instance_array__NativeArray*)var1227)->values[1] = (val*) var1191; ((struct instance_array__NativeArray*)var1227)->values[2] = (val*) var1193; ((struct instance_array__NativeArray*)var1227)->values[3] = (val*) var1198; ((struct instance_array__NativeArray*)var1227)->values[4] = (val*) var1200; ((struct instance_array__NativeArray*)var1227)->values[5] = (val*) var1205; ((struct instance_array__NativeArray*)var1227)->values[6] = (val*) var1207; ((struct instance_array__NativeArray*)var1227)->values[7] = (val*) var1212; ((struct instance_array__NativeArray*)var1227)->values[8] = (val*) var1214; ((struct instance_array__NativeArray*)var1227)->values[9] = (val*) var1219; ((struct instance_array__NativeArray*)var1227)->values[10] = (val*) var1221; { ((void (*)(val*, val*, long))(var1225->class->vft[COLOR_array__Array__with_native]))(var1225, var1227, var1226) /* with_native on <var1225:Array[Object]>*/; } } { var1228 = ((val* (*)(val*))(var1225->class->vft[COLOR_string__Object__to_s]))(var1225) /* to_s on <var1225:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var1228); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var1229 = 1; var = var1229; goto RET_LABEL; } else { if (varonce1230) { var1231 = varonce1230; } else { var1232 = "atoi"; var1233 = 4; var1234 = string__NativeString__to_s_with_length(var1232, var1233); var1231 = var1234; varonce1230 = var1231; } { var1236 = string__FlatString___61d_61d(var_pname, var1231); var1235 = var1236; } if (var1235){ if (varonce1237) { var1238 = varonce1237; } else { var1239 = "atoi("; var1240 = 5; var1241 = string__NativeString__to_s_with_length(var1239, var1240); var1238 = var1241; varonce1237 = var1238; } var1242 = 0; { var1243 = array__Array___91d_93d(var_arguments, var1242); } if (varonce1244) { var1245 = varonce1244; } else { var1246 = ");"; var1247 = 2; var1248 = string__NativeString__to_s_with_length(var1246, var1247); var1245 = var1248; varonce1244 = var1245; } var1249 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1249 = array_instance Array[Object] */ var1250 = 3; var1251 = NEW_array__NativeArray(var1250, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1251)->values[0] = (val*) var1238; ((struct instance_array__NativeArray*)var1251)->values[1] = (val*) var1243; ((struct instance_array__NativeArray*)var1251)->values[2] = (val*) var1245; { ((void (*)(val*, val*, long))(var1249->class->vft[COLOR_array__Array__with_native]))(var1249, var1251, var1250) /* with_native on <var1249:Array[Object]>*/; } } { var1252 = ((val* (*)(val*))(var1249->class->vft[COLOR_string__Object__to_s]))(var1249) /* to_s on <var1249:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2189); show_backtrace(1); } { var1253 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1252, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1253); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1254 = 1; var = var1254; goto RET_LABEL; } else { if (varonce1255) { var1256 = varonce1255; } else { var1257 = "new"; var1258 = 3; var1259 = string__NativeString__to_s_with_length(var1257, var1258); var1256 = var1259; varonce1255 = var1256; } { var1261 = string__FlatString___61d_61d(var_pname, var1256); var1260 = var1261; } if (var1260){ if (varonce1262) { var1263 = varonce1262; } else { var1264 = "(char*)nit_alloc("; var1265 = 17; var1266 = string__NativeString__to_s_with_length(var1264, var1265); var1263 = var1266; varonce1262 = var1263; } var1267 = 1; { var1268 = array__Array___91d_93d(var_arguments, var1267); } if (varonce1269) { var1270 = varonce1269; } else { var1271 = ")"; var1272 = 1; var1273 = string__NativeString__to_s_with_length(var1271, var1272); var1270 = var1273; varonce1269 = var1270; } var1274 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1274 = array_instance Array[Object] */ var1275 = 3; var1276 = NEW_array__NativeArray(var1275, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1276)->values[0] = (val*) var1263; ((struct instance_array__NativeArray*)var1276)->values[1] = (val*) var1268; ((struct instance_array__NativeArray*)var1276)->values[2] = (val*) var1270; { ((void (*)(val*, val*, long))(var1274->class->vft[COLOR_array__Array__with_native]))(var1274, var1276, var1275) /* with_native on <var1274:Array[Object]>*/; } } { var1277 = ((val* (*)(val*))(var1274->class->vft[COLOR_string__Object__to_s]))(var1274) /* to_s on <var1274:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2192); show_backtrace(1); } { var1278 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1277, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1278); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1279 = 1; var = var1279; goto RET_LABEL; } else { } } } } } } else { if (varonce1280) { var1281 = varonce1280; } else { var1282 = "NativeArray"; var1283 = 11; var1284 = string__NativeString__to_s_with_length(var1282, var1283); var1281 = var1284; varonce1280 = var1281; } { var1286 = string__FlatString___61d_61d(var_cname, var1281); var1285 = var1286; } if (var1285){ { separate_compiler__SeparateCompilerVisitor__native_array_def(var_v, var_pname, var_ret, var_arguments); /* Direct call separate_compiler#SeparateCompilerVisitor#native_array_def on <var_v:AbstractCompilerVisitor>*/ } var1287 = 1; var = var1287; goto RET_LABEL; } else { } } } } } } if (varonce1288) { var1289 = varonce1288; } else { var1290 = "exit"; var1291 = 4; var1292 = string__NativeString__to_s_with_length(var1290, var1291); var1289 = var1292; varonce1288 = var1289; } { var1294 = string__FlatString___61d_61d(var_pname, var1289); var1293 = var1294; } if (var1293){ if (varonce1295) { var1296 = varonce1295; } else { var1297 = "exit("; var1298 = 5; var1299 = string__NativeString__to_s_with_length(var1297, var1298); var1296 = var1299; varonce1295 = var1296; } var1300 = 1; { var1301 = array__Array___91d_93d(var_arguments, var1300); } if (varonce1302) { var1303 = varonce1302; } else { var1304 = ");"; var1305 = 2; var1306 = string__NativeString__to_s_with_length(var1304, var1305); var1303 = var1306; varonce1302 = var1303; } var1307 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1307 = array_instance Array[Object] */ var1308 = 3; var1309 = NEW_array__NativeArray(var1308, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1309)->values[0] = (val*) var1296; ((struct instance_array__NativeArray*)var1309)->values[1] = (val*) var1301; ((struct instance_array__NativeArray*)var1309)->values[2] = (val*) var1303; { ((void (*)(val*, val*, long))(var1307->class->vft[COLOR_array__Array__with_native]))(var1307, var1309, var1308) /* with_native on <var1307:Array[Object]>*/; } } { var1310 = ((val* (*)(val*))(var1307->class->vft[COLOR_string__Object__to_s]))(var1307) /* to_s on <var1307:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var1310); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var1311 = 1; var = var1311; goto RET_LABEL; } else { if (varonce1312) { var1313 = varonce1312; } else { var1314 = "sys"; var1315 = 3; var1316 = string__NativeString__to_s_with_length(var1314, var1315); var1313 = var1316; varonce1312 = var1313; } { var1318 = string__FlatString___61d_61d(var_pname, var1313); var1317 = var1318; } if (var1317){ if (varonce1319) { var1320 = varonce1319; } else { var1321 = "glob_sys"; var1322 = 8; var1323 = string__NativeString__to_s_with_length(var1321, var1322); var1320 = var1323; varonce1319 = var1320; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2203); show_backtrace(1); } { var1324 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1320, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1324); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1325 = 1; var = var1325; goto RET_LABEL; } else { if (varonce1326) { var1327 = varonce1326; } else { var1328 = "calloc_string"; var1329 = 13; var1330 = string__NativeString__to_s_with_length(var1328, var1329); var1327 = var1330; varonce1326 = var1327; } { var1332 = string__FlatString___61d_61d(var_pname, var1327); var1331 = var1332; } if (var1331){ if (varonce1333) { var1334 = varonce1333; } else { var1335 = "(char*)nit_alloc("; var1336 = 17; var1337 = string__NativeString__to_s_with_length(var1335, var1336); var1334 = var1337; varonce1333 = var1334; } var1338 = 1; { var1339 = array__Array___91d_93d(var_arguments, var1338); } if (varonce1340) { var1341 = varonce1340; } else { var1342 = ")"; var1343 = 1; var1344 = string__NativeString__to_s_with_length(var1342, var1343); var1341 = var1344; varonce1340 = var1341; } var1345 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1345 = array_instance Array[Object] */ var1346 = 3; var1347 = NEW_array__NativeArray(var1346, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1347)->values[0] = (val*) var1334; ((struct instance_array__NativeArray*)var1347)->values[1] = (val*) var1339; ((struct instance_array__NativeArray*)var1347)->values[2] = (val*) var1341; { ((void (*)(val*, val*, long))(var1345->class->vft[COLOR_array__Array__with_native]))(var1345, var1347, var1346) /* with_native on <var1345:Array[Object]>*/; } } { var1348 = ((val* (*)(val*))(var1345->class->vft[COLOR_string__Object__to_s]))(var1345) /* to_s on <var1345:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2206); show_backtrace(1); } { var1349 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1348, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1349); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1350 = 1; var = var1350; goto RET_LABEL; } else { if (varonce1351) { var1352 = varonce1351; } else { var1353 = "calloc_array"; var1354 = 12; var1355 = string__NativeString__to_s_with_length(var1353, var1354); var1352 = var1355; varonce1351 = var1352; } { var1357 = string__FlatString___61d_61d(var_pname, var1352); var1356 = var1357; } if (var1356){ if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2209); show_backtrace(1); } { ((void (*)(val*, val*, val*))(var_v->class->vft[COLOR_abstract_compiler__AbstractCompilerVisitor__calloc_array]))(var_v, var_ret, var_arguments) /* calloc_array on <var_v:AbstractCompilerVisitor>*/; } var1358 = 1; var = var1358; goto RET_LABEL; } else { if (varonce1359) { var1360 = varonce1359; } else { var1361 = "object_id"; var1362 = 9; var1363 = string__NativeString__to_s_with_length(var1361, var1362); var1360 = var1363; varonce1359 = var1360; } { var1365 = string__FlatString___61d_61d(var_pname, var1360); var1364 = var1365; } if (var1364){ if (varonce1366) { var1367 = varonce1366; } else { var1368 = "(long)"; var1369 = 6; var1370 = string__NativeString__to_s_with_length(var1368, var1369); var1367 = var1370; varonce1366 = var1367; } { var1371 = abstract_collection__SequenceRead__first(var_arguments); } var1372 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1372 = array_instance Array[Object] */ var1373 = 2; var1374 = NEW_array__NativeArray(var1373, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1374)->values[0] = (val*) var1367; ((struct instance_array__NativeArray*)var1374)->values[1] = (val*) var1371; { ((void (*)(val*, val*, long))(var1372->class->vft[COLOR_array__Array__with_native]))(var1372, var1374, var1373) /* with_native on <var1372:Array[Object]>*/; } } { var1375 = ((val* (*)(val*))(var1372->class->vft[COLOR_string__Object__to_s]))(var1372) /* to_s on <var1372:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2212); show_backtrace(1); } { var1376 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1375, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1376); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1377 = 1; var = var1377; goto RET_LABEL; } else { if (varonce1378) { var1379 = varonce1378; } else { var1380 = "is_same_type"; var1381 = 12; var1382 = string__NativeString__to_s_with_length(var1380, var1381); var1379 = var1382; varonce1378 = var1379; } { var1384 = string__FlatString___61d_61d(var_pname, var1379); var1383 = var1384; } if (var1383){ var1385 = 0; { var1386 = array__Array___91d_93d(var_arguments, var1385); } var1387 = 1; { var1388 = array__Array___91d_93d(var_arguments, var1387); } { var1389 = separate_compiler__SeparateCompilerVisitor__is_same_type_test(var_v, var1386, var1388); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1389); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1390 = 1; var = var1390; goto RET_LABEL; } else { if (varonce1391) { var1392 = varonce1391; } else { var1393 = "is_same_instance"; var1394 = 16; var1395 = string__NativeString__to_s_with_length(var1393, var1394); var1392 = var1395; varonce1391 = var1392; } { var1397 = string__FlatString___61d_61d(var_pname, var1392); var1396 = var1397; } if (var1396){ var1398 = 0; { var1399 = array__Array___91d_93d(var_arguments, var1398); } var1400 = 1; { var1401 = array__Array___91d_93d(var_arguments, var1400); } { var1402 = separate_compiler__SeparateCompilerVisitor__equal_test(var_v, var1399, var1401); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1402); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1403 = 1; var = var1403; goto RET_LABEL; } else { if (varonce1404) { var1405 = varonce1404; } else { var1406 = "output_class_name"; var1407 = 17; var1408 = string__NativeString__to_s_with_length(var1406, var1407); var1405 = var1408; varonce1404 = var1405; } { var1410 = string__FlatString___61d_61d(var_pname, var1405); var1409 = var1410; } if (var1409){ { var1411 = abstract_collection__SequenceRead__first(var_arguments); } { var1412 = ((val* (*)(val*, val*))(var_v->class->vft[COLOR_abstract_compiler__AbstractCompilerVisitor__class_name_string]))(var_v, var1411) /* class_name_string on <var_v:AbstractCompilerVisitor>*/; } var_nat = var1412; if (varonce1413) { var1414 = varonce1413; } else { var1415 = "printf(\"%s\\n\", "; var1416 = 15; var1417 = string__NativeString__to_s_with_length(var1415, var1416); var1414 = var1417; varonce1413 = var1414; } if (varonce1418) { var1419 = varonce1418; } else { var1420 = ");"; var1421 = 2; var1422 = string__NativeString__to_s_with_length(var1420, var1421); var1419 = var1422; varonce1418 = var1419; } var1423 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1423 = array_instance Array[Object] */ var1424 = 3; var1425 = NEW_array__NativeArray(var1424, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1425)->values[0] = (val*) var1414; ((struct instance_array__NativeArray*)var1425)->values[1] = (val*) var_nat; ((struct instance_array__NativeArray*)var1425)->values[2] = (val*) var1419; { ((void (*)(val*, val*, long))(var1423->class->vft[COLOR_array__Array__with_native]))(var1423, var1425, var1424) /* with_native on <var1423:Array[Object]>*/; } } { var1426 = ((val* (*)(val*))(var1423->class->vft[COLOR_string__Object__to_s]))(var1423) /* to_s on <var1423:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var1426); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var1427 = 1; var = var1427; goto RET_LABEL; } else { if (varonce1428) { var1429 = varonce1428; } else { var1430 = "native_class_name"; var1431 = 17; var1432 = string__NativeString__to_s_with_length(var1430, var1431); var1429 = var1432; varonce1428 = var1429; } { var1434 = string__FlatString___61d_61d(var_pname, var1429); var1433 = var1434; } if (var1433){ { var1435 = abstract_collection__SequenceRead__first(var_arguments); } { var1436 = ((val* (*)(val*, val*))(var_v->class->vft[COLOR_abstract_compiler__AbstractCompilerVisitor__class_name_string]))(var_v, var1435) /* class_name_string on <var_v:AbstractCompilerVisitor>*/; } var_nat1437 = var1436; if (varonce1438) { var1439 = varonce1438; } else { var1440 = "(char*)"; var1441 = 7; var1442 = string__NativeString__to_s_with_length(var1440, var1441); var1439 = var1442; varonce1438 = var1439; } var1443 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1443 = array_instance Array[Object] */ var1444 = 2; var1445 = NEW_array__NativeArray(var1444, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1445)->values[0] = (val*) var1439; ((struct instance_array__NativeArray*)var1445)->values[1] = (val*) var_nat1437; { ((void (*)(val*, val*, long))(var1443->class->vft[COLOR_array__Array__with_native]))(var1443, var1445, var1444) /* with_native on <var1443:Array[Object]>*/; } } { var1446 = ((val* (*)(val*))(var1443->class->vft[COLOR_string__Object__to_s]))(var1443) /* to_s on <var1443:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2226); show_backtrace(1); } { var1447 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1446, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1447); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1448 = 1; var = var1448; goto RET_LABEL; } else { if (varonce1449) { var1450 = varonce1449; } else { var1451 = "force_garbage_collection"; var1452 = 24; var1453 = string__NativeString__to_s_with_length(var1451, var1452); var1450 = var1453; varonce1449 = var1450; } { var1455 = string__FlatString___61d_61d(var_pname, var1450); var1454 = var1455; } if (var1454){ if (varonce1456) { var1457 = varonce1456; } else { var1458 = "nit_gcollect();"; var1459 = 15; var1460 = string__NativeString__to_s_with_length(var1458, var1459); var1457 = var1460; varonce1456 = var1457; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var1457); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var1461 = 1; var = var1461; goto RET_LABEL; } else { if (varonce1462) { var1463 = varonce1462; } else { var1464 = "native_argc"; var1465 = 11; var1466 = string__NativeString__to_s_with_length(var1464, var1465); var1463 = var1466; varonce1462 = var1463; } { var1468 = string__FlatString___61d_61d(var_pname, var1463); var1467 = var1468; } if (var1467){ if (varonce1469) { var1470 = varonce1469; } else { var1471 = "glob_argc"; var1472 = 9; var1473 = string__NativeString__to_s_with_length(var1471, var1472); var1470 = var1473; varonce1469 = var1470; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2232); show_backtrace(1); } { var1474 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1470, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1474); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1475 = 1; var = var1475; goto RET_LABEL; } else { if (varonce1476) { var1477 = varonce1476; } else { var1478 = "native_argv"; var1479 = 11; var1480 = string__NativeString__to_s_with_length(var1478, var1479); var1477 = var1480; varonce1476 = var1477; } { var1482 = string__FlatString___61d_61d(var_pname, var1477); var1481 = var1482; } if (var1481){ if (varonce1483) { var1484 = varonce1483; } else { var1485 = "glob_argv["; var1486 = 10; var1487 = string__NativeString__to_s_with_length(var1485, var1486); var1484 = var1487; varonce1483 = var1484; } var1488 = 1; { var1489 = array__Array___91d_93d(var_arguments, var1488); } if (varonce1490) { var1491 = varonce1490; } else { var1492 = "]"; var1493 = 1; var1494 = string__NativeString__to_s_with_length(var1492, var1493); var1491 = var1494; varonce1490 = var1491; } var1495 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var1495 = array_instance Array[Object] */ var1496 = 3; var1497 = NEW_array__NativeArray(var1496, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var1497)->values[0] = (val*) var1484; ((struct instance_array__NativeArray*)var1497)->values[1] = (val*) var1489; ((struct instance_array__NativeArray*)var1497)->values[2] = (val*) var1491; { ((void (*)(val*, val*, long))(var1495->class->vft[COLOR_array__Array__with_native]))(var1495, var1497, var1496) /* with_native on <var1495:Array[Object]>*/; } } { var1498 = ((val* (*)(val*))(var1495->class->vft[COLOR_string__Object__to_s]))(var1495) /* to_s on <var1495:Array[Object]>*/; } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2235); show_backtrace(1); } { var1499 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var1498, var_ret); } { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var1499); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var1500 = 1; var = var1500; goto RET_LABEL; } else { } } } } } } } } } } } } var1501 = 0; var = var1501; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#AMethPropdef#compile_intern_to_c for (self: Object, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]): Bool */ short int VIRTUAL_abstract_compiler__AMethPropdef__compile_intern_to_c(val* self, val* p0, val* p1, val* p2) { short int var /* : Bool */; short int var1 /* : Bool */; var1 = abstract_compiler__AMethPropdef__compile_intern_to_c(self, p0, p1, p2); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AMethPropdef#compile_externmeth_to_c for (self: AMethPropdef, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]): Bool */ short int abstract_compiler__AMethPropdef__compile_externmeth_to_c(val* self, val* p0, val* p1, val* p2) { short int var /* : Bool */; val* var_v /* var v: AbstractCompilerVisitor */; val* var_mpropdef /* var mpropdef: MMethodDef */; val* var_arguments /* var arguments: Array[RuntimeVariable] */; static val* varonce; val* var1 /* : String */; char* var2 /* : NativeString */; long var3 /* : Int */; val* var4 /* : FlatString */; val* var5 /* : AbstractCompiler */; val* var7 /* : AbstractCompiler */; val* var8 /* : ModelBuilder */; val* var10 /* : ModelBuilder */; val* var11 /* : nullable AAnnotation */; val* var_at /* var at: nullable AAnnotation */; val* var12 /* : null */; short int var13 /* : Bool */; short int var14 /* : Bool */; val* var_other /* var other: nullable Object */; short int var16 /* : Bool */; short int var17 /* : Bool */; short int var18 /* : Bool */; val* var19 /* : AbstractCompiler */; val* var21 /* : AbstractCompiler */; val* var22 /* : ModelBuilder */; val* var24 /* : ModelBuilder */; val* var25 /* : nullable String */; val* var_externname /* var externname: nullable Object */; val* var26 /* : null */; short int var27 /* : Bool */; short int var28 /* : Bool */; short int var29 /* : Bool */; short int var30 /* : Bool */; val* var31 /* : Location */; val* var33 /* : Location */; val* var34 /* : nullable SourceFile */; val* var36 /* : nullable SourceFile */; val* var37 /* : null */; short int var38 /* : Bool */; short int var39 /* : Bool */; short int var41 /* : Bool */; short int var42 /* : Bool */; short int var43 /* : Bool */; val* var44 /* : Location */; val* var46 /* : Location */; val* var47 /* : nullable SourceFile */; val* var49 /* : nullable SourceFile */; val* var50 /* : String */; val* var52 /* : String */; val* var_file /* var file: String */; val* var53 /* : null */; val* var_res /* var res: nullable RuntimeVariable */; val* var54 /* : nullable MSignature */; val* var56 /* : nullable MSignature */; val* var57 /* : nullable MType */; val* var59 /* : nullable MType */; val* var_ret /* var ret: nullable MType */; val* var60 /* : null */; short int var61 /* : Bool */; short int var62 /* : Bool */; short int var64 /* : Bool */; short int var65 /* : Bool */; short int var66 /* : Bool */; val* var67 /* : nullable Object */; val* var68 /* : MType */; val* var69 /* : RuntimeVariable */; val* var70 /* : null */; short int var71 /* : Bool */; short int var72 /* : Bool */; val* var_other74 /* var other: nullable Object */; short int var75 /* : Bool */; short int var77 /* : Bool */; static val* varonce78; val* var79 /* : String */; char* var80 /* : NativeString */; long var81 /* : Int */; val* var82 /* : FlatString */; static val* varonce83; val* var84 /* : String */; char* var85 /* : NativeString */; long var86 /* : Int */; val* var87 /* : FlatString */; val* var88 /* : String */; static val* varonce89; val* var90 /* : String */; char* var91 /* : NativeString */; long var92 /* : Int */; val* var93 /* : FlatString */; val* var94 /* : Array[Object] */; long var95 /* : Int */; val* var96 /* : NativeArray[Object] */; val* var97 /* : String */; static val* varonce98; val* var99 /* : String */; char* var100 /* : NativeString */; long var101 /* : Int */; val* var102 /* : FlatString */; static val* varonce103; val* var104 /* : String */; char* var105 /* : NativeString */; long var106 /* : Int */; val* var107 /* : FlatString */; static val* varonce108; val* var109 /* : String */; char* var110 /* : NativeString */; long var111 /* : Int */; val* var112 /* : FlatString */; val* var113 /* : String */; static val* varonce114; val* var115 /* : String */; char* var116 /* : NativeString */; long var117 /* : Int */; val* var118 /* : FlatString */; val* var119 /* : Array[Object] */; long var120 /* : Int */; val* var121 /* : NativeArray[Object] */; val* var122 /* : String */; val* var123 /* : RuntimeVariable */; short int var124 /* : Bool */; var_v = p0; var_mpropdef = p1; var_arguments = p2; if (varonce) { var1 = varonce; } else { var2 = "extern"; var3 = 6; var4 = string__NativeString__to_s_with_length(var2, var3); var1 = var4; varonce = var1; } { { /* Inline abstract_compiler#AbstractCompilerVisitor#compiler (var_v) on <var_v:AbstractCompilerVisitor> */ var7 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___compiler].val; /* _compiler on <var_v:AbstractCompilerVisitor> */ if (unlikely(var7 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _compiler"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1041); show_backtrace(1); } var5 = var7; RET_LABEL6:(void)0; } } { { /* Inline abstract_compiler#AbstractCompiler#modelbuilder (var5) on <var5:AbstractCompiler> */ var10 = var5->attrs[COLOR_abstract_compiler__AbstractCompiler___modelbuilder].val; /* _modelbuilder on <var5:AbstractCompiler> */ if (unlikely(var10 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _modelbuilder"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 470); show_backtrace(1); } var8 = var10; RET_LABEL9:(void)0; } } { var11 = annotation__Prod__get_single_annotation(self, var1, var8); } var_at = var11; var12 = NULL; if (var_at == NULL) { var13 = 0; /* is null */ } else { var13 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_at,var12) on <var_at:nullable AAnnotation> */ var_other = var12; { var17 = ((short int (*)(val*, val*))(var_at->class->vft[COLOR_kernel__Object___61d_61d]))(var_at, var_other) /* == on <var_at:nullable AAnnotation(AAnnotation)>*/; var16 = var17; } var18 = !var16; var14 = var18; goto RET_LABEL15; RET_LABEL15:(void)0; } var13 = var14; } if (var13){ { { /* Inline abstract_compiler#AbstractCompilerVisitor#compiler (var_v) on <var_v:AbstractCompilerVisitor> */ var21 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___compiler].val; /* _compiler on <var_v:AbstractCompilerVisitor> */ if (unlikely(var21 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _compiler"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1041); show_backtrace(1); } var19 = var21; RET_LABEL20:(void)0; } } { { /* Inline abstract_compiler#AbstractCompiler#modelbuilder (var19) on <var19:AbstractCompiler> */ var24 = var19->attrs[COLOR_abstract_compiler__AbstractCompiler___modelbuilder].val; /* _modelbuilder on <var19:AbstractCompiler> */ if (unlikely(var24 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _modelbuilder"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 470); show_backtrace(1); } var22 = var24; RET_LABEL23:(void)0; } } { var25 = annotation__AAnnotation__arg_as_string(var_at, var22); } var_externname = var25; var26 = NULL; if (var_externname == NULL) { var27 = 1; /* is null */ } else { var27 = 0; /* arg is null but recv is not */ } if (0) { var28 = string__FlatString___61d_61d(var_externname, var26); var27 = var28; } if (var27){ var29 = 0; var = var29; goto RET_LABEL; } else { } } else { var30 = 0; var = var30; goto RET_LABEL; } { { /* Inline parser_nodes#ANode#location (self) on <self:AMethPropdef> */ var33 = self->attrs[COLOR_parser_nodes__ANode___location].val; /* _location on <self:AMethPropdef> */ if (unlikely(var33 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _location"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 23); show_backtrace(1); } var31 = var33; RET_LABEL32:(void)0; } } { { /* Inline location#Location#file (var31) on <var31:Location> */ var36 = var31->attrs[COLOR_location__Location___file].val; /* _file on <var31:Location> */ var34 = var36; RET_LABEL35:(void)0; } } var37 = NULL; if (var34 == NULL) { var38 = 0; /* is null */ } else { var38 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var34,var37) on <var34:nullable SourceFile> */ var_other = var37; { var42 = ((short int (*)(val*, val*))(var34->class->vft[COLOR_kernel__Object___61d_61d]))(var34, var_other) /* == on <var34:nullable SourceFile(SourceFile)>*/; var41 = var42; } var43 = !var41; var39 = var43; goto RET_LABEL40; RET_LABEL40:(void)0; } var38 = var39; } if (var38){ { { /* Inline parser_nodes#ANode#location (self) on <self:AMethPropdef> */ var46 = self->attrs[COLOR_parser_nodes__ANode___location].val; /* _location on <self:AMethPropdef> */ if (unlikely(var46 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _location"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 23); show_backtrace(1); } var44 = var46; RET_LABEL45:(void)0; } } { { /* Inline location#Location#file (var44) on <var44:Location> */ var49 = var44->attrs[COLOR_location__Location___file].val; /* _file on <var44:Location> */ var47 = var49; RET_LABEL48:(void)0; } } if (var47 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2254); show_backtrace(1); } else { { /* Inline location#SourceFile#filename (var47) on <var47:nullable SourceFile> */ if (unlikely(var47 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "location.nit", 22); show_backtrace(1); } var52 = var47->attrs[COLOR_location__SourceFile___filename].val; /* _filename on <var47:nullable SourceFile> */ if (unlikely(var52 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _filename"); PRINT_ERROR(" (%s:%d)\n", "location.nit", 22); show_backtrace(1); } var50 = var52; RET_LABEL51:(void)0; } } var_file = var50; { abstract_compiler__AbstractCompilerVisitor__add_extern(var_v, var_file); /* Direct call abstract_compiler#AbstractCompilerVisitor#add_extern on <var_v:AbstractCompilerVisitor>*/ } } else { } var53 = NULL; var_res = var53; { { /* Inline model#MMethodDef#msignature (var_mpropdef) on <var_mpropdef:MMethodDef> */ var56 = var_mpropdef->attrs[COLOR_model__MMethodDef___msignature].val; /* _msignature on <var_mpropdef:MMethodDef> */ var54 = var56; RET_LABEL55:(void)0; } } if (var54 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2258); show_backtrace(1); } else { { /* Inline model#MSignature#return_mtype (var54) on <var54:nullable MSignature> */ if (unlikely(var54 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1468); show_backtrace(1); } var59 = var54->attrs[COLOR_model__MSignature___return_mtype].val; /* _return_mtype on <var54:nullable MSignature> */ var57 = var59; RET_LABEL58:(void)0; } } var_ret = var57; var60 = NULL; if (var_ret == NULL) { var61 = 0; /* is null */ } else { var61 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_ret,var60) on <var_ret:nullable MType> */ var_other = var60; { var65 = ((short int (*)(val*, val*))(var_ret->class->vft[COLOR_kernel__Object___61d_61d]))(var_ret, var_other) /* == on <var_ret:nullable MType(MType)>*/; var64 = var65; } var66 = !var64; var62 = var66; goto RET_LABEL63; RET_LABEL63:(void)0; } var61 = var62; } if (var61){ { var67 = abstract_collection__SequenceRead__first(var_arguments); } { var68 = abstract_compiler__AbstractCompilerVisitor__resolve_for(var_v, var_ret, var67); } var_ret = var68; { var69 = abstract_compiler__AbstractCompilerVisitor__new_var_extern(var_v, var_ret); } var_res = var69; } else { } { separate_compiler__SeparateCompilerVisitor__adapt_signature(var_v, var_mpropdef, var_arguments); /* Direct call separate_compiler#SeparateCompilerVisitor#adapt_signature on <var_v:AbstractCompilerVisitor>*/ } { separate_compiler__SeparateCompilerVisitor__unbox_signature_extern(var_v, var_mpropdef, var_arguments); /* Direct call separate_compiler#SeparateCompilerVisitor#unbox_signature_extern on <var_v:AbstractCompilerVisitor>*/ } var70 = NULL; if (var_res == NULL) { var71 = 1; /* is null */ } else { var71 = 0; /* arg is null but recv is not */ } if (0) { { /* Inline kernel#Object#== (var_res,var70) on <var_res:nullable RuntimeVariable> */ var_other74 = var70; { { /* Inline kernel#Object#is_same_instance (var_res,var_other74) on <var_res:nullable RuntimeVariable(RuntimeVariable)> */ var77 = var_res == var_other74; var75 = var77; goto RET_LABEL76; RET_LABEL76:(void)0; } } var72 = var75; goto RET_LABEL73; RET_LABEL73:(void)0; } var71 = var72; } if (var71){ if (varonce78) { var79 = varonce78; } else { var80 = "("; var81 = 1; var82 = string__NativeString__to_s_with_length(var80, var81); var79 = var82; varonce78 = var79; } if (varonce83) { var84 = varonce83; } else { var85 = ", "; var86 = 2; var87 = string__NativeString__to_s_with_length(var85, var86); var84 = var87; varonce83 = var84; } { var88 = string__Collection__join(var_arguments, var84); } if (varonce89) { var90 = varonce89; } else { var91 = ");"; var92 = 2; var93 = string__NativeString__to_s_with_length(var91, var92); var90 = var93; varonce89 = var90; } var94 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var94 = array_instance Array[Object] */ var95 = 4; var96 = NEW_array__NativeArray(var95, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var96)->values[0] = (val*) var_externname; ((struct instance_array__NativeArray*)var96)->values[1] = (val*) var79; ((struct instance_array__NativeArray*)var96)->values[2] = (val*) var88; ((struct instance_array__NativeArray*)var96)->values[3] = (val*) var90; { ((void (*)(val*, val*, long))(var94->class->vft[COLOR_array__Array__with_native]))(var94, var96, var95) /* with_native on <var94:Array[Object]>*/; } } { var97 = ((val* (*)(val*))(var94->class->vft[COLOR_string__Object__to_s]))(var94) /* to_s on <var94:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var97); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } } else { if (varonce98) { var99 = varonce98; } else { var100 = " = "; var101 = 3; var102 = string__NativeString__to_s_with_length(var100, var101); var99 = var102; varonce98 = var99; } if (varonce103) { var104 = varonce103; } else { var105 = "("; var106 = 1; var107 = string__NativeString__to_s_with_length(var105, var106); var104 = var107; varonce103 = var104; } if (varonce108) { var109 = varonce108; } else { var110 = ", "; var111 = 2; var112 = string__NativeString__to_s_with_length(var110, var111); var109 = var112; varonce108 = var109; } { var113 = string__Collection__join(var_arguments, var109); } if (varonce114) { var115 = varonce114; } else { var116 = ");"; var117 = 2; var118 = string__NativeString__to_s_with_length(var116, var117); var115 = var118; varonce114 = var115; } var119 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var119 = array_instance Array[Object] */ var120 = 6; var121 = NEW_array__NativeArray(var120, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var121)->values[0] = (val*) var_res; ((struct instance_array__NativeArray*)var121)->values[1] = (val*) var99; ((struct instance_array__NativeArray*)var121)->values[2] = (val*) var_externname; ((struct instance_array__NativeArray*)var121)->values[3] = (val*) var104; ((struct instance_array__NativeArray*)var121)->values[4] = (val*) var113; ((struct instance_array__NativeArray*)var121)->values[5] = (val*) var115; { ((void (*)(val*, val*, long))(var119->class->vft[COLOR_array__Array__with_native]))(var119, var121, var120) /* with_native on <var119:Array[Object]>*/; } } { var122 = ((val* (*)(val*))(var119->class->vft[COLOR_string__Object__to_s]))(var119) /* to_s on <var119:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var122); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } if (unlikely(var_ret == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2270); show_backtrace(1); } { var123 = ((val* (*)(val*, val*, val*))(var_v->class->vft[COLOR_abstract_compiler__AbstractCompilerVisitor__box_extern]))(var_v, var_res, var_ret) /* box_extern on <var_v:AbstractCompilerVisitor>*/; } var_res = var123; { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var_res); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } } var124 = 1; var = var124; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#AMethPropdef#compile_externmeth_to_c for (self: Object, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]): Bool */ short int VIRTUAL_abstract_compiler__AMethPropdef__compile_externmeth_to_c(val* self, val* p0, val* p1, val* p2) { short int var /* : Bool */; short int var1 /* : Bool */; var1 = abstract_compiler__AMethPropdef__compile_externmeth_to_c(self, p0, p1, p2); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AMethPropdef#compile_externinit_to_c for (self: AMethPropdef, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]): Bool */ short int abstract_compiler__AMethPropdef__compile_externinit_to_c(val* self, val* p0, val* p1, val* p2) { short int var /* : Bool */; val* var_v /* var v: AbstractCompilerVisitor */; val* var_mpropdef /* var mpropdef: MMethodDef */; val* var_arguments /* var arguments: Array[RuntimeVariable] */; static val* varonce; val* var1 /* : String */; char* var2 /* : NativeString */; long var3 /* : Int */; val* var4 /* : FlatString */; val* var5 /* : AbstractCompiler */; val* var7 /* : AbstractCompiler */; val* var8 /* : ModelBuilder */; val* var10 /* : ModelBuilder */; val* var11 /* : nullable AAnnotation */; val* var_at /* var at: nullable AAnnotation */; val* var12 /* : null */; short int var13 /* : Bool */; short int var14 /* : Bool */; val* var_other /* var other: nullable Object */; short int var16 /* : Bool */; short int var17 /* : Bool */; short int var18 /* : Bool */; val* var19 /* : AbstractCompiler */; val* var21 /* : AbstractCompiler */; val* var22 /* : ModelBuilder */; val* var24 /* : ModelBuilder */; val* var25 /* : nullable String */; val* var_externname /* var externname: nullable Object */; val* var26 /* : null */; short int var27 /* : Bool */; short int var28 /* : Bool */; short int var29 /* : Bool */; short int var30 /* : Bool */; val* var31 /* : Location */; val* var33 /* : Location */; val* var34 /* : nullable SourceFile */; val* var36 /* : nullable SourceFile */; val* var37 /* : null */; short int var38 /* : Bool */; short int var39 /* : Bool */; short int var41 /* : Bool */; short int var42 /* : Bool */; short int var43 /* : Bool */; val* var44 /* : Location */; val* var46 /* : Location */; val* var47 /* : nullable SourceFile */; val* var49 /* : nullable SourceFile */; val* var50 /* : String */; val* var52 /* : String */; val* var_file /* var file: String */; val* var53 /* : nullable Object */; val* var54 /* : MType */; val* var56 /* : MType */; val* var_ret /* var ret: MType */; val* var57 /* : RuntimeVariable */; val* var_res /* var res: RuntimeVariable */; val* var58 /* : nullable Object */; static val* varonce59; val* var60 /* : String */; char* var61 /* : NativeString */; long var62 /* : Int */; val* var63 /* : FlatString */; static val* varonce64; val* var65 /* : String */; char* var66 /* : NativeString */; long var67 /* : Int */; val* var68 /* : FlatString */; static val* varonce69; val* var70 /* : String */; char* var71 /* : NativeString */; long var72 /* : Int */; val* var73 /* : FlatString */; val* var74 /* : String */; static val* varonce75; val* var76 /* : String */; char* var77 /* : NativeString */; long var78 /* : Int */; val* var79 /* : FlatString */; val* var80 /* : Array[Object] */; long var81 /* : Int */; val* var82 /* : NativeArray[Object] */; val* var83 /* : String */; val* var84 /* : RuntimeVariable */; short int var85 /* : Bool */; var_v = p0; var_mpropdef = p1; var_arguments = p2; if (varonce) { var1 = varonce; } else { var2 = "extern"; var3 = 6; var4 = string__NativeString__to_s_with_length(var2, var3); var1 = var4; varonce = var1; } { { /* Inline abstract_compiler#AbstractCompilerVisitor#compiler (var_v) on <var_v:AbstractCompilerVisitor> */ var7 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___compiler].val; /* _compiler on <var_v:AbstractCompilerVisitor> */ if (unlikely(var7 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _compiler"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1041); show_backtrace(1); } var5 = var7; RET_LABEL6:(void)0; } } { { /* Inline abstract_compiler#AbstractCompiler#modelbuilder (var5) on <var5:AbstractCompiler> */ var10 = var5->attrs[COLOR_abstract_compiler__AbstractCompiler___modelbuilder].val; /* _modelbuilder on <var5:AbstractCompiler> */ if (unlikely(var10 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _modelbuilder"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 470); show_backtrace(1); } var8 = var10; RET_LABEL9:(void)0; } } { var11 = annotation__Prod__get_single_annotation(self, var1, var8); } var_at = var11; var12 = NULL; if (var_at == NULL) { var13 = 0; /* is null */ } else { var13 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_at,var12) on <var_at:nullable AAnnotation> */ var_other = var12; { var17 = ((short int (*)(val*, val*))(var_at->class->vft[COLOR_kernel__Object___61d_61d]))(var_at, var_other) /* == on <var_at:nullable AAnnotation(AAnnotation)>*/; var16 = var17; } var18 = !var16; var14 = var18; goto RET_LABEL15; RET_LABEL15:(void)0; } var13 = var14; } if (var13){ { { /* Inline abstract_compiler#AbstractCompilerVisitor#compiler (var_v) on <var_v:AbstractCompilerVisitor> */ var21 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___compiler].val; /* _compiler on <var_v:AbstractCompilerVisitor> */ if (unlikely(var21 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _compiler"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1041); show_backtrace(1); } var19 = var21; RET_LABEL20:(void)0; } } { { /* Inline abstract_compiler#AbstractCompiler#modelbuilder (var19) on <var19:AbstractCompiler> */ var24 = var19->attrs[COLOR_abstract_compiler__AbstractCompiler___modelbuilder].val; /* _modelbuilder on <var19:AbstractCompiler> */ if (unlikely(var24 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _modelbuilder"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 470); show_backtrace(1); } var22 = var24; RET_LABEL23:(void)0; } } { var25 = annotation__AAnnotation__arg_as_string(var_at, var22); } var_externname = var25; var26 = NULL; if (var_externname == NULL) { var27 = 1; /* is null */ } else { var27 = 0; /* arg is null but recv is not */ } if (0) { var28 = string__FlatString___61d_61d(var_externname, var26); var27 = var28; } if (var27){ var29 = 0; var = var29; goto RET_LABEL; } else { } } else { var30 = 0; var = var30; goto RET_LABEL; } { { /* Inline parser_nodes#ANode#location (self) on <self:AMethPropdef> */ var33 = self->attrs[COLOR_parser_nodes__ANode___location].val; /* _location on <self:AMethPropdef> */ if (unlikely(var33 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _location"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 23); show_backtrace(1); } var31 = var33; RET_LABEL32:(void)0; } } { { /* Inline location#Location#file (var31) on <var31:Location> */ var36 = var31->attrs[COLOR_location__Location___file].val; /* _file on <var31:Location> */ var34 = var36; RET_LABEL35:(void)0; } } var37 = NULL; if (var34 == NULL) { var38 = 0; /* is null */ } else { var38 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var34,var37) on <var34:nullable SourceFile> */ var_other = var37; { var42 = ((short int (*)(val*, val*))(var34->class->vft[COLOR_kernel__Object___61d_61d]))(var34, var_other) /* == on <var34:nullable SourceFile(SourceFile)>*/; var41 = var42; } var43 = !var41; var39 = var43; goto RET_LABEL40; RET_LABEL40:(void)0; } var38 = var39; } if (var38){ { { /* Inline parser_nodes#ANode#location (self) on <self:AMethPropdef> */ var46 = self->attrs[COLOR_parser_nodes__ANode___location].val; /* _location on <self:AMethPropdef> */ if (unlikely(var46 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _location"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 23); show_backtrace(1); } var44 = var46; RET_LABEL45:(void)0; } } { { /* Inline location#Location#file (var44) on <var44:Location> */ var49 = var44->attrs[COLOR_location__Location___file].val; /* _file on <var44:Location> */ var47 = var49; RET_LABEL48:(void)0; } } if (var47 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2289); show_backtrace(1); } else { { /* Inline location#SourceFile#filename (var47) on <var47:nullable SourceFile> */ if (unlikely(var47 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "location.nit", 22); show_backtrace(1); } var52 = var47->attrs[COLOR_location__SourceFile___filename].val; /* _filename on <var47:nullable SourceFile> */ if (unlikely(var52 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _filename"); PRINT_ERROR(" (%s:%d)\n", "location.nit", 22); show_backtrace(1); } var50 = var52; RET_LABEL51:(void)0; } } var_file = var50; { abstract_compiler__AbstractCompilerVisitor__add_extern(var_v, var_file); /* Direct call abstract_compiler#AbstractCompilerVisitor#add_extern on <var_v:AbstractCompilerVisitor>*/ } } else { } { separate_compiler__SeparateCompilerVisitor__adapt_signature(var_v, var_mpropdef, var_arguments); /* Direct call separate_compiler#SeparateCompilerVisitor#adapt_signature on <var_v:AbstractCompilerVisitor>*/ } { separate_compiler__SeparateCompilerVisitor__unbox_signature_extern(var_v, var_mpropdef, var_arguments); /* Direct call separate_compiler#SeparateCompilerVisitor#unbox_signature_extern on <var_v:AbstractCompilerVisitor>*/ } { var53 = abstract_collection__SequenceRead__first(var_arguments); } { { /* Inline abstract_compiler#RuntimeVariable#mtype (var53) on <var53:nullable Object(RuntimeVariable)> */ var56 = var53->attrs[COLOR_abstract_compiler__RuntimeVariable___mtype].val; /* _mtype on <var53:nullable Object(RuntimeVariable)> */ if (unlikely(var56 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mtype"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1634); show_backtrace(1); } var54 = var56; RET_LABEL55:(void)0; } } var_ret = var54; { var57 = abstract_compiler__AbstractCompilerVisitor__new_var_extern(var_v, var_ret); } var_res = var57; { var58 = array__AbstractArray__shift(var_arguments); } if (varonce59) { var60 = varonce59; } else { var61 = " = "; var62 = 3; var63 = string__NativeString__to_s_with_length(var61, var62); var60 = var63; varonce59 = var60; } if (varonce64) { var65 = varonce64; } else { var66 = "("; var67 = 1; var68 = string__NativeString__to_s_with_length(var66, var67); var65 = var68; varonce64 = var65; } if (varonce69) { var70 = varonce69; } else { var71 = ", "; var72 = 2; var73 = string__NativeString__to_s_with_length(var71, var72); var70 = var73; varonce69 = var70; } { var74 = string__Collection__join(var_arguments, var70); } if (varonce75) { var76 = varonce75; } else { var77 = ");"; var78 = 2; var79 = string__NativeString__to_s_with_length(var77, var78); var76 = var79; varonce75 = var76; } var80 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var80 = array_instance Array[Object] */ var81 = 6; var82 = NEW_array__NativeArray(var81, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var82)->values[0] = (val*) var_res; ((struct instance_array__NativeArray*)var82)->values[1] = (val*) var60; ((struct instance_array__NativeArray*)var82)->values[2] = (val*) var_externname; ((struct instance_array__NativeArray*)var82)->values[3] = (val*) var65; ((struct instance_array__NativeArray*)var82)->values[4] = (val*) var74; ((struct instance_array__NativeArray*)var82)->values[5] = (val*) var76; { ((void (*)(val*, val*, long))(var80->class->vft[COLOR_array__Array__with_native]))(var80, var82, var81) /* with_native on <var80:Array[Object]>*/; } } { var83 = ((val* (*)(val*))(var80->class->vft[COLOR_string__Object__to_s]))(var80) /* to_s on <var80:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var83); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { var84 = ((val* (*)(val*, val*, val*))(var_v->class->vft[COLOR_abstract_compiler__AbstractCompilerVisitor__box_extern]))(var_v, var_res, var_ret) /* box_extern on <var_v:AbstractCompilerVisitor>*/; } var_res = var84; { abstract_compiler__AbstractCompilerVisitor__ret(var_v, var_res); /* Direct call abstract_compiler#AbstractCompilerVisitor#ret on <var_v:AbstractCompilerVisitor>*/ } var85 = 1; var = var85; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#AMethPropdef#compile_externinit_to_c for (self: Object, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]): Bool */ short int VIRTUAL_abstract_compiler__AMethPropdef__compile_externinit_to_c(val* self, val* p0, val* p1, val* p2) { short int var /* : Bool */; short int var1 /* : Bool */; var1 = abstract_compiler__AMethPropdef__compile_externinit_to_c(self, p0, p1, p2); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AAttrPropdef#compile_to_c for (self: AAttrPropdef, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]) */ void abstract_compiler__AAttrPropdef__compile_to_c(val* self, val* p0, val* p1, val* p2) { val* var_v /* var v: AbstractCompilerVisitor */; val* var_mpropdef /* var mpropdef: MMethodDef */; val* var_arguments /* var arguments: Array[RuntimeVariable] */; val* var /* : nullable MMethodDef */; val* var2 /* : nullable MMethodDef */; short int var3 /* : Bool */; short int var4 /* : Bool */; val* var_other /* var other: nullable Object */; short int var6 /* : Bool */; short int var8 /* : Bool */; long var9 /* : Int */; long var11 /* : Int */; long var12 /* : Int */; short int var13 /* : Bool */; short int var14 /* : Bool */; short int var16 /* : Bool */; val* var17 /* : nullable Object */; val* var_recv /* var recv: RuntimeVariable */; short int var18 /* : Bool */; short int var20 /* : Bool */; val* var21 /* : nullable MPropDef */; val* var23 /* : nullable MPropDef */; val* var24 /* : nullable MType */; val* var26 /* : nullable MType */; val* var_ret /* var ret: nullable MType */; short int var27 /* : Bool */; val* var28 /* : String */; static val* varonce; val* var29 /* : String */; char* var30 /* : NativeString */; long var31 /* : Int */; val* var32 /* : FlatString */; short int var33 /* : Bool */; short int var34 /* : Bool */; short int var_ /* var : Bool */; short int var35 /* : Bool */; int cltype; int idtype; short int var36 /* : Bool */; short int var_useiset /* var useiset: Bool */; val* var37 /* : nullable MAttributeDef */; val* var39 /* : nullable MAttributeDef */; val* var40 /* : MProperty */; val* var42 /* : MProperty */; val* var_guard /* var guard: MAttribute */; val* var43 /* : nullable MPropDef */; val* var45 /* : nullable MPropDef */; val* var46 /* : MProperty */; val* var48 /* : MProperty */; val* var49 /* : RuntimeVariable */; val* var_set /* var set: nullable Object */; val* var50 /* : RuntimeVariable */; static val* varonce51; val* var52 /* : String */; char* var53 /* : NativeString */; long var54 /* : Int */; val* var55 /* : FlatString */; static val* varonce56; val* var57 /* : String */; char* var58 /* : NativeString */; long var59 /* : Int */; val* var60 /* : FlatString */; val* var61 /* : Array[Object] */; long var62 /* : Int */; val* var63 /* : NativeArray[Object] */; val* var64 /* : String */; val* var65 /* : nullable MPropDef */; val* var67 /* : nullable MPropDef */; val* var68 /* : MProperty */; val* var70 /* : MProperty */; val* var71 /* : RuntimeVariable */; val* var_res /* var res: nullable Object */; static val* varonce72; val* var73 /* : String */; char* var74 /* : NativeString */; long var75 /* : Int */; val* var76 /* : FlatString */; val* var77 /* : RuntimeVariable */; val* var_value /* var value: RuntimeVariable */; short int var78 /* : Bool */; static val* varonce79; val* var80 /* : String */; char* var81 /* : NativeString */; long var82 /* : Int */; val* var83 /* : FlatString */; val* var84 /* : MClassType */; val* var85 /* : RuntimeVariable */; val* var_true_v /* var true_v: RuntimeVariable */; val* var86 /* : nullable Object */; static val* varonce87; val* var88 /* : String */; char* var89 /* : NativeString */; long var90 /* : Int */; val* var91 /* : FlatString */; val* var92 /* : nullable MPropDef */; val* var94 /* : nullable MPropDef */; val* var95 /* : MProperty */; val* var97 /* : MProperty */; val* var98 /* : nullable Object */; val* var99 /* : RuntimeVariable */; val* var100 /* : nullable Frame */; val* var102 /* : nullable Frame */; val* var103 /* : nullable RuntimeVariable */; val* var105 /* : nullable RuntimeVariable */; val* var106 /* : nullable MMethodDef */; val* var108 /* : nullable MMethodDef */; short int var109 /* : Bool */; short int var110 /* : Bool */; short int var112 /* : Bool */; short int var114 /* : Bool */; long var115 /* : Int */; long var117 /* : Int */; long var118 /* : Int */; short int var119 /* : Bool */; short int var120 /* : Bool */; short int var122 /* : Bool */; val* var123 /* : nullable MPropDef */; val* var125 /* : nullable MPropDef */; val* var126 /* : MProperty */; val* var128 /* : MProperty */; val* var129 /* : nullable Object */; long var130 /* : Int */; val* var131 /* : nullable Object */; short int var132 /* : Bool */; short int var134 /* : Bool */; val* var135 /* : nullable MPropDef */; val* var137 /* : nullable MPropDef */; val* var138 /* : nullable MType */; val* var140 /* : nullable MType */; val* var_ret141 /* var ret: nullable MType */; short int var142 /* : Bool */; val* var143 /* : String */; static val* varonce144; val* var145 /* : String */; char* var146 /* : NativeString */; long var147 /* : Int */; val* var148 /* : FlatString */; short int var149 /* : Bool */; short int var150 /* : Bool */; short int var_151 /* var : Bool */; short int var152 /* : Bool */; int cltype153; int idtype154; short int var155 /* : Bool */; short int var_useiset156 /* var useiset: Bool */; short int var157 /* : Bool */; val* var158 /* : nullable MAttributeDef */; val* var160 /* : nullable MAttributeDef */; val* var161 /* : MProperty */; val* var163 /* : MProperty */; val* var164 /* : nullable Object */; static val* varonce165; val* var166 /* : String */; char* var167 /* : NativeString */; long var168 /* : Int */; val* var169 /* : FlatString */; val* var170 /* : MClassType */; val* var171 /* : RuntimeVariable */; var_v = p0; var_mpropdef = p1; var_arguments = p2; { { /* Inline modelize_property#AAttrPropdef#mreadpropdef (self) on <self:AAttrPropdef> */ var2 = self->attrs[COLOR_modelize_property__AAttrPropdef___mreadpropdef].val; /* _mreadpropdef on <self:AAttrPropdef> */ var = var2; RET_LABEL1:(void)0; } } { { /* Inline kernel#Object#== (var_mpropdef,var) on <var_mpropdef:MMethodDef> */ var_other = var; { { /* Inline kernel#Object#is_same_instance (var_mpropdef,var_other) on <var_mpropdef:MMethodDef> */ var8 = var_mpropdef == var_other; var6 = var8; goto RET_LABEL7; RET_LABEL7:(void)0; } } var4 = var6; goto RET_LABEL5; RET_LABEL5:(void)0; } var3 = var4; } if (var3){ { { /* Inline array#AbstractArrayRead#length (var_arguments) on <var_arguments:Array[RuntimeVariable]> */ var11 = var_arguments->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <var_arguments:Array[RuntimeVariable]> */ var9 = var11; RET_LABEL10:(void)0; } } var12 = 1; { { /* Inline kernel#Int#== (var9,var12) on <var9:Int> */ var16 = var9 == var12; var14 = var16; goto RET_LABEL15; RET_LABEL15:(void)0; } var13 = var14; } if (unlikely(!var13)) { PRINT_ERROR("Runtime error: %s", "Assert failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2310); show_backtrace(1); } { var17 = abstract_collection__SequenceRead__first(var_arguments); } var_recv = var17; { { /* Inline modelize_property#AAttrPropdef#is_lazy (self) on <self:AAttrPropdef> */ var20 = self->attrs[COLOR_modelize_property__AAttrPropdef___is_lazy].s; /* _is_lazy on <self:AAttrPropdef> */ var18 = var20; RET_LABEL19:(void)0; } } if (var18){ { { /* Inline modelize_property#APropdef#mpropdef (self) on <self:AAttrPropdef> */ var23 = self->attrs[COLOR_modelize_property__APropdef___mpropdef].val; /* _mpropdef on <self:AAttrPropdef> */ var21 = var23; RET_LABEL22:(void)0; } } if (var21 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2315); show_backtrace(1); } else { { /* Inline model#MAttributeDef#static_mtype (var21) on <var21:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var21 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 2006); show_backtrace(1); } var26 = var21->attrs[COLOR_model__MAttributeDef___static_mtype].val; /* _static_mtype on <var21:nullable MPropDef(nullable MAttributeDef)> */ var24 = var26; RET_LABEL25:(void)0; } } var_ret = var24; if (var_ret == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2316); show_backtrace(1); } else { var28 = ((val* (*)(val*))(var_ret->class->vft[COLOR_abstract_compiler__MType__ctype]))(var_ret) /* ctype on <var_ret:nullable MType>*/; } if (varonce) { var29 = varonce; } else { var30 = "val*"; var31 = 4; var32 = string__NativeString__to_s_with_length(var30, var31); var29 = var32; varonce = var29; } { var34 = string__FlatString___61d_61d(var28, var29); var33 = var34; } var_ = var33; if (var33){ /* <var_ret:nullable MType> isa MNullableType */ cltype = type_model__MNullableType.color; idtype = type_model__MNullableType.id; if(var_ret == NULL) { var35 = 0; } else { if(cltype >= var_ret->type->table_size) { var35 = 0; } else { var35 = var_ret->type->type_table[cltype] == idtype; } } var36 = !var35; var27 = var36; } else { var27 = var_; } var_useiset = var27; { { /* Inline modelize_property#AAttrPropdef#mlazypropdef (self) on <self:AAttrPropdef> */ var39 = self->attrs[COLOR_modelize_property__AAttrPropdef___mlazypropdef].val; /* _mlazypropdef on <self:AAttrPropdef> */ var37 = var39; RET_LABEL38:(void)0; } } if (var37 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2317); show_backtrace(1); } else { { /* Inline model#MPropDef#mproperty (var37) on <var37:nullable MAttributeDef> */ if (unlikely(var37 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var42 = var37->attrs[COLOR_model__MPropDef___mproperty].val; /* _mproperty on <var37:nullable MAttributeDef> */ if (unlikely(var42 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mproperty"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var40 = var42; RET_LABEL41:(void)0; } } var_guard = var40; if (var_useiset){ { { /* Inline modelize_property#APropdef#mpropdef (self) on <self:AAttrPropdef> */ var45 = self->attrs[COLOR_modelize_property__APropdef___mpropdef].val; /* _mpropdef on <self:AAttrPropdef> */ var43 = var45; RET_LABEL44:(void)0; } } if (var43 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2319); show_backtrace(1); } else { { /* Inline model#MPropDef#mproperty (var43) on <var43:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var43 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var48 = var43->attrs[COLOR_model__MPropDef___mproperty].val; /* _mproperty on <var43:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var48 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mproperty"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var46 = var48; RET_LABEL47:(void)0; } } { var49 = separate_compiler__SeparateCompilerVisitor__isset_attribute(var_v, var46, var_recv); } var_set = var49; } else { { var50 = separate_compiler__SeparateCompilerVisitor__read_attribute(var_v, var_guard, var_recv); } var_set = var50; } if (varonce51) { var52 = varonce51; } else { var53 = "if(likely("; var54 = 10; var55 = string__NativeString__to_s_with_length(var53, var54); var52 = var55; varonce51 = var52; } if (varonce56) { var57 = varonce56; } else { var58 = ")) {"; var59 = 4; var60 = string__NativeString__to_s_with_length(var58, var59); var57 = var60; varonce56 = var57; } var61 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var61 = array_instance Array[Object] */ var62 = 3; var63 = NEW_array__NativeArray(var62, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var63)->values[0] = (val*) var52; ((struct instance_array__NativeArray*)var63)->values[1] = (val*) var_set; ((struct instance_array__NativeArray*)var63)->values[2] = (val*) var57; { ((void (*)(val*, val*, long))(var61->class->vft[COLOR_array__Array__with_native]))(var61, var63, var62) /* with_native on <var61:Array[Object]>*/; } } { var64 = ((val* (*)(val*))(var61->class->vft[COLOR_string__Object__to_s]))(var61) /* to_s on <var61:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var64); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline modelize_property#APropdef#mpropdef (self) on <self:AAttrPropdef> */ var67 = self->attrs[COLOR_modelize_property__APropdef___mpropdef].val; /* _mpropdef on <self:AAttrPropdef> */ var65 = var67; RET_LABEL66:(void)0; } } if (var65 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2324); show_backtrace(1); } else { { /* Inline model#MPropDef#mproperty (var65) on <var65:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var65 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var70 = var65->attrs[COLOR_model__MPropDef___mproperty].val; /* _mproperty on <var65:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var70 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mproperty"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var68 = var70; RET_LABEL69:(void)0; } } { var71 = separate_compiler__SeparateCompilerVisitor__read_attribute(var_v, var68, var_recv); } var_res = var71; if (varonce72) { var73 = varonce72; } else { var74 = "} else {"; var75 = 8; var76 = string__NativeString__to_s_with_length(var74, var75); var73 = var76; varonce72 = var73; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var73); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { var77 = abstract_compiler__AAttrPropdef__evaluate_expr(self, var_v, var_recv); } var_value = var77; { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var_res, var_value); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } var78 = !var_useiset; if (var78){ if (varonce79) { var80 = varonce79; } else { var81 = "1"; var82 = 1; var83 = string__NativeString__to_s_with_length(var81, var82); var80 = var83; varonce79 = var80; } { var84 = abstract_compiler__AbstractCompilerVisitor__bool_type(var_v); } { var85 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var80, var84); } var_true_v = var85; { var86 = abstract_collection__SequenceRead__first(var_arguments); } { separate_compiler__SeparateCompilerVisitor__write_attribute(var_v, var_guard, var86, var_true_v); /* Direct call separate_compiler#SeparateCompilerVisitor#write_attribute on <var_v:AbstractCompilerVisitor>*/ } } else { } if (varonce87) { var88 = varonce87; } else { var89 = "}"; var90 = 1; var91 = string__NativeString__to_s_with_length(var89, var90); var88 = var91; varonce87 = var88; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var88); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } } else { { { /* Inline modelize_property#APropdef#mpropdef (self) on <self:AAttrPropdef> */ var94 = self->attrs[COLOR_modelize_property__APropdef___mpropdef].val; /* _mpropdef on <self:AAttrPropdef> */ var92 = var94; RET_LABEL93:(void)0; } } if (var92 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2336); show_backtrace(1); } else { { /* Inline model#MPropDef#mproperty (var92) on <var92:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var92 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var97 = var92->attrs[COLOR_model__MPropDef___mproperty].val; /* _mproperty on <var92:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var97 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mproperty"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var95 = var97; RET_LABEL96:(void)0; } } { var98 = abstract_collection__SequenceRead__first(var_arguments); } { var99 = separate_compiler__SeparateCompilerVisitor__read_attribute(var_v, var95, var98); } var_res = var99; } { { /* Inline abstract_compiler#AbstractCompilerVisitor#frame (var_v) on <var_v:AbstractCompilerVisitor> */ var102 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___frame].val; /* _frame on <var_v:AbstractCompilerVisitor> */ var100 = var102; RET_LABEL101:(void)0; } } if (var100 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2338); show_backtrace(1); } else { { /* Inline abstract_compiler#Frame#returnvar (var100) on <var100:nullable Frame> */ if (unlikely(var100 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1691); show_backtrace(1); } var105 = var100->attrs[COLOR_abstract_compiler__Frame___returnvar].val; /* _returnvar on <var100:nullable Frame> */ var103 = var105; RET_LABEL104:(void)0; } } if (unlikely(var103 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2338); show_backtrace(1); } { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var103, var_res); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } } else { { { /* Inline modelize_property#AAttrPropdef#mwritepropdef (self) on <self:AAttrPropdef> */ var108 = self->attrs[COLOR_modelize_property__AAttrPropdef___mwritepropdef].val; /* _mwritepropdef on <self:AAttrPropdef> */ var106 = var108; RET_LABEL107:(void)0; } } { { /* Inline kernel#Object#== (var_mpropdef,var106) on <var_mpropdef:MMethodDef> */ var_other = var106; { { /* Inline kernel#Object#is_same_instance (var_mpropdef,var_other) on <var_mpropdef:MMethodDef> */ var114 = var_mpropdef == var_other; var112 = var114; goto RET_LABEL113; RET_LABEL113:(void)0; } } var110 = var112; goto RET_LABEL111; RET_LABEL111:(void)0; } var109 = var110; } if (var109){ { { /* Inline array#AbstractArrayRead#length (var_arguments) on <var_arguments:Array[RuntimeVariable]> */ var117 = var_arguments->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <var_arguments:Array[RuntimeVariable]> */ var115 = var117; RET_LABEL116:(void)0; } } var118 = 2; { { /* Inline kernel#Int#== (var115,var118) on <var115:Int> */ var122 = var115 == var118; var120 = var122; goto RET_LABEL121; RET_LABEL121:(void)0; } var119 = var120; } if (unlikely(!var119)) { PRINT_ERROR("Runtime error: %s", "Assert failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2340); show_backtrace(1); } { { /* Inline modelize_property#APropdef#mpropdef (self) on <self:AAttrPropdef> */ var125 = self->attrs[COLOR_modelize_property__APropdef___mpropdef].val; /* _mpropdef on <self:AAttrPropdef> */ var123 = var125; RET_LABEL124:(void)0; } } if (var123 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2341); show_backtrace(1); } else { { /* Inline model#MPropDef#mproperty (var123) on <var123:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var123 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var128 = var123->attrs[COLOR_model__MPropDef___mproperty].val; /* _mproperty on <var123:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var128 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mproperty"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var126 = var128; RET_LABEL127:(void)0; } } { var129 = abstract_collection__SequenceRead__first(var_arguments); } var130 = 1; { var131 = array__Array___91d_93d(var_arguments, var130); } { separate_compiler__SeparateCompilerVisitor__write_attribute(var_v, var126, var129, var131); /* Direct call separate_compiler#SeparateCompilerVisitor#write_attribute on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline modelize_property#AAttrPropdef#is_lazy (self) on <self:AAttrPropdef> */ var134 = self->attrs[COLOR_modelize_property__AAttrPropdef___is_lazy].s; /* _is_lazy on <self:AAttrPropdef> */ var132 = var134; RET_LABEL133:(void)0; } } if (var132){ { { /* Inline modelize_property#APropdef#mpropdef (self) on <self:AAttrPropdef> */ var137 = self->attrs[COLOR_modelize_property__APropdef___mpropdef].val; /* _mpropdef on <self:AAttrPropdef> */ var135 = var137; RET_LABEL136:(void)0; } } if (var135 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2343); show_backtrace(1); } else { { /* Inline model#MAttributeDef#static_mtype (var135) on <var135:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var135 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 2006); show_backtrace(1); } var140 = var135->attrs[COLOR_model__MAttributeDef___static_mtype].val; /* _static_mtype on <var135:nullable MPropDef(nullable MAttributeDef)> */ var138 = var140; RET_LABEL139:(void)0; } } var_ret141 = var138; if (var_ret141 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2344); show_backtrace(1); } else { var143 = ((val* (*)(val*))(var_ret141->class->vft[COLOR_abstract_compiler__MType__ctype]))(var_ret141) /* ctype on <var_ret141:nullable MType>*/; } if (varonce144) { var145 = varonce144; } else { var146 = "val*"; var147 = 4; var148 = string__NativeString__to_s_with_length(var146, var147); var145 = var148; varonce144 = var145; } { var150 = string__FlatString___61d_61d(var143, var145); var149 = var150; } var_151 = var149; if (var149){ /* <var_ret141:nullable MType> isa MNullableType */ cltype153 = type_model__MNullableType.color; idtype154 = type_model__MNullableType.id; if(var_ret141 == NULL) { var152 = 0; } else { if(cltype153 >= var_ret141->type->table_size) { var152 = 0; } else { var152 = var_ret141->type->type_table[cltype153] == idtype154; } } var155 = !var152; var142 = var155; } else { var142 = var_151; } var_useiset156 = var142; var157 = !var_useiset156; if (var157){ { { /* Inline modelize_property#AAttrPropdef#mlazypropdef (self) on <self:AAttrPropdef> */ var160 = self->attrs[COLOR_modelize_property__AAttrPropdef___mlazypropdef].val; /* _mlazypropdef on <self:AAttrPropdef> */ var158 = var160; RET_LABEL159:(void)0; } } if (var158 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2346); show_backtrace(1); } else { { /* Inline model#MPropDef#mproperty (var158) on <var158:nullable MAttributeDef> */ if (unlikely(var158 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var163 = var158->attrs[COLOR_model__MPropDef___mproperty].val; /* _mproperty on <var158:nullable MAttributeDef> */ if (unlikely(var163 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mproperty"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var161 = var163; RET_LABEL162:(void)0; } } { var164 = abstract_collection__SequenceRead__first(var_arguments); } if (varonce165) { var166 = varonce165; } else { var167 = "1"; var168 = 1; var169 = string__NativeString__to_s_with_length(var167, var168); var166 = var169; varonce165 = var166; } { var170 = abstract_compiler__AbstractCompilerVisitor__bool_type(var_v); } { var171 = abstract_compiler__AbstractCompilerVisitor__new_expr(var_v, var166, var170); } { separate_compiler__SeparateCompilerVisitor__write_attribute(var_v, var161, var164, var171); /* Direct call separate_compiler#SeparateCompilerVisitor#write_attribute on <var_v:AbstractCompilerVisitor>*/ } } else { } } else { } } else { PRINT_ERROR("Runtime error: %s", "Aborted"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2350); show_backtrace(1); } } RET_LABEL:; } /* method abstract_compiler#AAttrPropdef#compile_to_c for (self: Object, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]) */ void VIRTUAL_abstract_compiler__AAttrPropdef__compile_to_c(val* self, val* p0, val* p1, val* p2) { abstract_compiler__AAttrPropdef__compile_to_c(self, p0, p1, p2); /* Direct call abstract_compiler#AAttrPropdef#compile_to_c on <self:Object(AAttrPropdef)>*/ RET_LABEL:; } /* method abstract_compiler#AAttrPropdef#init_expr for (self: AAttrPropdef, AbstractCompilerVisitor, RuntimeVariable) */ void abstract_compiler__AAttrPropdef__init_expr(val* self, val* p0, val* p1) { val* var_v /* var v: AbstractCompilerVisitor */; val* var_recv /* var recv: RuntimeVariable */; short int var /* : Bool */; short int var1 /* : Bool */; short int var3 /* : Bool */; short int var_ /* var : Bool */; short int var4 /* : Bool */; short int var6 /* : Bool */; short int var7 /* : Bool */; val* var8 /* : RuntimeVariable */; var_v = p0; var_recv = p1; { { /* Inline modelize_property#AAttrPropdef#has_value (self) on <self:AAttrPropdef> */ var3 = self->attrs[COLOR_modelize_property__AAttrPropdef___has_value].s; /* _has_value on <self:AAttrPropdef> */ var1 = var3; RET_LABEL2:(void)0; } } var_ = var1; if (var1){ { { /* Inline modelize_property#AAttrPropdef#is_lazy (self) on <self:AAttrPropdef> */ var6 = self->attrs[COLOR_modelize_property__AAttrPropdef___is_lazy].s; /* _is_lazy on <self:AAttrPropdef> */ var4 = var6; RET_LABEL5:(void)0; } } var7 = !var4; var = var7; } else { var = var_; } if (var){ { var8 = abstract_compiler__AAttrPropdef__evaluate_expr(self, var_v, var_recv); } } else { } RET_LABEL:; } /* method abstract_compiler#AAttrPropdef#init_expr for (self: Object, AbstractCompilerVisitor, RuntimeVariable) */ void VIRTUAL_abstract_compiler__AAttrPropdef__init_expr(val* self, val* p0, val* p1) { abstract_compiler__AAttrPropdef__init_expr(self, p0, p1); /* Direct call abstract_compiler#AAttrPropdef#init_expr on <self:Object(AAttrPropdef)>*/ RET_LABEL:; } /* method abstract_compiler#AAttrPropdef#evaluate_expr for (self: AAttrPropdef, AbstractCompilerVisitor, RuntimeVariable): RuntimeVariable */ val* abstract_compiler__AAttrPropdef__evaluate_expr(val* self, val* p0, val* p1) { val* var /* : RuntimeVariable */; val* var_v /* var v: AbstractCompilerVisitor */; val* var_recv /* var recv: RuntimeVariable */; val* var1 /* : nullable ANode */; val* var3 /* : nullable ANode */; val* var_oldnode /* var oldnode: nullable ANode */; val* var5 /* : nullable Frame */; val* var7 /* : nullable Frame */; val* var_old_frame /* var old_frame: nullable Frame */; val* var8 /* : Frame */; val* var9 /* : nullable MPropDef */; val* var11 /* : nullable MPropDef */; val* var12 /* : MType */; val* var14 /* : MType */; short int var15 /* : Bool */; int cltype; int idtype; const char* var_class_name; val* var16 /* : Array[RuntimeVariable] */; long var17 /* : Int */; val* var_ /* var : Array[RuntimeVariable] */; val* var_frame /* var frame: Frame */; val* var19 /* : nullable MPropDef */; val* var21 /* : nullable MPropDef */; val* var22 /* : nullable MType */; val* var24 /* : nullable MType */; val* var_mtype /* var mtype: nullable MType */; val* var25 /* : null */; short int var26 /* : Bool */; short int var27 /* : Bool */; val* var_other /* var other: nullable Object */; short int var29 /* : Bool */; short int var30 /* : Bool */; short int var31 /* : Bool */; val* var32 /* : nullable AExpr */; val* var34 /* : nullable AExpr */; val* var_nexpr /* var nexpr: nullable AExpr */; val* var35 /* : nullable AExpr */; val* var37 /* : nullable AExpr */; val* var_nblock /* var nblock: nullable AExpr */; val* var38 /* : null */; short int var39 /* : Bool */; short int var40 /* : Bool */; short int var42 /* : Bool */; short int var43 /* : Bool */; short int var44 /* : Bool */; val* var45 /* : RuntimeVariable */; val* var_value /* var value: nullable Object */; val* var46 /* : null */; short int var47 /* : Bool */; short int var48 /* : Bool */; short int var50 /* : Bool */; short int var51 /* : Bool */; short int var52 /* : Bool */; val* var53 /* : RuntimeVariable */; static val* varonce; val* var55 /* : String */; char* var56 /* : NativeString */; long var57 /* : Int */; val* var58 /* : FlatString */; val* var59 /* : String */; static val* varonce61; val* var62 /* : String */; char* var63 /* : NativeString */; long var64 /* : Int */; val* var65 /* : FlatString */; val* var66 /* : nullable String */; val* var68 /* : nullable String */; static val* varonce69; val* var70 /* : String */; char* var71 /* : NativeString */; long var72 /* : Int */; val* var73 /* : FlatString */; val* var74 /* : Array[Object] */; long var75 /* : Int */; val* var76 /* : NativeArray[Object] */; val* var77 /* : String */; static val* varonce78; val* var79 /* : String */; char* var80 /* : NativeString */; long var81 /* : Int */; val* var82 /* : FlatString */; val* var83 /* : nullable MPropDef */; val* var85 /* : nullable MPropDef */; val* var86 /* : MProperty */; val* var88 /* : MProperty */; var_v = p0; var_recv = p1; { { /* Inline abstract_compiler#AbstractCompilerVisitor#current_node (var_v) on <var_v:AbstractCompilerVisitor> */ var3 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___current_node].val; /* _current_node on <var_v:AbstractCompilerVisitor> */ var1 = var3; RET_LABEL2:(void)0; } } var_oldnode = var1; { { /* Inline abstract_compiler#AbstractCompilerVisitor#current_node= (var_v,self) on <var_v:AbstractCompilerVisitor> */ var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___current_node].val = self; /* _current_node on <var_v:AbstractCompilerVisitor> */ RET_LABEL4:(void)0; } } { { /* Inline abstract_compiler#AbstractCompilerVisitor#frame (var_v) on <var_v:AbstractCompilerVisitor> */ var7 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___frame].val; /* _frame on <var_v:AbstractCompilerVisitor> */ var5 = var7; RET_LABEL6:(void)0; } } var_old_frame = var5; var8 = NEW_abstract_compiler__Frame(&type_abstract_compiler__Frame); { { /* Inline modelize_property#APropdef#mpropdef (self) on <self:AAttrPropdef> */ var11 = self->attrs[COLOR_modelize_property__APropdef___mpropdef].val; /* _mpropdef on <self:AAttrPropdef> */ var9 = var11; RET_LABEL10:(void)0; } } if (unlikely(var9 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2365); show_backtrace(1); } { { /* Inline abstract_compiler#RuntimeVariable#mcasttype (var_recv) on <var_recv:RuntimeVariable> */ var14 = var_recv->attrs[COLOR_abstract_compiler__RuntimeVariable___mcasttype].val; /* _mcasttype on <var_recv:RuntimeVariable> */ if (unlikely(var14 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mcasttype"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1637); show_backtrace(1); } var12 = var14; RET_LABEL13:(void)0; } } /* <var12:MType> isa MClassType */ cltype = type_model__MClassType.color; idtype = type_model__MClassType.id; if(cltype >= var12->type->table_size) { var15 = 0; } else { var15 = var12->type->type_table[cltype] == idtype; } if (unlikely(!var15)) { var_class_name = var12 == NULL ? "null" : var12->type->name; PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "MClassType", var_class_name); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2365); show_backtrace(1); } var16 = NEW_array__Array(&type_array__Arrayabstract_compiler__RuntimeVariable); var17 = 1; { array__Array__with_capacity(var16, var17); /* Direct call array#Array#with_capacity on <var16:Array[RuntimeVariable]>*/ } var_ = var16; { array__AbstractArray__push(var_, var_recv); /* Direct call array#AbstractArray#push on <var_:Array[RuntimeVariable]>*/ } { ((void (*)(val*, val*))(var8->class->vft[COLOR_abstract_compiler__Frame__visitor_61d]))(var8, var_v) /* visitor= on <var8:Frame>*/; } { ((void (*)(val*, val*))(var8->class->vft[COLOR_abstract_compiler__Frame__mpropdef_61d]))(var8, var9) /* mpropdef= on <var8:Frame>*/; } { ((void (*)(val*, val*))(var8->class->vft[COLOR_abstract_compiler__Frame__receiver_61d]))(var8, var12) /* receiver= on <var8:Frame>*/; } { ((void (*)(val*, val*))(var8->class->vft[COLOR_abstract_compiler__Frame__arguments_61d]))(var8, var_) /* arguments= on <var8:Frame>*/; } { ((void (*)(val*))(var8->class->vft[COLOR_kernel__Object__init]))(var8) /* init on <var8:Frame>*/; } var_frame = var8; { { /* Inline abstract_compiler#AbstractCompilerVisitor#frame= (var_v,var_frame) on <var_v:AbstractCompilerVisitor> */ var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___frame].val = var_frame; /* _frame on <var_v:AbstractCompilerVisitor> */ RET_LABEL18:(void)0; } } { { /* Inline modelize_property#APropdef#mpropdef (self) on <self:AAttrPropdef> */ var21 = self->attrs[COLOR_modelize_property__APropdef___mpropdef].val; /* _mpropdef on <self:AAttrPropdef> */ var19 = var21; RET_LABEL20:(void)0; } } if (var19 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2369); show_backtrace(1); } else { { /* Inline model#MAttributeDef#static_mtype (var19) on <var19:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var19 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 2006); show_backtrace(1); } var24 = var19->attrs[COLOR_model__MAttributeDef___static_mtype].val; /* _static_mtype on <var19:nullable MPropDef(nullable MAttributeDef)> */ var22 = var24; RET_LABEL23:(void)0; } } var_mtype = var22; var25 = NULL; if (var_mtype == NULL) { var26 = 0; /* is null */ } else { var26 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_mtype,var25) on <var_mtype:nullable MType> */ var_other = var25; { var30 = ((short int (*)(val*, val*))(var_mtype->class->vft[COLOR_kernel__Object___61d_61d]))(var_mtype, var_other) /* == on <var_mtype:nullable MType(MType)>*/; var29 = var30; } var31 = !var29; var27 = var31; goto RET_LABEL28; RET_LABEL28:(void)0; } var26 = var27; } if (unlikely(!var26)) { PRINT_ERROR("Runtime error: %s", "Assert failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2370); show_backtrace(1); } { { /* Inline parser_nodes#AAttrPropdef#n_expr (self) on <self:AAttrPropdef> */ var34 = self->attrs[COLOR_parser_nodes__AAttrPropdef___n_expr].val; /* _n_expr on <self:AAttrPropdef> */ var32 = var34; RET_LABEL33:(void)0; } } var_nexpr = var32; { { /* Inline parser_nodes#AAttrPropdef#n_block (self) on <self:AAttrPropdef> */ var37 = self->attrs[COLOR_parser_nodes__AAttrPropdef___n_block].val; /* _n_block on <self:AAttrPropdef> */ var35 = var37; RET_LABEL36:(void)0; } } var_nblock = var35; var38 = NULL; if (var_nexpr == NULL) { var39 = 0; /* is null */ } else { var39 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_nexpr,var38) on <var_nexpr:nullable AExpr> */ var_other = var38; { var43 = ((short int (*)(val*, val*))(var_nexpr->class->vft[COLOR_kernel__Object___61d_61d]))(var_nexpr, var_other) /* == on <var_nexpr:nullable AExpr(AExpr)>*/; var42 = var43; } var44 = !var42; var40 = var44; goto RET_LABEL41; RET_LABEL41:(void)0; } var39 = var40; } if (var39){ { var45 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var_nexpr, var_mtype); } var_value = var45; } else { var46 = NULL; if (var_nblock == NULL) { var47 = 0; /* is null */ } else { var47 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_nblock,var46) on <var_nblock:nullable AExpr> */ var_other = var46; { var51 = ((short int (*)(val*, val*))(var_nblock->class->vft[COLOR_kernel__Object___61d_61d]))(var_nblock, var_other) /* == on <var_nblock:nullable AExpr(AExpr)>*/; var50 = var51; } var52 = !var50; var48 = var52; goto RET_LABEL49; RET_LABEL49:(void)0; } var47 = var48; } if (var47){ { var53 = abstract_compiler__AbstractCompilerVisitor__new_var(var_v, var_mtype); } var_value = var53; { { /* Inline abstract_compiler#Frame#returnvar= (var_frame,var_value) on <var_frame:Frame> */ var_frame->attrs[COLOR_abstract_compiler__Frame___returnvar].val = var_value; /* _returnvar on <var_frame:Frame> */ RET_LABEL54:(void)0; } } if (varonce) { var55 = varonce; } else { var56 = "RET_LABEL"; var57 = 9; var58 = string__NativeString__to_s_with_length(var56, var57); var55 = var58; varonce = var55; } { var59 = abstract_compiler__AbstractCompilerVisitor__get_name(var_v, var55); } { { /* Inline abstract_compiler#Frame#returnlabel= (var_frame,var59) on <var_frame:Frame> */ var_frame->attrs[COLOR_abstract_compiler__Frame___returnlabel].val = var59; /* _returnlabel on <var_frame:Frame> */ RET_LABEL60:(void)0; } } if (varonce61) { var62 = varonce61; } else { var63 = "{"; var64 = 1; var65 = string__NativeString__to_s_with_length(var63, var64); var62 = var65; varonce61 = var62; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var62); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { abstract_compiler__AbstractCompilerVisitor__stmt(var_v, var_nblock); /* Direct call abstract_compiler#AbstractCompilerVisitor#stmt on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline abstract_compiler#Frame#returnlabel (var_frame) on <var_frame:Frame> */ var68 = var_frame->attrs[COLOR_abstract_compiler__Frame___returnlabel].val; /* _returnlabel on <var_frame:Frame> */ var66 = var68; RET_LABEL67:(void)0; } } if (unlikely(var66 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2382); show_backtrace(1); } if (varonce69) { var70 = varonce69; } else { var71 = ":(void)0;"; var72 = 9; var73 = string__NativeString__to_s_with_length(var71, var72); var70 = var73; varonce69 = var70; } var74 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var74 = array_instance Array[Object] */ var75 = 2; var76 = NEW_array__NativeArray(var75, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var76)->values[0] = (val*) var66; ((struct instance_array__NativeArray*)var76)->values[1] = (val*) var70; { ((void (*)(val*, val*, long))(var74->class->vft[COLOR_array__Array__with_native]))(var74, var76, var75) /* with_native on <var74:Array[Object]>*/; } } { var77 = ((val* (*)(val*))(var74->class->vft[COLOR_string__Object__to_s]))(var74) /* to_s on <var74:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var77); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } if (varonce78) { var79 = varonce78; } else { var80 = "}"; var81 = 1; var82 = string__NativeString__to_s_with_length(var80, var81); var79 = var82; varonce78 = var79; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var79); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } } else { PRINT_ERROR("Runtime error: %s", "Aborted"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2385); show_backtrace(1); } } { { /* Inline modelize_property#APropdef#mpropdef (self) on <self:AAttrPropdef> */ var85 = self->attrs[COLOR_modelize_property__APropdef___mpropdef].val; /* _mpropdef on <self:AAttrPropdef> */ var83 = var85; RET_LABEL84:(void)0; } } if (var83 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2388); show_backtrace(1); } else { { /* Inline model#MPropDef#mproperty (var83) on <var83:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var83 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var88 = var83->attrs[COLOR_model__MPropDef___mproperty].val; /* _mproperty on <var83:nullable MPropDef(nullable MAttributeDef)> */ if (unlikely(var88 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mproperty"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var86 = var88; RET_LABEL87:(void)0; } } { separate_compiler__SeparateCompilerVisitor__write_attribute(var_v, var86, var_recv, var_value); /* Direct call separate_compiler#SeparateCompilerVisitor#write_attribute on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline abstract_compiler#AbstractCompilerVisitor#frame= (var_v,var_old_frame) on <var_v:AbstractCompilerVisitor> */ var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___frame].val = var_old_frame; /* _frame on <var_v:AbstractCompilerVisitor> */ RET_LABEL89:(void)0; } } { { /* Inline abstract_compiler#AbstractCompilerVisitor#current_node= (var_v,var_oldnode) on <var_v:AbstractCompilerVisitor> */ var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___current_node].val = var_oldnode; /* _current_node on <var_v:AbstractCompilerVisitor> */ RET_LABEL90:(void)0; } } var = var_value; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#AAttrPropdef#evaluate_expr for (self: Object, AbstractCompilerVisitor, RuntimeVariable): RuntimeVariable */ val* VIRTUAL_abstract_compiler__AAttrPropdef__evaluate_expr(val* self, val* p0, val* p1) { val* var /* : RuntimeVariable */; val* var1 /* : RuntimeVariable */; var1 = abstract_compiler__AAttrPropdef__evaluate_expr(self, p0, p1); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AClassdef#compile_to_c for (self: AClassdef, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]) */ void abstract_compiler__AClassdef__compile_to_c(val* self, val* p0, val* p1, val* p2) { val* var_v /* var v: AbstractCompilerVisitor */; val* var_mpropdef /* var mpropdef: MMethodDef */; val* var_arguments /* var arguments: Array[RuntimeVariable] */; val* var /* : nullable MMethodDef */; val* var2 /* : nullable MMethodDef */; short int var3 /* : Bool */; short int var4 /* : Bool */; val* var_other /* var other: nullable Object */; short int var6 /* : Bool */; short int var8 /* : Bool */; val* var9 /* : MProperty */; val* var11 /* : MProperty */; short int var12 /* : Bool */; short int var14 /* : Bool */; long var15 /* : Int */; long var17 /* : Int */; long var18 /* : Int */; short int var19 /* : Bool */; short int var20 /* : Bool */; short int var22 /* : Bool */; short int var23 /* : Bool */; short int var24 /* : Bool */; val* var25 /* : nullable Object */; val* var26 /* : MType */; val* var28 /* : MType */; short int var29 /* : Bool */; int cltype; int idtype; const char* var_class_name; val* var30 /* : nullable RuntimeVariable */; var_v = p0; var_mpropdef = p1; var_arguments = p2; { { /* Inline modelize_property#AClassdef#mfree_init (self) on <self:AClassdef> */ var2 = self->attrs[COLOR_modelize_property__AClassdef___mfree_init].val; /* _mfree_init on <self:AClassdef> */ var = var2; RET_LABEL1:(void)0; } } { { /* Inline kernel#Object#== (var_mpropdef,var) on <var_mpropdef:MMethodDef> */ var_other = var; { { /* Inline kernel#Object#is_same_instance (var_mpropdef,var_other) on <var_mpropdef:MMethodDef> */ var8 = var_mpropdef == var_other; var6 = var8; goto RET_LABEL7; RET_LABEL7:(void)0; } } var4 = var6; goto RET_LABEL5; RET_LABEL5:(void)0; } var3 = var4; } if (var3){ { { /* Inline model#MPropDef#mproperty (var_mpropdef) on <var_mpropdef:MMethodDef> */ var11 = var_mpropdef->attrs[COLOR_model__MPropDef___mproperty].val; /* _mproperty on <var_mpropdef:MMethodDef> */ if (unlikely(var11 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mproperty"); PRINT_ERROR(" (%s:%d)\n", "model/model.nit", 1898); show_backtrace(1); } var9 = var11; RET_LABEL10:(void)0; } } { { /* Inline model#MMethod#is_root_init (var9) on <var9:MProperty(MMethod)> */ var14 = var9->attrs[COLOR_model__MMethod___is_root_init].s; /* _is_root_init on <var9:MProperty(MMethod)> */ var12 = var14; RET_LABEL13:(void)0; } } if (unlikely(!var12)) { PRINT_ERROR("Runtime error: %s", "Assert failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2417); show_backtrace(1); } { { /* Inline array#AbstractArrayRead#length (var_arguments) on <var_arguments:Array[RuntimeVariable]> */ var17 = var_arguments->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <var_arguments:Array[RuntimeVariable]> */ var15 = var17; RET_LABEL16:(void)0; } } var18 = 1; { { /* Inline kernel#Int#== (var15,var18) on <var15:Int> */ var22 = var15 == var18; var20 = var22; goto RET_LABEL21; RET_LABEL21:(void)0; } var19 = var20; } if (unlikely(!var19)) { PRINT_ERROR("Runtime error: %s", "Assert failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2418); show_backtrace(1); } { var23 = model__MPropDef__is_intro(var_mpropdef); } var24 = !var23; if (var24){ { var25 = abstract_collection__SequenceRead__first(var_arguments); } { { /* Inline abstract_compiler#RuntimeVariable#mtype (var25) on <var25:nullable Object(RuntimeVariable)> */ var28 = var25->attrs[COLOR_abstract_compiler__RuntimeVariable___mtype].val; /* _mtype on <var25:nullable Object(RuntimeVariable)> */ if (unlikely(var28 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mtype"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1634); show_backtrace(1); } var26 = var28; RET_LABEL27:(void)0; } } /* <var26:MType> isa MClassType */ cltype = type_model__MClassType.color; idtype = type_model__MClassType.id; if(cltype >= var26->type->table_size) { var29 = 0; } else { var29 = var26->type->type_table[cltype] == idtype; } if (unlikely(!var29)) { var_class_name = var26 == NULL ? "null" : var26->type->name; PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "MClassType", var_class_name); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2420); show_backtrace(1); } { var30 = separate_compiler__SeparateCompilerVisitor__supercall(var_v, var_mpropdef, var26, var_arguments); } } else { } goto RET_LABEL; } else { PRINT_ERROR("Runtime error: %s", "Aborted"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2424); show_backtrace(1); } RET_LABEL:; } /* method abstract_compiler#AClassdef#compile_to_c for (self: Object, AbstractCompilerVisitor, MMethodDef, Array[RuntimeVariable]) */ void VIRTUAL_abstract_compiler__AClassdef__compile_to_c(val* self, val* p0, val* p1, val* p2) { abstract_compiler__AClassdef__compile_to_c(self, p0, p1, p2); /* Direct call abstract_compiler#AClassdef#compile_to_c on <self:Object(AClassdef)>*/ RET_LABEL:; } /* method abstract_compiler#AExpr#expr for (self: AExpr, AbstractCompilerVisitor): nullable RuntimeVariable */ val* abstract_compiler__AExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var_v /* var v: AbstractCompilerVisitor */; static val* varonce; val* var1 /* : String */; char* var2 /* : NativeString */; long var3 /* : Int */; val* var4 /* : FlatString */; val* var5 /* : String */; static val* varonce6; val* var7 /* : String */; char* var8 /* : NativeString */; long var9 /* : Int */; val* var10 /* : FlatString */; val* var11 /* : Location */; val* var13 /* : Location */; val* var14 /* : String */; static val* varonce15; val* var16 /* : String */; char* var17 /* : NativeString */; long var18 /* : Int */; val* var19 /* : FlatString */; val* var20 /* : Array[Object] */; long var21 /* : Int */; val* var22 /* : NativeArray[Object] */; val* var23 /* : String */; val* var24 /* : nullable MType */; val* var_mtype /* var mtype: nullable MType */; val* var25 /* : null */; short int var26 /* : Bool */; short int var27 /* : Bool */; val* var_other /* var other: nullable Object */; short int var29 /* : Bool */; short int var31 /* : Bool */; val* var32 /* : null */; val* var33 /* : RuntimeVariable */; val* var_res /* var res: RuntimeVariable */; static val* varonce34; val* var35 /* : String */; char* var36 /* : NativeString */; long var37 /* : Int */; val* var38 /* : FlatString */; static val* varonce39; val* var40 /* : String */; char* var41 /* : NativeString */; long var42 /* : Int */; val* var43 /* : FlatString */; val* var44 /* : String */; static val* varonce45; val* var46 /* : String */; char* var47 /* : NativeString */; long var48 /* : Int */; val* var49 /* : FlatString */; val* var50 /* : Array[Object] */; long var51 /* : Int */; val* var52 /* : NativeArray[Object] */; val* var53 /* : String */; var_v = p0; if (varonce) { var1 = varonce; } else { var2 = "PRINT_ERROR(\"NOT YET IMPLEMENTED "; var3 = 33; var4 = string__NativeString__to_s_with_length(var2, var3); var1 = var4; varonce = var1; } { var5 = string__Object__class_name(self); } if (varonce6) { var7 = varonce6; } else { var8 = ":"; var9 = 1; var10 = string__NativeString__to_s_with_length(var8, var9); var7 = var10; varonce6 = var7; } { { /* Inline parser_nodes#ANode#location (self) on <self:AExpr> */ var13 = self->attrs[COLOR_parser_nodes__ANode___location].val; /* _location on <self:AExpr> */ if (unlikely(var13 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _location"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 23); show_backtrace(1); } var11 = var13; RET_LABEL12:(void)0; } } { var14 = location__Location__to_s(var11); } if (varonce15) { var16 = varonce15; } else { var17 = "\\n\");"; var18 = 5; var19 = string__NativeString__to_s_with_length(var17, var18); var16 = var19; varonce15 = var16; } var20 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var20 = array_instance Array[Object] */ var21 = 5; var22 = NEW_array__NativeArray(var21, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var22)->values[0] = (val*) var1; ((struct instance_array__NativeArray*)var22)->values[1] = (val*) var5; ((struct instance_array__NativeArray*)var22)->values[2] = (val*) var7; ((struct instance_array__NativeArray*)var22)->values[3] = (val*) var14; ((struct instance_array__NativeArray*)var22)->values[4] = (val*) var16; { ((void (*)(val*, val*, long))(var20->class->vft[COLOR_array__Array__with_native]))(var20, var22, var21) /* with_native on <var20:Array[Object]>*/; } } { var23 = ((val* (*)(val*))(var20->class->vft[COLOR_string__Object__to_s]))(var20) /* to_s on <var20:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var23); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { var24 = ((val* (*)(val*))(self->class->vft[COLOR_typing__AExpr__mtype]))(self) /* mtype on <self:AExpr>*/; } var_mtype = var24; var25 = NULL; if (var_mtype == NULL) { var26 = 1; /* is null */ } else { var26 = 0; /* arg is null but recv is not */ } if (0) { { /* Inline kernel#Object#== (var_mtype,var25) on <var_mtype:nullable MType> */ var_other = var25; { { /* Inline kernel#Object#is_same_instance (var_mtype,var_other) on <var_mtype:nullable MType(MType)> */ var31 = var_mtype == var_other; var29 = var31; goto RET_LABEL30; RET_LABEL30:(void)0; } } var27 = var29; goto RET_LABEL28; RET_LABEL28:(void)0; } var26 = var27; } if (var26){ var32 = NULL; var = var32; goto RET_LABEL; } else { { var33 = abstract_compiler__AbstractCompilerVisitor__new_var(var_v, var_mtype); } var_res = var33; if (varonce34) { var35 = varonce34; } else { var36 = "/* "; var37 = 3; var38 = string__NativeString__to_s_with_length(var36, var37); var35 = var38; varonce34 = var35; } if (varonce39) { var40 = varonce39; } else { var41 = " = NOT YET "; var42 = 11; var43 = string__NativeString__to_s_with_length(var41, var42); var40 = var43; varonce39 = var40; } { var44 = string__Object__class_name(self); } if (varonce45) { var46 = varonce45; } else { var47 = " */"; var48 = 3; var49 = string__NativeString__to_s_with_length(var47, var48); var46 = var49; varonce45 = var46; } var50 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var50 = array_instance Array[Object] */ var51 = 5; var52 = NEW_array__NativeArray(var51, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var52)->values[0] = (val*) var35; ((struct instance_array__NativeArray*)var52)->values[1] = (val*) var_res; ((struct instance_array__NativeArray*)var52)->values[2] = (val*) var40; ((struct instance_array__NativeArray*)var52)->values[3] = (val*) var44; ((struct instance_array__NativeArray*)var52)->values[4] = (val*) var46; { ((void (*)(val*, val*, long))(var50->class->vft[COLOR_array__Array__with_native]))(var50, var52, var51) /* with_native on <var50:Array[Object]>*/; } } { var53 = ((val* (*)(val*))(var50->class->vft[COLOR_string__Object__to_s]))(var50) /* to_s on <var50:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var53); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var = var_res; goto RET_LABEL; } RET_LABEL:; return var; } /* method abstract_compiler#AExpr#expr for (self: Object, AbstractCompilerVisitor): nullable RuntimeVariable */ val* VIRTUAL_abstract_compiler__AExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var1 /* : nullable RuntimeVariable */; var1 = abstract_compiler__AExpr__expr(self, p0); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AExpr#stmt for (self: AExpr, AbstractCompilerVisitor) */ void abstract_compiler__AExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; val* var /* : nullable RuntimeVariable */; var_v = p0; { var = ((val* (*)(val*, val*))(self->class->vft[COLOR_abstract_compiler__AExpr__expr]))(self, var_v) /* expr on <self:AExpr>*/; } RET_LABEL:; } /* method abstract_compiler#AExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__AExpr__stmt(val* self, val* p0) { abstract_compiler__AExpr__stmt(self, p0); /* Direct call abstract_compiler#AExpr#stmt on <self:Object(AExpr)>*/ RET_LABEL:; } /* method abstract_compiler#ABlockExpr#stmt for (self: ABlockExpr, AbstractCompilerVisitor) */ void abstract_compiler__ABlockExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; val* var /* : ANodes[AExpr] */; val* var2 /* : ANodes[AExpr] */; val* var_ /* var : ANodes[AExpr] */; val* var3 /* : Iterator[ANode] */; val* var_4 /* var : Iterator[AExpr] */; short int var5 /* : Bool */; val* var6 /* : nullable Object */; val* var_e /* var e: AExpr */; var_v = p0; { { /* Inline parser_nodes#ABlockExpr#n_expr (self) on <self:ABlockExpr> */ var2 = self->attrs[COLOR_parser_nodes__ABlockExpr___n_expr].val; /* _n_expr on <self:ABlockExpr> */ if (unlikely(var2 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_expr"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1321); show_backtrace(1); } var = var2; RET_LABEL1:(void)0; } } var_ = var; { var3 = parser_nodes__ANodes__iterator(var_); } var_4 = var3; for(;;) { { var5 = ((short int (*)(val*))(var_4->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(var_4) /* is_ok on <var_4:Iterator[AExpr]>*/; } if (var5){ { var6 = ((val* (*)(val*))(var_4->class->vft[COLOR_abstract_collection__Iterator__item]))(var_4) /* item on <var_4:Iterator[AExpr]>*/; } var_e = var6; { abstract_compiler__AbstractCompilerVisitor__stmt(var_v, var_e); /* Direct call abstract_compiler#AbstractCompilerVisitor#stmt on <var_v:AbstractCompilerVisitor>*/ } { ((void (*)(val*))(var_4->class->vft[COLOR_abstract_collection__Iterator__next]))(var_4) /* next on <var_4:Iterator[AExpr]>*/; } } else { goto BREAK_label; } } BREAK_label: (void)0; { { /* Inline abstract_collection#Iterator#finish (var_4) on <var_4:Iterator[AExpr]> */ RET_LABEL7:(void)0; } } RET_LABEL:; } /* method abstract_compiler#ABlockExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__ABlockExpr__stmt(val* self, val* p0) { abstract_compiler__ABlockExpr__stmt(self, p0); /* Direct call abstract_compiler#ABlockExpr#stmt on <self:Object(ABlockExpr)>*/ RET_LABEL:; } /* method abstract_compiler#ABlockExpr#expr for (self: ABlockExpr, AbstractCompilerVisitor): nullable RuntimeVariable */ val* abstract_compiler__ABlockExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var_v /* var v: AbstractCompilerVisitor */; val* var1 /* : ANodes[AExpr] */; val* var3 /* : ANodes[AExpr] */; val* var4 /* : nullable Object */; val* var_last /* var last: AExpr */; val* var5 /* : ANodes[AExpr] */; val* var7 /* : ANodes[AExpr] */; val* var_ /* var : ANodes[AExpr] */; val* var8 /* : Iterator[ANode] */; val* var_9 /* var : Iterator[AExpr] */; short int var10 /* : Bool */; val* var11 /* : nullable Object */; val* var_e /* var e: AExpr */; short int var12 /* : Bool */; short int var13 /* : Bool */; val* var_other /* var other: nullable Object */; short int var15 /* : Bool */; short int var17 /* : Bool */; val* var19 /* : null */; val* var20 /* : RuntimeVariable */; var_v = p0; { { /* Inline parser_nodes#ABlockExpr#n_expr (self) on <self:ABlockExpr> */ var3 = self->attrs[COLOR_parser_nodes__ABlockExpr___n_expr].val; /* _n_expr on <self:ABlockExpr> */ if (unlikely(var3 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_expr"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1321); show_backtrace(1); } var1 = var3; RET_LABEL2:(void)0; } } { var4 = abstract_collection__SequenceRead__last(var1); } var_last = var4; { { /* Inline parser_nodes#ABlockExpr#n_expr (self) on <self:ABlockExpr> */ var7 = self->attrs[COLOR_parser_nodes__ABlockExpr___n_expr].val; /* _n_expr on <self:ABlockExpr> */ if (unlikely(var7 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_expr"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1321); show_backtrace(1); } var5 = var7; RET_LABEL6:(void)0; } } var_ = var5; { var8 = parser_nodes__ANodes__iterator(var_); } var_9 = var8; for(;;) { { var10 = ((short int (*)(val*))(var_9->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(var_9) /* is_ok on <var_9:Iterator[AExpr]>*/; } if (var10){ { var11 = ((val* (*)(val*))(var_9->class->vft[COLOR_abstract_collection__Iterator__item]))(var_9) /* item on <var_9:Iterator[AExpr]>*/; } var_e = var11; { { /* Inline kernel#Object#== (var_e,var_last) on <var_e:AExpr> */ var_other = var_last; { { /* Inline kernel#Object#is_same_instance (var_e,var_other) on <var_e:AExpr> */ var17 = var_e == var_other; var15 = var17; goto RET_LABEL16; RET_LABEL16:(void)0; } } var13 = var15; goto RET_LABEL14; RET_LABEL14:(void)0; } var12 = var13; } if (var12){ goto BREAK_label; } else { } { abstract_compiler__AbstractCompilerVisitor__stmt(var_v, var_e); /* Direct call abstract_compiler#AbstractCompilerVisitor#stmt on <var_v:AbstractCompilerVisitor>*/ } { ((void (*)(val*))(var_9->class->vft[COLOR_abstract_collection__Iterator__next]))(var_9) /* next on <var_9:Iterator[AExpr]>*/; } } else { goto BREAK_label; } } BREAK_label: (void)0; { { /* Inline abstract_collection#Iterator#finish (var_9) on <var_9:Iterator[AExpr]> */ RET_LABEL18:(void)0; } } var19 = NULL; { var20 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var_last, var19); } var = var20; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#ABlockExpr#expr for (self: Object, AbstractCompilerVisitor): nullable RuntimeVariable */ val* VIRTUAL_abstract_compiler__ABlockExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var1 /* : nullable RuntimeVariable */; var1 = abstract_compiler__ABlockExpr__expr(self, p0); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AVardeclExpr#stmt for (self: AVardeclExpr, AbstractCompilerVisitor) */ void abstract_compiler__AVardeclExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; val* var /* : nullable Variable */; val* var2 /* : nullable Variable */; val* var_variable /* var variable: Variable */; val* var3 /* : nullable AExpr */; val* var5 /* : nullable AExpr */; val* var_ne /* var ne: nullable AExpr */; val* var6 /* : null */; short int var7 /* : Bool */; short int var8 /* : Bool */; val* var_other /* var other: nullable Object */; short int var10 /* : Bool */; short int var11 /* : Bool */; short int var12 /* : Bool */; val* var13 /* : nullable MType */; val* var15 /* : nullable MType */; val* var16 /* : RuntimeVariable */; val* var_i /* var i: RuntimeVariable */; val* var17 /* : RuntimeVariable */; var_v = p0; { { /* Inline scope#AVardeclExpr#variable (self) on <self:AVardeclExpr> */ var2 = self->attrs[COLOR_scope__AVardeclExpr___variable].val; /* _variable on <self:AVardeclExpr> */ var = var2; RET_LABEL1:(void)0; } } if (unlikely(var == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2472); show_backtrace(1); } var_variable = var; { { /* Inline parser_nodes#AVardeclExpr#n_expr (self) on <self:AVardeclExpr> */ var5 = self->attrs[COLOR_parser_nodes__AVardeclExpr___n_expr].val; /* _n_expr on <self:AVardeclExpr> */ var3 = var5; RET_LABEL4:(void)0; } } var_ne = var3; var6 = NULL; if (var_ne == NULL) { var7 = 0; /* is null */ } else { var7 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_ne,var6) on <var_ne:nullable AExpr> */ var_other = var6; { var11 = ((short int (*)(val*, val*))(var_ne->class->vft[COLOR_kernel__Object___61d_61d]))(var_ne, var_other) /* == on <var_ne:nullable AExpr(AExpr)>*/; var10 = var11; } var12 = !var10; var8 = var12; goto RET_LABEL9; RET_LABEL9:(void)0; } var7 = var8; } if (var7){ { { /* Inline typing#Variable#declared_type (var_variable) on <var_variable:Variable> */ var15 = var_variable->attrs[COLOR_typing__Variable___declared_type].val; /* _declared_type on <var_variable:Variable> */ var13 = var15; RET_LABEL14:(void)0; } } { var16 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var_ne, var13); } var_i = var16; { var17 = abstract_compiler__AbstractCompilerVisitor__variable(var_v, var_variable); } { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var17, var_i); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } } else { } RET_LABEL:; } /* method abstract_compiler#AVardeclExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__AVardeclExpr__stmt(val* self, val* p0) { abstract_compiler__AVardeclExpr__stmt(self, p0); /* Direct call abstract_compiler#AVardeclExpr#stmt on <self:Object(AVardeclExpr)>*/ RET_LABEL:; } /* method abstract_compiler#AVarExpr#expr for (self: AVarExpr, AbstractCompilerVisitor): nullable RuntimeVariable */ val* abstract_compiler__AVarExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var_v /* var v: AbstractCompilerVisitor */; val* var1 /* : nullable Variable */; val* var3 /* : nullable Variable */; val* var4 /* : RuntimeVariable */; val* var_res /* var res: RuntimeVariable */; val* var5 /* : nullable MType */; val* var7 /* : nullable MType */; val* var_mtype /* var mtype: MType */; val* var8 /* : RuntimeVariable */; var_v = p0; { { /* Inline scope#AVarFormExpr#variable (self) on <self:AVarExpr> */ var3 = self->attrs[COLOR_scope__AVarFormExpr___variable].val; /* _variable on <self:AVarExpr> */ var1 = var3; RET_LABEL2:(void)0; } } if (unlikely(var1 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2484); show_backtrace(1); } { var4 = abstract_compiler__AbstractCompilerVisitor__variable(var_v, var1); } var_res = var4; { { /* Inline typing#AExpr#mtype (self) on <self:AVarExpr> */ var7 = self->attrs[COLOR_typing__AExpr___mtype].val; /* _mtype on <self:AVarExpr> */ var5 = var7; RET_LABEL6:(void)0; } } if (unlikely(var5 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2485); show_backtrace(1); } var_mtype = var5; { var8 = abstract_compiler__AbstractCompilerVisitor__autoadapt(var_v, var_res, var_mtype); } var = var8; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#AVarExpr#expr for (self: Object, AbstractCompilerVisitor): nullable RuntimeVariable */ val* VIRTUAL_abstract_compiler__AVarExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var1 /* : nullable RuntimeVariable */; var1 = abstract_compiler__AVarExpr__expr(self, p0); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AVarAssignExpr#expr for (self: AVarAssignExpr, AbstractCompilerVisitor): nullable RuntimeVariable */ val* abstract_compiler__AVarAssignExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var_v /* var v: AbstractCompilerVisitor */; val* var1 /* : nullable Variable */; val* var3 /* : nullable Variable */; val* var_variable /* var variable: Variable */; val* var4 /* : AExpr */; val* var6 /* : AExpr */; val* var7 /* : nullable MType */; val* var9 /* : nullable MType */; val* var10 /* : RuntimeVariable */; val* var_i /* var i: RuntimeVariable */; val* var11 /* : RuntimeVariable */; var_v = p0; { { /* Inline scope#AVarFormExpr#variable (self) on <self:AVarAssignExpr> */ var3 = self->attrs[COLOR_scope__AVarFormExpr___variable].val; /* _variable on <self:AVarAssignExpr> */ var1 = var3; RET_LABEL2:(void)0; } } if (unlikely(var1 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2493); show_backtrace(1); } var_variable = var1; { { /* Inline parser_nodes#AAssignFormExpr#n_value (self) on <self:AVarAssignExpr> */ var6 = self->attrs[COLOR_parser_nodes__AAssignFormExpr___n_value].val; /* _n_value on <self:AVarAssignExpr> */ if (unlikely(var6 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_value"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1445); show_backtrace(1); } var4 = var6; RET_LABEL5:(void)0; } } { { /* Inline typing#Variable#declared_type (var_variable) on <var_variable:Variable> */ var9 = var_variable->attrs[COLOR_typing__Variable___declared_type].val; /* _declared_type on <var_variable:Variable> */ var7 = var9; RET_LABEL8:(void)0; } } { var10 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var4, var7); } var_i = var10; { var11 = abstract_compiler__AbstractCompilerVisitor__variable(var_v, var_variable); } { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var11, var_i); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } var = var_i; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#AVarAssignExpr#expr for (self: Object, AbstractCompilerVisitor): nullable RuntimeVariable */ val* VIRTUAL_abstract_compiler__AVarAssignExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var1 /* : nullable RuntimeVariable */; var1 = abstract_compiler__AVarAssignExpr__expr(self, p0); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AVarReassignExpr#stmt for (self: AVarReassignExpr, AbstractCompilerVisitor) */ void abstract_compiler__AVarReassignExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; val* var /* : nullable Variable */; val* var2 /* : nullable Variable */; val* var_variable /* var variable: Variable */; val* var3 /* : RuntimeVariable */; val* var_vari /* var vari: RuntimeVariable */; val* var4 /* : AExpr */; val* var6 /* : AExpr */; val* var7 /* : nullable MType */; val* var9 /* : nullable MType */; val* var10 /* : RuntimeVariable */; val* var_value /* var value: RuntimeVariable */; val* var11 /* : nullable CallSite */; val* var13 /* : nullable CallSite */; val* var14 /* : Array[RuntimeVariable] */; long var15 /* : Int */; val* var_ /* var : Array[RuntimeVariable] */; val* var16 /* : nullable RuntimeVariable */; val* var_res /* var res: nullable RuntimeVariable */; val* var17 /* : null */; short int var18 /* : Bool */; short int var19 /* : Bool */; val* var_other /* var other: nullable Object */; short int var21 /* : Bool */; short int var22 /* : Bool */; short int var23 /* : Bool */; val* var24 /* : RuntimeVariable */; var_v = p0; { { /* Inline scope#AVarFormExpr#variable (self) on <self:AVarReassignExpr> */ var2 = self->attrs[COLOR_scope__AVarFormExpr___variable].val; /* _variable on <self:AVarReassignExpr> */ var = var2; RET_LABEL1:(void)0; } } if (unlikely(var == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2503); show_backtrace(1); } var_variable = var; { var3 = abstract_compiler__AbstractCompilerVisitor__variable(var_v, var_variable); } var_vari = var3; { { /* Inline parser_nodes#AReassignFormExpr#n_value (self) on <self:AVarReassignExpr> */ var6 = self->attrs[COLOR_parser_nodes__AReassignFormExpr___n_value].val; /* _n_value on <self:AVarReassignExpr> */ if (unlikely(var6 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_value"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1452); show_backtrace(1); } var4 = var6; RET_LABEL5:(void)0; } } { { /* Inline typing#Variable#declared_type (var_variable) on <var_variable:Variable> */ var9 = var_variable->attrs[COLOR_typing__Variable___declared_type].val; /* _declared_type on <var_variable:Variable> */ var7 = var9; RET_LABEL8:(void)0; } } { var10 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var4, var7); } var_value = var10; { { /* Inline typing#AReassignFormExpr#reassign_callsite (self) on <self:AVarReassignExpr> */ var13 = self->attrs[COLOR_typing__AReassignFormExpr___reassign_callsite].val; /* _reassign_callsite on <self:AVarReassignExpr> */ var11 = var13; RET_LABEL12:(void)0; } } if (unlikely(var11 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2506); show_backtrace(1); } var14 = NEW_array__Array(&type_array__Arrayabstract_compiler__RuntimeVariable); var15 = 2; { array__Array__with_capacity(var14, var15); /* Direct call array#Array#with_capacity on <var14:Array[RuntimeVariable]>*/ } var_ = var14; { array__AbstractArray__push(var_, var_vari); /* Direct call array#AbstractArray#push on <var_:Array[RuntimeVariable]>*/ } { array__AbstractArray__push(var_, var_value); /* Direct call array#AbstractArray#push on <var_:Array[RuntimeVariable]>*/ } { var16 = ((val* (*)(val*, val*, val*))(var_v->class->vft[COLOR_abstract_compiler__AbstractCompilerVisitor__compile_callsite]))(var_v, var11, var_) /* compile_callsite on <var_v:AbstractCompilerVisitor>*/; } var_res = var16; var17 = NULL; if (var_res == NULL) { var18 = 0; /* is null */ } else { var18 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_res,var17) on <var_res:nullable RuntimeVariable> */ var_other = var17; { var22 = ((short int (*)(val*, val*))(var_res->class->vft[COLOR_kernel__Object___61d_61d]))(var_res, var_other) /* == on <var_res:nullable RuntimeVariable(RuntimeVariable)>*/; var21 = var22; } var23 = !var21; var19 = var23; goto RET_LABEL20; RET_LABEL20:(void)0; } var18 = var19; } if (unlikely(!var18)) { PRINT_ERROR("Runtime error: %s", "Assert failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2507); show_backtrace(1); } { var24 = abstract_compiler__AbstractCompilerVisitor__variable(var_v, var_variable); } { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var24, var_res); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } RET_LABEL:; } /* method abstract_compiler#AVarReassignExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__AVarReassignExpr__stmt(val* self, val* p0) { abstract_compiler__AVarReassignExpr__stmt(self, p0); /* Direct call abstract_compiler#AVarReassignExpr#stmt on <self:Object(AVarReassignExpr)>*/ RET_LABEL:; } /* method abstract_compiler#ASelfExpr#expr for (self: ASelfExpr, AbstractCompilerVisitor): nullable RuntimeVariable */ val* abstract_compiler__ASelfExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var_v /* var v: AbstractCompilerVisitor */; val* var1 /* : nullable Frame */; val* var3 /* : nullable Frame */; val* var4 /* : Array[RuntimeVariable] */; val* var6 /* : Array[RuntimeVariable] */; val* var7 /* : nullable Object */; var_v = p0; { { /* Inline abstract_compiler#AbstractCompilerVisitor#frame (var_v) on <var_v:AbstractCompilerVisitor> */ var3 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___frame].val; /* _frame on <var_v:AbstractCompilerVisitor> */ var1 = var3; RET_LABEL2:(void)0; } } if (var1 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2513); show_backtrace(1); } else { { /* Inline abstract_compiler#Frame#arguments (var1) on <var1:nullable Frame> */ if (unlikely(var1 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1688); show_backtrace(1); } var6 = var1->attrs[COLOR_abstract_compiler__Frame___arguments].val; /* _arguments on <var1:nullable Frame> */ if (unlikely(var6 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _arguments"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1688); show_backtrace(1); } var4 = var6; RET_LABEL5:(void)0; } } { var7 = abstract_collection__SequenceRead__first(var4); } var = var7; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#ASelfExpr#expr for (self: Object, AbstractCompilerVisitor): nullable RuntimeVariable */ val* VIRTUAL_abstract_compiler__ASelfExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var1 /* : nullable RuntimeVariable */; var1 = abstract_compiler__ASelfExpr__expr(self, p0); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AEscapeExpr#stmt for (self: AEscapeExpr, AbstractCompilerVisitor) */ void abstract_compiler__AEscapeExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; static val* varonce; val* var /* : String */; char* var1 /* : NativeString */; long var2 /* : Int */; val* var3 /* : FlatString */; val* var4 /* : nullable EscapeMark */; val* var6 /* : nullable EscapeMark */; val* var7 /* : String */; static val* varonce8; val* var9 /* : String */; char* var10 /* : NativeString */; long var11 /* : Int */; val* var12 /* : FlatString */; val* var13 /* : Array[Object] */; long var14 /* : Int */; val* var15 /* : NativeArray[Object] */; val* var16 /* : String */; var_v = p0; if (varonce) { var = varonce; } else { var1 = "goto BREAK_"; var2 = 11; var3 = string__NativeString__to_s_with_length(var1, var2); var = var3; varonce = var; } { { /* Inline scope#AEscapeExpr#escapemark (self) on <self:AEscapeExpr> */ var6 = self->attrs[COLOR_scope__AEscapeExpr___escapemark].val; /* _escapemark on <self:AEscapeExpr> */ var4 = var6; RET_LABEL5:(void)0; } } { var7 = abstract_compiler__AbstractCompilerVisitor__escapemark_name(var_v, var4); } if (varonce8) { var9 = varonce8; } else { var10 = ";"; var11 = 1; var12 = string__NativeString__to_s_with_length(var10, var11); var9 = var12; varonce8 = var9; } var13 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var13 = array_instance Array[Object] */ var14 = 3; var15 = NEW_array__NativeArray(var14, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var15)->values[0] = (val*) var; ((struct instance_array__NativeArray*)var15)->values[1] = (val*) var7; ((struct instance_array__NativeArray*)var15)->values[2] = (val*) var9; { ((void (*)(val*, val*, long))(var13->class->vft[COLOR_array__Array__with_native]))(var13, var15, var14) /* with_native on <var13:Array[Object]>*/; } } { var16 = ((val* (*)(val*))(var13->class->vft[COLOR_string__Object__to_s]))(var13) /* to_s on <var13:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var16); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } RET_LABEL:; } /* method abstract_compiler#AEscapeExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__AEscapeExpr__stmt(val* self, val* p0) { abstract_compiler__AEscapeExpr__stmt(self, p0); /* Direct call abstract_compiler#AEscapeExpr#stmt on <self:Object(AEscapeExpr)>*/ RET_LABEL:; } /* method abstract_compiler#AReturnExpr#stmt for (self: AReturnExpr, AbstractCompilerVisitor) */ void abstract_compiler__AReturnExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; val* var /* : nullable AExpr */; val* var2 /* : nullable AExpr */; val* var_nexpr /* var nexpr: nullable AExpr */; val* var3 /* : null */; short int var4 /* : Bool */; short int var5 /* : Bool */; val* var_other /* var other: nullable Object */; short int var7 /* : Bool */; short int var8 /* : Bool */; short int var9 /* : Bool */; val* var10 /* : nullable Frame */; val* var12 /* : nullable Frame */; val* var13 /* : nullable RuntimeVariable */; val* var15 /* : nullable RuntimeVariable */; val* var_returnvar /* var returnvar: RuntimeVariable */; val* var16 /* : MType */; val* var18 /* : MType */; val* var19 /* : RuntimeVariable */; val* var_i /* var i: RuntimeVariable */; static val* varonce; val* var20 /* : String */; char* var21 /* : NativeString */; long var22 /* : Int */; val* var23 /* : FlatString */; val* var24 /* : nullable Frame */; val* var26 /* : nullable Frame */; val* var27 /* : nullable String */; val* var29 /* : nullable String */; static val* varonce30; val* var31 /* : String */; char* var32 /* : NativeString */; long var33 /* : Int */; val* var34 /* : FlatString */; val* var35 /* : Array[Object] */; long var36 /* : Int */; val* var37 /* : NativeArray[Object] */; val* var38 /* : String */; var_v = p0; { { /* Inline parser_nodes#AReturnExpr#n_expr (self) on <self:AReturnExpr> */ var2 = self->attrs[COLOR_parser_nodes__AReturnExpr___n_expr].val; /* _n_expr on <self:AReturnExpr> */ var = var2; RET_LABEL1:(void)0; } } var_nexpr = var; var3 = NULL; if (var_nexpr == NULL) { var4 = 0; /* is null */ } else { var4 = 1; /* arg is null and recv is not */ } if (0) { { /* Inline kernel#Object#!= (var_nexpr,var3) on <var_nexpr:nullable AExpr> */ var_other = var3; { var8 = ((short int (*)(val*, val*))(var_nexpr->class->vft[COLOR_kernel__Object___61d_61d]))(var_nexpr, var_other) /* == on <var_nexpr:nullable AExpr(AExpr)>*/; var7 = var8; } var9 = !var7; var5 = var9; goto RET_LABEL6; RET_LABEL6:(void)0; } var4 = var5; } if (var4){ { { /* Inline abstract_compiler#AbstractCompilerVisitor#frame (var_v) on <var_v:AbstractCompilerVisitor> */ var12 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___frame].val; /* _frame on <var_v:AbstractCompilerVisitor> */ var10 = var12; RET_LABEL11:(void)0; } } if (var10 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2525); show_backtrace(1); } else { { /* Inline abstract_compiler#Frame#returnvar (var10) on <var10:nullable Frame> */ if (unlikely(var10 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1691); show_backtrace(1); } var15 = var10->attrs[COLOR_abstract_compiler__Frame___returnvar].val; /* _returnvar on <var10:nullable Frame> */ var13 = var15; RET_LABEL14:(void)0; } } if (unlikely(var13 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2525); show_backtrace(1); } var_returnvar = var13; { { /* Inline abstract_compiler#RuntimeVariable#mtype (var_returnvar) on <var_returnvar:RuntimeVariable> */ var18 = var_returnvar->attrs[COLOR_abstract_compiler__RuntimeVariable___mtype].val; /* _mtype on <var_returnvar:RuntimeVariable> */ if (unlikely(var18 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _mtype"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1634); show_backtrace(1); } var16 = var18; RET_LABEL17:(void)0; } } { var19 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var_nexpr, var16); } var_i = var19; { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var_returnvar, var_i); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } } else { } if (varonce) { var20 = varonce; } else { var21 = "goto "; var22 = 5; var23 = string__NativeString__to_s_with_length(var21, var22); var20 = var23; varonce = var20; } { { /* Inline abstract_compiler#AbstractCompilerVisitor#frame (var_v) on <var_v:AbstractCompilerVisitor> */ var26 = var_v->attrs[COLOR_abstract_compiler__AbstractCompilerVisitor___frame].val; /* _frame on <var_v:AbstractCompilerVisitor> */ var24 = var26; RET_LABEL25:(void)0; } } if (var24 == NULL) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2529); show_backtrace(1); } else { { /* Inline abstract_compiler#Frame#returnlabel (var24) on <var24:nullable Frame> */ if (unlikely(var24 == NULL)) { PRINT_ERROR("Runtime error: %s", "Receiver is null"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 1694); show_backtrace(1); } var29 = var24->attrs[COLOR_abstract_compiler__Frame___returnlabel].val; /* _returnlabel on <var24:nullable Frame> */ var27 = var29; RET_LABEL28:(void)0; } } if (unlikely(var27 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2529); show_backtrace(1); } if (varonce30) { var31 = varonce30; } else { var32 = ";"; var33 = 1; var34 = string__NativeString__to_s_with_length(var32, var33); var31 = var34; varonce30 = var31; } var35 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var35 = array_instance Array[Object] */ var36 = 3; var37 = NEW_array__NativeArray(var36, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var37)->values[0] = (val*) var20; ((struct instance_array__NativeArray*)var37)->values[1] = (val*) var27; ((struct instance_array__NativeArray*)var37)->values[2] = (val*) var31; { ((void (*)(val*, val*, long))(var35->class->vft[COLOR_array__Array__with_native]))(var35, var37, var36) /* with_native on <var35:Array[Object]>*/; } } { var38 = ((val* (*)(val*))(var35->class->vft[COLOR_string__Object__to_s]))(var35) /* to_s on <var35:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var38); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } RET_LABEL:; } /* method abstract_compiler#AReturnExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__AReturnExpr__stmt(val* self, val* p0) { abstract_compiler__AReturnExpr__stmt(self, p0); /* Direct call abstract_compiler#AReturnExpr#stmt on <self:Object(AReturnExpr)>*/ RET_LABEL:; } /* method abstract_compiler#AAbortExpr#stmt for (self: AAbortExpr, AbstractCompilerVisitor) */ void abstract_compiler__AAbortExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; static val* varonce; val* var /* : String */; char* var1 /* : NativeString */; long var2 /* : Int */; val* var3 /* : FlatString */; var_v = p0; if (varonce) { var = varonce; } else { var1 = "Aborted"; var2 = 7; var3 = string__NativeString__to_s_with_length(var1, var2); var = var3; varonce = var; } { abstract_compiler__AbstractCompilerVisitor__add_abort(var_v, var); /* Direct call abstract_compiler#AbstractCompilerVisitor#add_abort on <var_v:AbstractCompilerVisitor>*/ } RET_LABEL:; } /* method abstract_compiler#AAbortExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__AAbortExpr__stmt(val* self, val* p0) { abstract_compiler__AAbortExpr__stmt(self, p0); /* Direct call abstract_compiler#AAbortExpr#stmt on <self:Object(AAbortExpr)>*/ RET_LABEL:; } /* method abstract_compiler#AIfExpr#stmt for (self: AIfExpr, AbstractCompilerVisitor) */ void abstract_compiler__AIfExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; val* var /* : AExpr */; val* var2 /* : AExpr */; val* var3 /* : RuntimeVariable */; val* var_cond /* var cond: RuntimeVariable */; static val* varonce; val* var4 /* : String */; char* var5 /* : NativeString */; long var6 /* : Int */; val* var7 /* : FlatString */; static val* varonce8; val* var9 /* : String */; char* var10 /* : NativeString */; long var11 /* : Int */; val* var12 /* : FlatString */; val* var13 /* : Array[Object] */; long var14 /* : Int */; val* var15 /* : NativeArray[Object] */; val* var16 /* : String */; val* var17 /* : nullable AExpr */; val* var19 /* : nullable AExpr */; static val* varonce20; val* var21 /* : String */; char* var22 /* : NativeString */; long var23 /* : Int */; val* var24 /* : FlatString */; val* var25 /* : nullable AExpr */; val* var27 /* : nullable AExpr */; static val* varonce28; val* var29 /* : String */; char* var30 /* : NativeString */; long var31 /* : Int */; val* var32 /* : FlatString */; var_v = p0; { { /* Inline parser_nodes#AIfExpr#n_expr (self) on <self:AIfExpr> */ var2 = self->attrs[COLOR_parser_nodes__AIfExpr___n_expr].val; /* _n_expr on <self:AIfExpr> */ if (unlikely(var2 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_expr"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1387); show_backtrace(1); } var = var2; RET_LABEL1:(void)0; } } { var3 = abstract_compiler__AbstractCompilerVisitor__expr_bool(var_v, var); } var_cond = var3; if (varonce) { var4 = varonce; } else { var5 = "if ("; var6 = 4; var7 = string__NativeString__to_s_with_length(var5, var6); var4 = var7; varonce = var4; } if (varonce8) { var9 = varonce8; } else { var10 = "){"; var11 = 2; var12 = string__NativeString__to_s_with_length(var10, var11); var9 = var12; varonce8 = var9; } var13 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var13 = array_instance Array[Object] */ var14 = 3; var15 = NEW_array__NativeArray(var14, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var15)->values[0] = (val*) var4; ((struct instance_array__NativeArray*)var15)->values[1] = (val*) var_cond; ((struct instance_array__NativeArray*)var15)->values[2] = (val*) var9; { ((void (*)(val*, val*, long))(var13->class->vft[COLOR_array__Array__with_native]))(var13, var15, var14) /* with_native on <var13:Array[Object]>*/; } } { var16 = ((val* (*)(val*))(var13->class->vft[COLOR_string__Object__to_s]))(var13) /* to_s on <var13:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var16); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline parser_nodes#AIfExpr#n_then (self) on <self:AIfExpr> */ var19 = self->attrs[COLOR_parser_nodes__AIfExpr___n_then].val; /* _n_then on <self:AIfExpr> */ var17 = var19; RET_LABEL18:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__stmt(var_v, var17); /* Direct call abstract_compiler#AbstractCompilerVisitor#stmt on <var_v:AbstractCompilerVisitor>*/ } if (varonce20) { var21 = varonce20; } else { var22 = "} else {"; var23 = 8; var24 = string__NativeString__to_s_with_length(var22, var23); var21 = var24; varonce20 = var21; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var21); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline parser_nodes#AIfExpr#n_else (self) on <self:AIfExpr> */ var27 = self->attrs[COLOR_parser_nodes__AIfExpr___n_else].val; /* _n_else on <self:AIfExpr> */ var25 = var27; RET_LABEL26:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__stmt(var_v, var25); /* Direct call abstract_compiler#AbstractCompilerVisitor#stmt on <var_v:AbstractCompilerVisitor>*/ } if (varonce28) { var29 = varonce28; } else { var30 = "}"; var31 = 1; var32 = string__NativeString__to_s_with_length(var30, var31); var29 = var32; varonce28 = var29; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var29); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } RET_LABEL:; } /* method abstract_compiler#AIfExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__AIfExpr__stmt(val* self, val* p0) { abstract_compiler__AIfExpr__stmt(self, p0); /* Direct call abstract_compiler#AIfExpr#stmt on <self:Object(AIfExpr)>*/ RET_LABEL:; } /* method abstract_compiler#AIfExpr#expr for (self: AIfExpr, AbstractCompilerVisitor): nullable RuntimeVariable */ val* abstract_compiler__AIfExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var_v /* var v: AbstractCompilerVisitor */; val* var1 /* : nullable MType */; val* var3 /* : nullable MType */; val* var4 /* : RuntimeVariable */; val* var_res /* var res: RuntimeVariable */; val* var5 /* : AExpr */; val* var7 /* : AExpr */; val* var8 /* : RuntimeVariable */; val* var_cond /* var cond: RuntimeVariable */; static val* varonce; val* var9 /* : String */; char* var10 /* : NativeString */; long var11 /* : Int */; val* var12 /* : FlatString */; static val* varonce13; val* var14 /* : String */; char* var15 /* : NativeString */; long var16 /* : Int */; val* var17 /* : FlatString */; val* var18 /* : Array[Object] */; long var19 /* : Int */; val* var20 /* : NativeArray[Object] */; val* var21 /* : String */; val* var22 /* : nullable AExpr */; val* var24 /* : nullable AExpr */; val* var25 /* : null */; val* var26 /* : RuntimeVariable */; static val* varonce27; val* var28 /* : String */; char* var29 /* : NativeString */; long var30 /* : Int */; val* var31 /* : FlatString */; val* var32 /* : nullable AExpr */; val* var34 /* : nullable AExpr */; val* var35 /* : null */; val* var36 /* : RuntimeVariable */; static val* varonce37; val* var38 /* : String */; char* var39 /* : NativeString */; long var40 /* : Int */; val* var41 /* : FlatString */; var_v = p0; { { /* Inline typing#AExpr#mtype (self) on <self:AIfExpr> */ var3 = self->attrs[COLOR_typing__AExpr___mtype].val; /* _mtype on <self:AIfExpr> */ var1 = var3; RET_LABEL2:(void)0; } } if (unlikely(var1 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2550); show_backtrace(1); } { var4 = abstract_compiler__AbstractCompilerVisitor__new_var(var_v, var1); } var_res = var4; { { /* Inline parser_nodes#AIfExpr#n_expr (self) on <self:AIfExpr> */ var7 = self->attrs[COLOR_parser_nodes__AIfExpr___n_expr].val; /* _n_expr on <self:AIfExpr> */ if (unlikely(var7 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_expr"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1387); show_backtrace(1); } var5 = var7; RET_LABEL6:(void)0; } } { var8 = abstract_compiler__AbstractCompilerVisitor__expr_bool(var_v, var5); } var_cond = var8; if (varonce) { var9 = varonce; } else { var10 = "if ("; var11 = 4; var12 = string__NativeString__to_s_with_length(var10, var11); var9 = var12; varonce = var9; } if (varonce13) { var14 = varonce13; } else { var15 = "){"; var16 = 2; var17 = string__NativeString__to_s_with_length(var15, var16); var14 = var17; varonce13 = var14; } var18 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var18 = array_instance Array[Object] */ var19 = 3; var20 = NEW_array__NativeArray(var19, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var20)->values[0] = (val*) var9; ((struct instance_array__NativeArray*)var20)->values[1] = (val*) var_cond; ((struct instance_array__NativeArray*)var20)->values[2] = (val*) var14; { ((void (*)(val*, val*, long))(var18->class->vft[COLOR_array__Array__with_native]))(var18, var20, var19) /* with_native on <var18:Array[Object]>*/; } } { var21 = ((val* (*)(val*))(var18->class->vft[COLOR_string__Object__to_s]))(var18) /* to_s on <var18:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var21); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline parser_nodes#AIfExpr#n_then (self) on <self:AIfExpr> */ var24 = self->attrs[COLOR_parser_nodes__AIfExpr___n_then].val; /* _n_then on <self:AIfExpr> */ var22 = var24; RET_LABEL23:(void)0; } } if (unlikely(var22 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2553); show_backtrace(1); } var25 = NULL; { var26 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var22, var25); } { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var_res, var26); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } if (varonce27) { var28 = varonce27; } else { var29 = "} else {"; var30 = 8; var31 = string__NativeString__to_s_with_length(var29, var30); var28 = var31; varonce27 = var28; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var28); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline parser_nodes#AIfExpr#n_else (self) on <self:AIfExpr> */ var34 = self->attrs[COLOR_parser_nodes__AIfExpr___n_else].val; /* _n_else on <self:AIfExpr> */ var32 = var34; RET_LABEL33:(void)0; } } if (unlikely(var32 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2555); show_backtrace(1); } var35 = NULL; { var36 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var32, var35); } { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var_res, var36); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } if (varonce37) { var38 = varonce37; } else { var39 = "}"; var40 = 1; var41 = string__NativeString__to_s_with_length(var39, var40); var38 = var41; varonce37 = var38; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var38); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var = var_res; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#AIfExpr#expr for (self: Object, AbstractCompilerVisitor): nullable RuntimeVariable */ val* VIRTUAL_abstract_compiler__AIfExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var1 /* : nullable RuntimeVariable */; var1 = abstract_compiler__AIfExpr__expr(self, p0); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#AIfexprExpr#expr for (self: AIfexprExpr, AbstractCompilerVisitor): nullable RuntimeVariable */ val* abstract_compiler__AIfexprExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var_v /* var v: AbstractCompilerVisitor */; val* var1 /* : nullable MType */; val* var3 /* : nullable MType */; val* var4 /* : RuntimeVariable */; val* var_res /* var res: RuntimeVariable */; val* var5 /* : AExpr */; val* var7 /* : AExpr */; val* var8 /* : RuntimeVariable */; val* var_cond /* var cond: RuntimeVariable */; static val* varonce; val* var9 /* : String */; char* var10 /* : NativeString */; long var11 /* : Int */; val* var12 /* : FlatString */; static val* varonce13; val* var14 /* : String */; char* var15 /* : NativeString */; long var16 /* : Int */; val* var17 /* : FlatString */; val* var18 /* : Array[Object] */; long var19 /* : Int */; val* var20 /* : NativeArray[Object] */; val* var21 /* : String */; val* var22 /* : AExpr */; val* var24 /* : AExpr */; val* var25 /* : null */; val* var26 /* : RuntimeVariable */; static val* varonce27; val* var28 /* : String */; char* var29 /* : NativeString */; long var30 /* : Int */; val* var31 /* : FlatString */; val* var32 /* : AExpr */; val* var34 /* : AExpr */; val* var35 /* : null */; val* var36 /* : RuntimeVariable */; static val* varonce37; val* var38 /* : String */; char* var39 /* : NativeString */; long var40 /* : Int */; val* var41 /* : FlatString */; var_v = p0; { { /* Inline typing#AExpr#mtype (self) on <self:AIfexprExpr> */ var3 = self->attrs[COLOR_typing__AExpr___mtype].val; /* _mtype on <self:AIfexprExpr> */ var1 = var3; RET_LABEL2:(void)0; } } if (unlikely(var1 == NULL)) { PRINT_ERROR("Runtime error: %s", "Cast failed"); PRINT_ERROR(" (%s:%d)\n", "compiler/abstract_compiler.nit", 2564); show_backtrace(1); } { var4 = abstract_compiler__AbstractCompilerVisitor__new_var(var_v, var1); } var_res = var4; { { /* Inline parser_nodes#AIfexprExpr#n_expr (self) on <self:AIfexprExpr> */ var7 = self->attrs[COLOR_parser_nodes__AIfexprExpr___n_expr].val; /* _n_expr on <self:AIfexprExpr> */ if (unlikely(var7 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_expr"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1396); show_backtrace(1); } var5 = var7; RET_LABEL6:(void)0; } } { var8 = abstract_compiler__AbstractCompilerVisitor__expr_bool(var_v, var5); } var_cond = var8; if (varonce) { var9 = varonce; } else { var10 = "if ("; var11 = 4; var12 = string__NativeString__to_s_with_length(var10, var11); var9 = var12; varonce = var9; } if (varonce13) { var14 = varonce13; } else { var15 = "){"; var16 = 2; var17 = string__NativeString__to_s_with_length(var15, var16); var14 = var17; varonce13 = var14; } var18 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var18 = array_instance Array[Object] */ var19 = 3; var20 = NEW_array__NativeArray(var19, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var20)->values[0] = (val*) var9; ((struct instance_array__NativeArray*)var20)->values[1] = (val*) var_cond; ((struct instance_array__NativeArray*)var20)->values[2] = (val*) var14; { ((void (*)(val*, val*, long))(var18->class->vft[COLOR_array__Array__with_native]))(var18, var20, var19) /* with_native on <var18:Array[Object]>*/; } } { var21 = ((val* (*)(val*))(var18->class->vft[COLOR_string__Object__to_s]))(var18) /* to_s on <var18:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var21); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline parser_nodes#AIfexprExpr#n_then (self) on <self:AIfexprExpr> */ var24 = self->attrs[COLOR_parser_nodes__AIfexprExpr___n_then].val; /* _n_then on <self:AIfexprExpr> */ if (unlikely(var24 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_then"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1398); show_backtrace(1); } var22 = var24; RET_LABEL23:(void)0; } } var25 = NULL; { var26 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var22, var25); } { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var_res, var26); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } if (varonce27) { var28 = varonce27; } else { var29 = "} else {"; var30 = 8; var31 = string__NativeString__to_s_with_length(var29, var30); var28 = var31; varonce27 = var28; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var28); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline parser_nodes#AIfexprExpr#n_else (self) on <self:AIfexprExpr> */ var34 = self->attrs[COLOR_parser_nodes__AIfexprExpr___n_else].val; /* _n_else on <self:AIfexprExpr> */ if (unlikely(var34 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_else"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1400); show_backtrace(1); } var32 = var34; RET_LABEL33:(void)0; } } var35 = NULL; { var36 = abstract_compiler__AbstractCompilerVisitor__expr(var_v, var32, var35); } { abstract_compiler__AbstractCompilerVisitor__assign(var_v, var_res, var36); /* Direct call abstract_compiler#AbstractCompilerVisitor#assign on <var_v:AbstractCompilerVisitor>*/ } if (varonce37) { var38 = varonce37; } else { var39 = "}"; var40 = 1; var41 = string__NativeString__to_s_with_length(var39, var40); var38 = var41; varonce37 = var38; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var38); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } var = var_res; goto RET_LABEL; RET_LABEL:; return var; } /* method abstract_compiler#AIfexprExpr#expr for (self: Object, AbstractCompilerVisitor): nullable RuntimeVariable */ val* VIRTUAL_abstract_compiler__AIfexprExpr__expr(val* self, val* p0) { val* var /* : nullable RuntimeVariable */; val* var1 /* : nullable RuntimeVariable */; var1 = abstract_compiler__AIfexprExpr__expr(self, p0); var = var1; RET_LABEL:; return var; } /* method abstract_compiler#ADoExpr#stmt for (self: ADoExpr, AbstractCompilerVisitor) */ void abstract_compiler__ADoExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; val* var /* : nullable AExpr */; val* var2 /* : nullable AExpr */; val* var3 /* : nullable EscapeMark */; val* var5 /* : nullable EscapeMark */; var_v = p0; { { /* Inline parser_nodes#ADoExpr#n_block (self) on <self:ADoExpr> */ var2 = self->attrs[COLOR_parser_nodes__ADoExpr___n_block].val; /* _n_block on <self:ADoExpr> */ var = var2; RET_LABEL1:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__stmt(var_v, var); /* Direct call abstract_compiler#AbstractCompilerVisitor#stmt on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline scope#ADoExpr#break_mark (self) on <self:ADoExpr> */ var5 = self->attrs[COLOR_scope__ADoExpr___break_mark].val; /* _break_mark on <self:ADoExpr> */ var3 = var5; RET_LABEL4:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__add_escape_label(var_v, var3); /* Direct call abstract_compiler#AbstractCompilerVisitor#add_escape_label on <var_v:AbstractCompilerVisitor>*/ } RET_LABEL:; } /* method abstract_compiler#ADoExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__ADoExpr__stmt(val* self, val* p0) { abstract_compiler__ADoExpr__stmt(self, p0); /* Direct call abstract_compiler#ADoExpr#stmt on <self:Object(ADoExpr)>*/ RET_LABEL:; } /* method abstract_compiler#AWhileExpr#stmt for (self: AWhileExpr, AbstractCompilerVisitor) */ void abstract_compiler__AWhileExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; static val* varonce; val* var /* : String */; char* var1 /* : NativeString */; long var2 /* : Int */; val* var3 /* : FlatString */; val* var4 /* : AExpr */; val* var6 /* : AExpr */; val* var7 /* : RuntimeVariable */; val* var_cond /* var cond: RuntimeVariable */; static val* varonce8; val* var9 /* : String */; char* var10 /* : NativeString */; long var11 /* : Int */; val* var12 /* : FlatString */; static val* varonce13; val* var14 /* : String */; char* var15 /* : NativeString */; long var16 /* : Int */; val* var17 /* : FlatString */; val* var18 /* : Array[Object] */; long var19 /* : Int */; val* var20 /* : NativeArray[Object] */; val* var21 /* : String */; val* var22 /* : nullable AExpr */; val* var24 /* : nullable AExpr */; val* var25 /* : nullable EscapeMark */; val* var27 /* : nullable EscapeMark */; static val* varonce28; val* var29 /* : String */; char* var30 /* : NativeString */; long var31 /* : Int */; val* var32 /* : FlatString */; val* var33 /* : nullable EscapeMark */; val* var35 /* : nullable EscapeMark */; var_v = p0; if (varonce) { var = varonce; } else { var1 = "for(;;) {"; var2 = 9; var3 = string__NativeString__to_s_with_length(var1, var2); var = var3; varonce = var; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline parser_nodes#AWhileExpr#n_expr (self) on <self:AWhileExpr> */ var6 = self->attrs[COLOR_parser_nodes__AWhileExpr___n_expr].val; /* _n_expr on <self:AWhileExpr> */ if (unlikely(var6 == NULL)) { PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _n_expr"); PRINT_ERROR(" (%s:%d)\n", "parser/parser_nodes.nit", 1408); show_backtrace(1); } var4 = var6; RET_LABEL5:(void)0; } } { var7 = abstract_compiler__AbstractCompilerVisitor__expr_bool(var_v, var4); } var_cond = var7; if (varonce8) { var9 = varonce8; } else { var10 = "if (!"; var11 = 5; var12 = string__NativeString__to_s_with_length(var10, var11); var9 = var12; varonce8 = var9; } if (varonce13) { var14 = varonce13; } else { var15 = ") break;"; var16 = 8; var17 = string__NativeString__to_s_with_length(var15, var16); var14 = var17; varonce13 = var14; } var18 = NEW_array__Array(&type_array__Arraykernel__Object); { /* var18 = array_instance Array[Object] */ var19 = 3; var20 = NEW_array__NativeArray(var19, &type_array__NativeArraykernel__Object); ((struct instance_array__NativeArray*)var20)->values[0] = (val*) var9; ((struct instance_array__NativeArray*)var20)->values[1] = (val*) var_cond; ((struct instance_array__NativeArray*)var20)->values[2] = (val*) var14; { ((void (*)(val*, val*, long))(var18->class->vft[COLOR_array__Array__with_native]))(var18, var20, var19) /* with_native on <var18:Array[Object]>*/; } } { var21 = ((val* (*)(val*))(var18->class->vft[COLOR_string__Object__to_s]))(var18) /* to_s on <var18:Array[Object]>*/; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var21); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline parser_nodes#AWhileExpr#n_block (self) on <self:AWhileExpr> */ var24 = self->attrs[COLOR_parser_nodes__AWhileExpr___n_block].val; /* _n_block on <self:AWhileExpr> */ var22 = var24; RET_LABEL23:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__stmt(var_v, var22); /* Direct call abstract_compiler#AbstractCompilerVisitor#stmt on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline scope#AWhileExpr#continue_mark (self) on <self:AWhileExpr> */ var27 = self->attrs[COLOR_scope__AWhileExpr___continue_mark].val; /* _continue_mark on <self:AWhileExpr> */ var25 = var27; RET_LABEL26:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__add_escape_label(var_v, var25); /* Direct call abstract_compiler#AbstractCompilerVisitor#add_escape_label on <var_v:AbstractCompilerVisitor>*/ } if (varonce28) { var29 = varonce28; } else { var30 = "}"; var31 = 1; var32 = string__NativeString__to_s_with_length(var30, var31); var29 = var32; varonce28 = var29; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var29); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline scope#AWhileExpr#break_mark (self) on <self:AWhileExpr> */ var35 = self->attrs[COLOR_scope__AWhileExpr___break_mark].val; /* _break_mark on <self:AWhileExpr> */ var33 = var35; RET_LABEL34:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__add_escape_label(var_v, var33); /* Direct call abstract_compiler#AbstractCompilerVisitor#add_escape_label on <var_v:AbstractCompilerVisitor>*/ } RET_LABEL:; } /* method abstract_compiler#AWhileExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__AWhileExpr__stmt(val* self, val* p0) { abstract_compiler__AWhileExpr__stmt(self, p0); /* Direct call abstract_compiler#AWhileExpr#stmt on <self:Object(AWhileExpr)>*/ RET_LABEL:; } /* method abstract_compiler#ALoopExpr#stmt for (self: ALoopExpr, AbstractCompilerVisitor) */ void abstract_compiler__ALoopExpr__stmt(val* self, val* p0) { val* var_v /* var v: AbstractCompilerVisitor */; static val* varonce; val* var /* : String */; char* var1 /* : NativeString */; long var2 /* : Int */; val* var3 /* : FlatString */; val* var4 /* : nullable AExpr */; val* var6 /* : nullable AExpr */; val* var7 /* : nullable EscapeMark */; val* var9 /* : nullable EscapeMark */; static val* varonce10; val* var11 /* : String */; char* var12 /* : NativeString */; long var13 /* : Int */; val* var14 /* : FlatString */; val* var15 /* : nullable EscapeMark */; val* var17 /* : nullable EscapeMark */; var_v = p0; if (varonce) { var = varonce; } else { var1 = "for(;;) {"; var2 = 9; var3 = string__NativeString__to_s_with_length(var1, var2); var = var3; varonce = var; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline parser_nodes#ALoopExpr#n_block (self) on <self:ALoopExpr> */ var6 = self->attrs[COLOR_parser_nodes__ALoopExpr___n_block].val; /* _n_block on <self:ALoopExpr> */ var4 = var6; RET_LABEL5:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__stmt(var_v, var4); /* Direct call abstract_compiler#AbstractCompilerVisitor#stmt on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline scope#ALoopExpr#continue_mark (self) on <self:ALoopExpr> */ var9 = self->attrs[COLOR_scope__ALoopExpr___continue_mark].val; /* _continue_mark on <self:ALoopExpr> */ var7 = var9; RET_LABEL8:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__add_escape_label(var_v, var7); /* Direct call abstract_compiler#AbstractCompilerVisitor#add_escape_label on <var_v:AbstractCompilerVisitor>*/ } if (varonce10) { var11 = varonce10; } else { var12 = "}"; var13 = 1; var14 = string__NativeString__to_s_with_length(var12, var13); var11 = var14; varonce10 = var11; } { abstract_compiler__AbstractCompilerVisitor__add(var_v, var11); /* Direct call abstract_compiler#AbstractCompilerVisitor#add on <var_v:AbstractCompilerVisitor>*/ } { { /* Inline scope#ALoopExpr#break_mark (self) on <self:ALoopExpr> */ var17 = self->attrs[COLOR_scope__ALoopExpr___break_mark].val; /* _break_mark on <self:ALoopExpr> */ var15 = var17; RET_LABEL16:(void)0; } } { abstract_compiler__AbstractCompilerVisitor__add_escape_label(var_v, var15); /* Direct call abstract_compiler#AbstractCompilerVisitor#add_escape_label on <var_v:AbstractCompilerVisitor>*/ } RET_LABEL:; } /* method abstract_compiler#ALoopExpr#stmt for (self: Object, AbstractCompilerVisitor) */ void VIRTUAL_abstract_compiler__ALoopExpr__stmt(val* self, val* p0) { abstract_compiler__ALoopExpr__stmt(self, p0); /* Direct call abstract_compiler#ALoopExpr#stmt on <self:Object(ALoopExpr)>*/ RET_LABEL:; }
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@interface AutoDcitionary() @property (nonatomic, strong) NSMutableDictionary *backingStore; @end @implementation AutoDcitionary @dynamic string; - (instancetype)init { if (self = [super init]) { [self performSelector:@selector(testForward:) withObject:@"arg1sdfsdfsdf"]; } return self; } //+ (BOOL)resolveInstanceMethod:(SEL)sel { // // NSString *selectorString = NSStringFromSelector(sel); // if ([selectorString isEqualToString:@"creash"]) { // class_addMethod(self, // sel, // (IMP)askMeWhenCreash, // ""); // // return YES; // } // return NO; //} void askMeWhenCreash() { NSLog(@"creash不要慌"); } //+ (BOOL)resolveInstanceMethod:(SEL)sel { // // NSString *selectorString = NSStringFromSelector(sel); // if ([selectorString hasPrefix:@"set"]) { // class_addMethod(self, // sel, // (IMP)autoDictionarySetter, // "v@:@"); // } else { // class_addMethod(self, // sel, // (IMP)autoDictionaryGetter, // "@@:"); // // } // return YES; //} //- (id)forwardingTargetForSelector:(SEL)aSelector { // // return @"APPLE"; //} - (NSMethodSignature *)methodSignatureForSelector:(SEL)aSelector { return [NSMethodSignature signatureWithObjCTypes:"v@:@"]; } - (void)forwardInvocation:(NSInvocation *)anInvocation { [anInvocation setSelector:@selector(forwardTo:)]; NSString *arg1; [anInvocation getArgument:&arg1 atIndex:2]; [anInvocation invokeWithTarget:self]; } - (void)forwardTo:(NSString *)arg1 { NSLog(@"%@",arg1); } id autoDictionaryGetter(id self, SEL _cmd) { AutoDcitionary *typedSelf = (AutoDcitionary *)self; NSMutableDictionary *backingStore = typedSelf.backingStore; NSString *key = NSStringFromSelector(_cmd); NSLog(@"无法找到%@ 选择子",key); return [backingStore objectForKey:key]; } id autoDictionarySetter(id self, SEL _cmd, id value) { AutoDcitionary *typedSelf = (AutoDcitionary* )self; NSMutableDictionary *backingStore = typedSelf.backingStore; NSString *selectorString = NSStringFromSelector(_cmd); NSLog(@"无法找到%@ 选择子",selectorString); NSMutableString *key = [selectorString mutableCopy]; [key deleteCharactersInRange:NSMakeRange(key.length - 1, 1)]; [key deleteCharactersInRange:NSMakeRange(0, 3)]; NSString *lowercaseFirstChar = [[key substringToIndex:1] lowercaseString]; [key replaceCharactersInRange:NSMakeRange(0, 1) withString:lowercaseFirstChar]; if (value) { [backingStore setObject:value forKey:key]; } else { [backingStore removeObjectForKey:key]; } return nil; } @end
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apt_update if windows? # CI Runners include hub via chocolatey, which depends on git chocolatey_package 'hub' do action :purge end # CI Runners include git via chocolatey, so remove it first chocolatey_package 'git' do action :purge end directory 'C:\Program Files\Git' do recursive true action :delete end end git_client 'install it' home_dir = if windows? 'C:\temp' elsif macos? '/Users/random' else '/home/random' end user 'random' do manage_home true home home_dir end unless windows? directory 'C:\temp' if windows? git_config 'add name to random' do user 'random' unless windows? scope 'global' key 'user.name' value 'John Doe global' end git "#{home_dir}/git_repo" do repository 'https://github.com/chef/chef-repo.git' user 'random' unless windows? end git_config 'change local path' do user 'random' unless windows? scope 'local' key 'user.name' value 'John Doe local' path "#{home_dir}/git_repo" end git_config 'change system config' do scope 'system' key 'user.name' value 'John Doe system' end git_config 'url.https://github.com/.insteadOf' do value 'git://github.com/' scope 'system' options '--add' end
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#define LOG_TAG "LatinIME: correction.cpp" #include <cmath> #include "char_utils.h" #include "correction.h" #include "defines.h" #include "proximity_info_state.h" #include "suggest_utils.h" #include "suggest/policyimpl/utils/edit_distance.h" #include "suggest/policyimpl/utils/damerau_levenshtein_edit_distance_policy.h" namespace latinime { class ProximityInfo; ///////////////////////////// // edit distance funcitons // ///////////////////////////// inline static void initEditDistance(int *editDistanceTable) { for (int i = 0; i <= MAX_WORD_LENGTH; ++i) { editDistanceTable[i] = i; } } inline static void dumpEditDistance10ForDebug(int *editDistanceTable, const int editDistanceTableWidth, const int outputLength) { if (DEBUG_DICT) { AKLOGI("EditDistanceTable"); for (int i = 0; i <= 10; ++i) { int c[11]; for (int j = 0; j <= 10; ++j) { if (j < editDistanceTableWidth + 1 && i < outputLength + 1) { c[j] = (editDistanceTable + i * (editDistanceTableWidth + 1))[j]; } else { c[j] = -1; } } AKLOGI("[ %d, %d, %d, %d, %d, %d, %d, %d, %d, %d, %d ]", c[0], c[1], c[2], c[3], c[4], c[5], c[6], c[7], c[8], c[9], c[10]); (void)c; // To suppress compiler warning } } } inline static int getCurrentEditDistance(int *editDistanceTable, const int editDistanceTableWidth, const int outputLength, const int inputSize) { if (DEBUG_EDIT_DISTANCE) { AKLOGI("getCurrentEditDistance %d, %d", inputSize, outputLength); } return editDistanceTable[(editDistanceTableWidth + 1) * (outputLength) + inputSize]; } //////////////// // Correction // //////////////// void Correction::resetCorrection() { mTotalTraverseCount = 0; } void Correction::initCorrection(const ProximityInfo *pi, const int inputSize, const int maxDepth) { mProximityInfo = pi; mInputSize = inputSize; mMaxDepth = maxDepth; mMaxEditDistance = mInputSize < 5 ? 2 : mInputSize / 2; // TODO: This is not supposed to be required. Check what's going wrong with // editDistance[0 ~ MAX_WORD_LENGTH] initEditDistance(mEditDistanceTable); } void Correction::initCorrectionState( const int rootPos, const int childCount, const bool traverseAll) { latinime::initCorrectionState(mCorrectionStates, rootPos, childCount, traverseAll); // TODO: remove mCorrectionStates[0].mTransposedPos = mTransposedPos; mCorrectionStates[0].mExcessivePos = mExcessivePos; mCorrectionStates[0].mSkipPos = mSkipPos; } void Correction::setCorrectionParams(const int skipPos, const int excessivePos, const int transposedPos, const int spaceProximityPos, const int missingSpacePos, const bool useFullEditDistance, const bool doAutoCompletion, const int maxErrors) { // TODO: remove mTransposedPos = transposedPos; mExcessivePos = excessivePos; mSkipPos = skipPos; // TODO: remove mCorrectionStates[0].mTransposedPos = transposedPos; mCorrectionStates[0].mExcessivePos = excessivePos; mCorrectionStates[0].mSkipPos = skipPos; mSpaceProximityPos = spaceProximityPos; mMissingSpacePos = missingSpacePos; mUseFullEditDistance = useFullEditDistance; mDoAutoCompletion = doAutoCompletion; mMaxErrors = maxErrors; } void Correction::checkState() const { if (DEBUG_DICT) { int inputCount = 0; if (mSkipPos >= 0) ++inputCount; if (mExcessivePos >= 0) ++inputCount; if (mTransposedPos >= 0) ++inputCount; } } bool Correction::sameAsTyped() const { return mProximityInfoState.sameAsTyped(mWord, mOutputIndex); } int Correction::getFreqForSplitMultipleWords(const int *freqArray, const int *wordLengthArray, const int wordCount, const bool isSpaceProximity, const int *word) const { return Correction::RankingAlgorithm::calcFreqForSplitMultipleWords(freqArray, wordLengthArray, wordCount, this, isSpaceProximity, word); } int Correction::getFinalProbability(const int probability, int **word, int *wordLength) { return getFinalProbabilityInternal(probability, word, wordLength, mInputSize); } int Correction::getFinalProbabilityForSubQueue(const int probability, int **word, int *wordLength, const int inputSize) { return getFinalProbabilityInternal(probability, word, wordLength, inputSize); } bool Correction::initProcessState(const int outputIndex) { if (mCorrectionStates[outputIndex].mChildCount <= 0) { return false; } mOutputIndex = outputIndex; --(mCorrectionStates[outputIndex].mChildCount); mInputIndex = mCorrectionStates[outputIndex].mInputIndex; mNeedsToTraverseAllNodes = mCorrectionStates[outputIndex].mNeedsToTraverseAllNodes; mEquivalentCharCount = mCorrectionStates[outputIndex].mEquivalentCharCount; mProximityCount = mCorrectionStates[outputIndex].mProximityCount; mTransposedCount = mCorrectionStates[outputIndex].mTransposedCount; mExcessiveCount = mCorrectionStates[outputIndex].mExcessiveCount; mSkippedCount = mCorrectionStates[outputIndex].mSkippedCount; mLastCharExceeded = mCorrectionStates[outputIndex].mLastCharExceeded; mTransposedPos = mCorrectionStates[outputIndex].mTransposedPos; mExcessivePos = mCorrectionStates[outputIndex].mExcessivePos; mSkipPos = mCorrectionStates[outputIndex].mSkipPos; mMatching = false; mProximityMatching = false; mAdditionalProximityMatching = false; mTransposing = false; mExceeding = false; mSkipping = false; return true; } int Correction::goDownTree(const int parentIndex, const int childCount, const int firstChildPos) { mCorrectionStates[mOutputIndex].mParentIndex = parentIndex; mCorrectionStates[mOutputIndex].mChildCount = childCount; mCorrectionStates[mOutputIndex].mSiblingPos = firstChildPos; return mOutputIndex; } // TODO: remove int Correction::getInputIndex() const { return mInputIndex; } bool Correction::needsToPrune() const { // TODO: use edit distance here return mOutputIndex - 1 >= mMaxDepth || mProximityCount > mMaxEditDistance // Allow one char longer word for missing character || (!mDoAutoCompletion && (mOutputIndex > mInputSize)); } inline static bool isEquivalentChar(ProximityType type) { return type == MATCH_CHAR; } inline static bool isProximityCharOrEquivalentChar(ProximityType type) { return type == MATCH_CHAR || type == PROXIMITY_CHAR; } Correction::CorrectionType Correction::processCharAndCalcState(const int c, const bool isTerminal) { const int correctionCount = (mSkippedCount + mExcessiveCount + mTransposedCount); if (correctionCount > mMaxErrors) { return processUnrelatedCorrectionType(); } // TODO: Change the limit if we'll allow two or more corrections const bool noCorrectionsHappenedSoFar = correctionCount == 0; const bool canTryCorrection = noCorrectionsHappenedSoFar; int proximityIndex = 0; mDistances[mOutputIndex] = NOT_A_DISTANCE; // Skip checking this node if (mNeedsToTraverseAllNodes || isSingleQuote(c)) { bool incremented = false; if (mLastCharExceeded && mInputIndex == mInputSize - 1) { // TODO: Do not check the proximity if EditDistance exceeds the threshold const ProximityType matchId = mProximityInfoState.getProximityType( mInputIndex, c, true, &proximityIndex); if (isEquivalentChar(matchId)) { mLastCharExceeded = false; --mExcessiveCount; mDistances[mOutputIndex] = mProximityInfoState.getNormalizedSquaredDistance(mInputIndex, 0); } else if (matchId == PROXIMITY_CHAR) { mLastCharExceeded = false; --mExcessiveCount; ++mProximityCount; mDistances[mOutputIndex] = mProximityInfoState.getNormalizedSquaredDistance( mInputIndex, proximityIndex); } if (!isSingleQuote(c)) { incrementInputIndex(); incremented = true; } } return processSkipChar(c, isTerminal, incremented); } // Check possible corrections. if (mExcessivePos >= 0) { if (mExcessiveCount == 0 && mExcessivePos < mOutputIndex) { mExcessivePos = mOutputIndex; } if (mExcessivePos < mInputSize - 1) { mExceeding = mExcessivePos == mInputIndex && canTryCorrection; } } if (mSkipPos >= 0) { if (mSkippedCount == 0 && mSkipPos < mOutputIndex) { if (DEBUG_DICT) { // TODO: Enable this assertion. //ASSERT(mSkipPos == mOutputIndex - 1); } mSkipPos = mOutputIndex; } mSkipping = mSkipPos == mOutputIndex && canTryCorrection; } if (mTransposedPos >= 0) { if (mTransposedCount == 0 && mTransposedPos < mOutputIndex) { mTransposedPos = mOutputIndex; } if (mTransposedPos < mInputSize - 1) { mTransposing = mInputIndex == mTransposedPos && canTryCorrection; } } bool secondTransposing = false; if (mTransposedCount % 2 == 1) { if (isEquivalentChar(mProximityInfoState.getProximityType( mInputIndex - 1, c, false))) { ++mTransposedCount; secondTransposing = true; } else if (mCorrectionStates[mOutputIndex].mExceeding) { --mTransposedCount; ++mExcessiveCount; --mExcessivePos; incrementInputIndex(); } else { --mTransposedCount; if (DEBUG_CORRECTION && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == mInputSize) && (MIN_OUTPUT_INDEX_FOR_DEBUG <= 0 || MIN_OUTPUT_INDEX_FOR_DEBUG < mOutputIndex)) { DUMP_WORD(mWord, mOutputIndex); AKLOGI("UNRELATED(0): %d, %d, %d, %d, %c", mProximityCount, mSkippedCount, mTransposedCount, mExcessiveCount, c); } return processUnrelatedCorrectionType(); } } // TODO: Change the limit if we'll allow two or more proximity chars with corrections // Work around: When the mMaxErrors is 1, we only allow just one error // including proximity correction. const bool checkProximityChars = (mMaxErrors > 1) ? (noCorrectionsHappenedSoFar || mProximityCount == 0) : (noCorrectionsHappenedSoFar && mProximityCount == 0); ProximityType matchedProximityCharId = secondTransposing ? MATCH_CHAR : mProximityInfoState.getProximityType( mInputIndex, c, checkProximityChars, &proximityIndex); if (SUBSTITUTION_CHAR == matchedProximityCharId || ADDITIONAL_PROXIMITY_CHAR == matchedProximityCharId) { if (canTryCorrection && mOutputIndex > 0 && mCorrectionStates[mOutputIndex].mProximityMatching && mCorrectionStates[mOutputIndex].mExceeding && isEquivalentChar(mProximityInfoState.getProximityType( mInputIndex, mWord[mOutputIndex - 1], false))) { if (DEBUG_CORRECTION && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == mInputSize) && (MIN_OUTPUT_INDEX_FOR_DEBUG <= 0 || MIN_OUTPUT_INDEX_FOR_DEBUG < mOutputIndex)) { AKLOGI("CONVERSION p->e %c", mWord[mOutputIndex - 1]); } // Conversion p->e // Example: // wearth -> earth // px -> (E)mmmmm ++mExcessiveCount; --mProximityCount; mExcessivePos = mOutputIndex - 1; ++mInputIndex; // Here, we are doing something equivalent to matchedProximityCharId, // but we already know that "excessive char correction" just happened // so that we just need to check "mProximityCount == 0". matchedProximityCharId = mProximityInfoState.getProximityType( mInputIndex, c, mProximityCount == 0, &proximityIndex); } } if (SUBSTITUTION_CHAR == matchedProximityCharId || ADDITIONAL_PROXIMITY_CHAR == matchedProximityCharId) { if (ADDITIONAL_PROXIMITY_CHAR == matchedProximityCharId) { mAdditionalProximityMatching = true; } // TODO: Optimize // As the current char turned out to be an unrelated char, // we will try other correction-types. Please note that mCorrectionStates[mOutputIndex] // here refers to the previous state. if (mInputIndex < mInputSize - 1 && mOutputIndex > 0 && mTransposedCount > 0 && !mCorrectionStates[mOutputIndex].mTransposing && mCorrectionStates[mOutputIndex - 1].mTransposing && isEquivalentChar(mProximityInfoState.getProximityType( mInputIndex, mWord[mOutputIndex - 1], false)) && isEquivalentChar( mProximityInfoState.getProximityType(mInputIndex + 1, c, false))) { // Conversion t->e // Example: // occaisional -> occa sional // mmmmttx -> mmmm(E)mmmmmm mTransposedCount -= 2; ++mExcessiveCount; ++mInputIndex; } else if (mOutputIndex > 0 && mInputIndex > 0 && mTransposedCount > 0 && !mCorrectionStates[mOutputIndex].mTransposing && mCorrectionStates[mOutputIndex - 1].mTransposing && isEquivalentChar( mProximityInfoState.getProximityType(mInputIndex - 1, c, false))) { // Conversion t->s // Example: // chcolate -> chocolate // mmttx -> mmsmmmmmm mTransposedCount -= 2; ++mSkippedCount; --mInputIndex; } else if (canTryCorrection && mInputIndex > 0 && mCorrectionStates[mOutputIndex].mProximityMatching && mCorrectionStates[mOutputIndex].mSkipping && isEquivalentChar( mProximityInfoState.getProximityType(mInputIndex - 1, c, false))) { // Conversion p->s // Note: This logic tries saving cases like contrst --> contrast -- "a" is one of // proximity chars of "s", but it should rather be handled as a skipped char. ++mSkippedCount; --mProximityCount; return processSkipChar(c, isTerminal, false); } else if (mInputIndex - 1 < mInputSize && mSkippedCount > 0 && mCorrectionStates[mOutputIndex].mSkipping && mCorrectionStates[mOutputIndex].mAdditionalProximityMatching && isProximityCharOrEquivalentChar( mProximityInfoState.getProximityType(mInputIndex + 1, c, false))) { // Conversion s->a incrementInputIndex(); --mSkippedCount; mProximityMatching = true; ++mProximityCount; mDistances[mOutputIndex] = ADDITIONAL_PROXIMITY_CHAR_DISTANCE_INFO; } else if ((mExceeding || mTransposing) && mInputIndex - 1 < mInputSize && isEquivalentChar( mProximityInfoState.getProximityType(mInputIndex + 1, c, false))) { // 1.2. Excessive or transpose correction if (mTransposing) { ++mTransposedCount; } else { ++mExcessiveCount; incrementInputIndex(); } if (DEBUG_CORRECTION && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == mInputSize) && (MIN_OUTPUT_INDEX_FOR_DEBUG <= 0 || MIN_OUTPUT_INDEX_FOR_DEBUG < mOutputIndex)) { DUMP_WORD(mWord, mOutputIndex); if (mTransposing) { AKLOGI("TRANSPOSE: %d, %d, %d, %d, %c", mProximityCount, mSkippedCount, mTransposedCount, mExcessiveCount, c); } else { AKLOGI("EXCEED: %d, %d, %d, %d, %c", mProximityCount, mSkippedCount, mTransposedCount, mExcessiveCount, c); } } } else if (mSkipping) { // 3. Skip correction ++mSkippedCount; if (DEBUG_CORRECTION && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == mInputSize) && (MIN_OUTPUT_INDEX_FOR_DEBUG <= 0 || MIN_OUTPUT_INDEX_FOR_DEBUG < mOutputIndex)) { AKLOGI("SKIP: %d, %d, %d, %d, %c", mProximityCount, mSkippedCount, mTransposedCount, mExcessiveCount, c); } return processSkipChar(c, isTerminal, false); } else if (ADDITIONAL_PROXIMITY_CHAR == matchedProximityCharId) { // As a last resort, use additional proximity characters mProximityMatching = true; ++mProximityCount; mDistances[mOutputIndex] = ADDITIONAL_PROXIMITY_CHAR_DISTANCE_INFO; if (DEBUG_CORRECTION && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == mInputSize) && (MIN_OUTPUT_INDEX_FOR_DEBUG <= 0 || MIN_OUTPUT_INDEX_FOR_DEBUG < mOutputIndex)) { AKLOGI("ADDITIONALPROX: %d, %d, %d, %d, %c", mProximityCount, mSkippedCount, mTransposedCount, mExcessiveCount, c); } } else { if (DEBUG_CORRECTION && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == mInputSize) && (MIN_OUTPUT_INDEX_FOR_DEBUG <= 0 || MIN_OUTPUT_INDEX_FOR_DEBUG < mOutputIndex)) { DUMP_WORD(mWord, mOutputIndex); AKLOGI("UNRELATED(1): %d, %d, %d, %d, %c", mProximityCount, mSkippedCount, mTransposedCount, mExcessiveCount, c); } return processUnrelatedCorrectionType(); } } else if (secondTransposing) { // If inputIndex is greater than mInputSize, that means there is no // proximity chars. So, we don't need to check proximity. mMatching = true; } else if (isEquivalentChar(matchedProximityCharId)) { mMatching = true; ++mEquivalentCharCount; mDistances[mOutputIndex] = mProximityInfoState.getNormalizedSquaredDistance(mInputIndex, 0); } else if (PROXIMITY_CHAR == matchedProximityCharId) { mProximityMatching = true; ++mProximityCount; mDistances[mOutputIndex] = mProximityInfoState.getNormalizedSquaredDistance(mInputIndex, proximityIndex); if (DEBUG_CORRECTION && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == mInputSize) && (MIN_OUTPUT_INDEX_FOR_DEBUG <= 0 || MIN_OUTPUT_INDEX_FOR_DEBUG < mOutputIndex)) { AKLOGI("PROX: %d, %d, %d, %d, %c", mProximityCount, mSkippedCount, mTransposedCount, mExcessiveCount, c); } } addCharToCurrentWord(c); // 4. Last char excessive correction mLastCharExceeded = mExcessiveCount == 0 && mSkippedCount == 0 && mTransposedCount == 0 && mProximityCount == 0 && (mInputIndex == mInputSize - 2); const bool isSameAsUserTypedLength = (mInputSize == mInputIndex + 1) || mLastCharExceeded; if (mLastCharExceeded) { ++mExcessiveCount; } // Start traversing all nodes after the index exceeds the user typed length if (isSameAsUserTypedLength) { startToTraverseAllNodes(); } const bool needsToTryOnTerminalForTheLastPossibleExcessiveChar = mExceeding && mInputIndex == mInputSize - 2; // Finally, we are ready to go to the next character, the next "virtual node". // We should advance the input index. // We do this in this branch of the 'if traverseAllNodes' because we are still matching // characters to input; the other branch is not matching them but searching for // completions, this is why it does not have to do it. incrementInputIndex(); // Also, the next char is one "virtual node" depth more than this char. incrementOutputIndex(); if ((needsToTryOnTerminalForTheLastPossibleExcessiveChar || isSameAsUserTypedLength) && isTerminal) { mTerminalInputIndex = mInputIndex - 1; mTerminalOutputIndex = mOutputIndex - 1; if (DEBUG_CORRECTION && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == mInputSize) && (MIN_OUTPUT_INDEX_FOR_DEBUG <= 0 || MIN_OUTPUT_INDEX_FOR_DEBUG < mOutputIndex)) { DUMP_WORD(mWord, mOutputIndex); AKLOGI("ONTERMINAL(1): %d, %d, %d, %d, %c", mProximityCount, mSkippedCount, mTransposedCount, mExcessiveCount, c); } return ON_TERMINAL; } else { mTerminalInputIndex = mInputIndex - 1; mTerminalOutputIndex = mOutputIndex - 1; return NOT_ON_TERMINAL; } } inline static int getQuoteCount(const int *word, const int length) { int quoteCount = 0; for (int i = 0; i < length; ++i) { if (word[i] == KEYCODE_SINGLE_QUOTE) { ++quoteCount; } } return quoteCount; } inline static bool isUpperCase(unsigned short c) { return isAsciiUpper(toBaseCodePoint(c)); } ////////////////////// // RankingAlgorithm // ////////////////////// /* static */ int Correction::RankingAlgorithm::calculateFinalProbability(const int inputIndex, const int outputIndex, const int freq, int *editDistanceTable, const Correction *correction, const int inputSize) { const int excessivePos = correction->getExcessivePos(); const int typedLetterMultiplier = correction->TYPED_LETTER_MULTIPLIER; const int fullWordMultiplier = correction->FULL_WORD_MULTIPLIER; const ProximityInfoState *proximityInfoState = &correction->mProximityInfoState; const int skippedCount = correction->mSkippedCount; const int transposedCount = correction->mTransposedCount / 2; const int excessiveCount = correction->mExcessiveCount + correction->mTransposedCount % 2; const int proximityMatchedCount = correction->mProximityCount; const bool lastCharExceeded = correction->mLastCharExceeded; const bool useFullEditDistance = correction->mUseFullEditDistance; const int outputLength = outputIndex + 1; if (skippedCount >= inputSize || inputSize == 0) { return -1; } // TODO: find more robust way bool sameLength = lastCharExceeded ? (inputSize == inputIndex + 2) : (inputSize == inputIndex + 1); // TODO: use mExcessiveCount const int matchCount = inputSize - correction->mProximityCount - excessiveCount; const int *word = correction->mWord; const bool skipped = skippedCount > 0; const int quoteDiffCount = max(0, getQuoteCount(word, outputLength) - getQuoteCount(proximityInfoState->getPrimaryInputWord(), inputSize)); // TODO: Calculate edit distance for transposed and excessive int ed = 0; if (DEBUG_DICT_FULL) { dumpEditDistance10ForDebug(editDistanceTable, correction->mInputSize, outputLength); } int adjustedProximityMatchedCount = proximityMatchedCount; int finalFreq = freq; if (DEBUG_CORRECTION_FREQ && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == inputSize)) { AKLOGI("FinalFreq0: %d", finalFreq); } // TODO: Optimize this. if (transposedCount > 0 || proximityMatchedCount > 0 || skipped || excessiveCount > 0) { ed = getCurrentEditDistance(editDistanceTable, correction->mInputSize, outputLength, inputSize) - transposedCount; const int matchWeight = powerIntCapped(typedLetterMultiplier, max(inputSize, outputLength) - ed); multiplyIntCapped(matchWeight, &finalFreq); // TODO: Demote further if there are two or more excessive chars with longer user input? if (inputSize > outputLength) { multiplyRate(INPUT_EXCEEDS_OUTPUT_DEMOTION_RATE, &finalFreq); } ed = max(0, ed - quoteDiffCount); adjustedProximityMatchedCount = min(max(0, ed - (outputLength - inputSize)), proximityMatchedCount); if (transposedCount <= 0) { if (ed == 1 && (inputSize == outputLength - 1 || inputSize == outputLength + 1)) { // Promote a word with just one skipped or excessive char if (sameLength) { multiplyRate(WORDS_WITH_JUST_ONE_CORRECTION_PROMOTION_RATE + WORDS_WITH_JUST_ONE_CORRECTION_PROMOTION_MULTIPLIER * outputLength, &finalFreq); } else { multiplyIntCapped(typedLetterMultiplier, &finalFreq); } } else if (ed == 0) { multiplyIntCapped(typedLetterMultiplier, &finalFreq); sameLength = true; } } } else { const int matchWeight = powerIntCapped(typedLetterMultiplier, matchCount); multiplyIntCapped(matchWeight, &finalFreq); } if (proximityInfoState->getProximityType(0, word[0], true) == SUBSTITUTION_CHAR) { multiplyRate(FIRST_CHAR_DIFFERENT_DEMOTION_RATE, &finalFreq); } /////////////////////////////////////////////// // Promotion and Demotion for each correction // Demotion for a word with missing character if (skipped) { const int demotionRate = WORDS_WITH_MISSING_CHARACTER_DEMOTION_RATE * (10 * inputSize - WORDS_WITH_MISSING_CHARACTER_DEMOTION_START_POS_10X) / (10 * inputSize - WORDS_WITH_MISSING_CHARACTER_DEMOTION_START_POS_10X + 10); if (DEBUG_DICT_FULL) { AKLOGI("Demotion rate for missing character is %d.", demotionRate); } multiplyRate(demotionRate, &finalFreq); } // Demotion for a word with transposed character if (transposedCount > 0) multiplyRate( WORDS_WITH_TRANSPOSED_CHARACTERS_DEMOTION_RATE, &finalFreq); // Demotion for a word with excessive character if (excessiveCount > 0) { multiplyRate(WORDS_WITH_EXCESSIVE_CHARACTER_DEMOTION_RATE, &finalFreq); if (!lastCharExceeded && !proximityInfoState->existsAdjacentProximityChars(excessivePos)) { if (DEBUG_DICT_FULL) { AKLOGI("Double excessive demotion"); } // If an excessive character is not adjacent to the left char or the right char, // we will demote this word. multiplyRate(WORDS_WITH_EXCESSIVE_CHARACTER_OUT_OF_PROXIMITY_DEMOTION_RATE, &finalFreq); } } int additionalProximityCount = 0; // Demote additional proximity characters for (int i = 0; i < outputLength; ++i) { const int squaredDistance = correction->mDistances[i]; if (squaredDistance == ADDITIONAL_PROXIMITY_CHAR_DISTANCE_INFO) { ++additionalProximityCount; } } const bool performTouchPositionCorrection = CALIBRATE_SCORE_BY_TOUCH_COORDINATES && proximityInfoState->touchPositionCorrectionEnabled() && skippedCount == 0 && excessiveCount == 0 && transposedCount == 0 && additionalProximityCount == 0; // Score calibration by touch coordinates is being done only for pure-fat finger typing error // cases. // TODO: Remove this constraint. if (performTouchPositionCorrection) { for (int i = 0; i < outputLength; ++i) { const int squaredDistance = correction->mDistances[i]; if (i < adjustedProximityMatchedCount) { multiplyIntCapped(typedLetterMultiplier, &finalFreq); } const float factor = SuggestUtils::getLengthScalingFactor(static_cast<float>(squaredDistance)); if (factor > 0.0f) { multiplyRate(static_cast<int>(factor * 100.0f), &finalFreq); } else if (squaredDistance == PROXIMITY_CHAR_WITHOUT_DISTANCE_INFO) { multiplyRate(WORDS_WITH_PROXIMITY_CHARACTER_DEMOTION_RATE, &finalFreq); } } } else { // Promotion for a word with proximity characters for (int i = 0; i < adjustedProximityMatchedCount; ++i) { // A word with proximity corrections if (DEBUG_DICT_FULL) { AKLOGI("Found a proximity correction."); } multiplyIntCapped(typedLetterMultiplier, &finalFreq); if (i < additionalProximityCount) { multiplyRate(WORDS_WITH_ADDITIONAL_PROXIMITY_CHARACTER_DEMOTION_RATE, &finalFreq); } else { multiplyRate(WORDS_WITH_PROXIMITY_CHARACTER_DEMOTION_RATE, &finalFreq); } } } // If the user types too many(three or more) proximity characters with additional proximity // character,do not treat as the same length word. if (sameLength && additionalProximityCount > 0 && (adjustedProximityMatchedCount >= 3 || transposedCount > 0 || skipped || excessiveCount > 0)) { sameLength = false; } const int errorCount = adjustedProximityMatchedCount > 0 ? adjustedProximityMatchedCount : (proximityMatchedCount + transposedCount); multiplyRate( 100 - CORRECTION_COUNT_RATE_DEMOTION_RATE_BASE * errorCount / inputSize, &finalFreq); // Promotion for an exactly matched word if (ed == 0) { // Full exact match if (sameLength && transposedCount == 0 && !skipped && excessiveCount == 0 && quoteDiffCount == 0 && additionalProximityCount == 0) { finalFreq = capped255MultForFullMatchAccentsOrCapitalizationDifference(finalFreq); } } // Promote a word with no correction if (proximityMatchedCount == 0 && transposedCount == 0 && !skipped && excessiveCount == 0 && additionalProximityCount == 0) { multiplyRate(FULL_MATCHED_WORDS_PROMOTION_RATE, &finalFreq); } // TODO: Check excessive count and transposed count // TODO: Remove this if possible /* If the last character of the user input word is the same as the next character of the output word, and also all of characters of the user input are matched to the output word, we'll promote that word a bit because that word can be considered the combination of skipped and matched characters. This means that the 'sm' pattern wins over the 'ma' pattern. e.g.) shel -> shell [mmmma] or [mmmsm] hel -> hello [mmmaa] or [mmsma] m ... matching s ... skipping a ... traversing all t ... transposing e ... exceeding p ... proximity matching */ if (matchCount == inputSize && matchCount >= 2 && !skipped && word[matchCount] == word[matchCount - 1]) { multiplyRate(WORDS_WITH_MATCH_SKIP_PROMOTION_RATE, &finalFreq); } // TODO: Do not use sameLength? if (sameLength) { multiplyIntCapped(fullWordMultiplier, &finalFreq); } if (useFullEditDistance && outputLength > inputSize + 1) { const int diff = outputLength - inputSize - 1; const int divider = diff < 31 ? 1 << diff : S_INT_MAX; finalFreq = divider > finalFreq ? 1 : finalFreq / divider; } if (DEBUG_DICT_FULL) { AKLOGI("calc: %d, %d", outputLength, sameLength); } if (DEBUG_CORRECTION_FREQ && (INPUTLENGTH_FOR_DEBUG <= 0 || INPUTLENGTH_FOR_DEBUG == inputSize)) { DUMP_WORD(correction->getPrimaryInputWord(), inputSize); DUMP_WORD(correction->mWord, outputLength); AKLOGI("FinalFreq: [P%d, S%d, T%d, E%d, A%d] %d, %d, %d, %d, %d, %d", proximityMatchedCount, skippedCount, transposedCount, excessiveCount, additionalProximityCount, outputLength, lastCharExceeded, sameLength, quoteDiffCount, ed, finalFreq); } return finalFreq; } /* static */ int Correction::RankingAlgorithm::calcFreqForSplitMultipleWords(const int *freqArray, const int *wordLengthArray, const int wordCount, const Correction *correction, const bool isSpaceProximity, const int *word) { const int typedLetterMultiplier = correction->TYPED_LETTER_MULTIPLIER; bool firstCapitalizedWordDemotion = false; bool secondCapitalizedWordDemotion = false; { // TODO: Handle multiple capitalized word demotion properly const int firstWordLength = wordLengthArray[0]; const int secondWordLength = wordLengthArray[1]; if (firstWordLength >= 2) { firstCapitalizedWordDemotion = isUpperCase(word[0]); } if (secondWordLength >= 2) { // FIXME: word[firstWordLength + 1] is incorrect. secondCapitalizedWordDemotion = isUpperCase(word[firstWordLength + 1]); } } const bool capitalizedWordDemotion = firstCapitalizedWordDemotion ^ secondCapitalizedWordDemotion; int totalLength = 0; int totalFreq = 0; for (int i = 0; i < wordCount; ++i) { const int wordLength = wordLengthArray[i]; if (wordLength <= 0) { return 0; } totalLength += wordLength; const int demotionRate = 100 - TWO_WORDS_CORRECTION_DEMOTION_BASE / (wordLength + 1); int tempFirstFreq = freqArray[i]; multiplyRate(demotionRate, &tempFirstFreq); totalFreq += tempFirstFreq; } if (totalLength <= 0 || totalFreq <= 0) { return 0; } // TODO: Currently totalFreq is adjusted to two word metrix. // Promote pairFreq with multiplying by 2, because the word length is the same as the typed // length. totalFreq = totalFreq * 2 / wordCount; if (wordCount > 2) { // Safety net for 3+ words -- Caveats: many heuristics and workarounds here. int oneLengthCounter = 0; int twoLengthCounter = 0; for (int i = 0; i < wordCount; ++i) { const int wordLength = wordLengthArray[i]; // TODO: Use bigram instead of this safety net if (i < wordCount - 1) { const int nextWordLength = wordLengthArray[i + 1]; if (wordLength == 1 && nextWordLength == 2) { // Safety net to filter 1 length and 2 length sequential words return 0; } } const int freq = freqArray[i]; // Demote too short weak words if (wordLength <= 4 && freq <= SUPPRESS_SHORT_MULTIPLE_WORDS_THRESHOLD_FREQ) { multiplyRate(100 * freq / MAX_PROBABILITY, &totalFreq); } if (wordLength == 1) { ++oneLengthCounter; } else if (wordLength == 2) { ++twoLengthCounter; } if (oneLengthCounter >= 2 || (oneLengthCounter + twoLengthCounter) >= 4) { // Safety net to filter too many short words return 0; } } multiplyRate(MULTIPLE_WORDS_DEMOTION_RATE, &totalFreq); } // This is a workaround to try offsetting the not-enough-demotion which will be done in // calcNormalizedScore in Utils.java. // In calcNormalizedScore the score will be demoted by (1 - 1 / length) // but we demoted only (1 - 1 / (length + 1)) so we will additionally adjust freq by // (1 - 1 / length) / (1 - 1 / (length + 1)) = (1 - 1 / (length * length)) const int normalizedScoreNotEnoughDemotionAdjustment = 100 - 100 / (totalLength * totalLength); multiplyRate(normalizedScoreNotEnoughDemotionAdjustment, &totalFreq); // At this moment, totalFreq is calculated by the following formula: // (firstFreq * (1 - 1 / (firstWordLength + 1)) + secondFreq * (1 - 1 / (secondWordLength + 1))) // * (1 - 1 / totalLength) / (1 - 1 / (totalLength + 1)) multiplyIntCapped(powerIntCapped(typedLetterMultiplier, totalLength), &totalFreq); // This is another workaround to offset the demotion which will be done in // calcNormalizedScore in Utils.java. // In calcNormalizedScore the score will be demoted by (1 - 1 / length) so we have to promote // the same amount because we already have adjusted the synthetic freq of this "missing or // mistyped space" suggestion candidate above in this method. const int normalizedScoreDemotionRateOffset = (100 + 100 / totalLength); multiplyRate(normalizedScoreDemotionRateOffset, &totalFreq); if (isSpaceProximity) { // A word pair with one space proximity correction if (DEBUG_DICT) { AKLOGI("Found a word pair with space proximity correction."); } multiplyIntCapped(typedLetterMultiplier, &totalFreq); multiplyRate(WORDS_WITH_PROXIMITY_CHARACTER_DEMOTION_RATE, &totalFreq); } if (isSpaceProximity) { multiplyRate(WORDS_WITH_MISTYPED_SPACE_DEMOTION_RATE, &totalFreq); } else { multiplyRate(WORDS_WITH_MISSING_SPACE_CHARACTER_DEMOTION_RATE, &totalFreq); } if (capitalizedWordDemotion) { multiplyRate(TWO_WORDS_CAPITALIZED_DEMOTION_RATE, &totalFreq); } if (DEBUG_CORRECTION_FREQ) { AKLOGI("Multiple words (%d, %d) (%d, %d) %d, %d", freqArray[0], freqArray[1], wordLengthArray[0], wordLengthArray[1], capitalizedWordDemotion, totalFreq); DUMP_WORD(word, wordLengthArray[0]); } return totalFreq; } /* static */ int Correction::RankingAlgorithm::editDistance(const int *before, const int beforeLength, const int *after, const int afterLength) { const DamerauLevenshteinEditDistancePolicy daemaruLevenshtein( before, beforeLength, after, afterLength); return static_cast<int>(EditDistance::getEditDistance(&daemaruLevenshtein)); } // In dictionary.cpp, getSuggestion() method, // When USE_SUGGEST_INTERFACE_FOR_TYPING is true: // SUGGEST_INTERFACE_OUTPUT_SCALE was multiplied to the original suggestion scores to convert // them to integers. // score = (int)((original score) * SUGGEST_INTERFACE_OUTPUT_SCALE) // Undo the scaling here to recover the original score. // normalizedScore = ((float)score) / SUGGEST_INTERFACE_OUTPUT_SCALE // Otherwise: suggestion scores are computed using the below formula. // original score // := powf(mTypedLetterMultiplier (this is defined 2), // (the number of matched characters between typed word and suggested word)) // * (individual word's score which defined in the unigram dictionary, // and this score is defined in range [0, 255].) // Then, the following processing is applied. // - If the dictionary word is matched up to the point of the user entry // (full match up to min(before.length(), after.length()) // => Then multiply by FULL_MATCHED_WORDS_PROMOTION_RATE (this is defined 1.2) // - If the word is a true full match except for differences in accents or // capitalization, then treat it as if the score was 255. // - If before.length() == after.length() // => multiply by mFullWordMultiplier (this is defined 2)) // So, maximum original score is powf(2, min(before.length(), after.length())) * 255 * 2 * 1.2 // For historical reasons we ignore the 1.2 modifier (because the measure for a good // autocorrection threshold was done at a time when it didn't exist). This doesn't change // the result. // So, we can normalize original score by dividing powf(2, min(b.l(),a.l())) * 255 * 2. /* static */ float Correction::RankingAlgorithm::calcNormalizedScore(const int *before, const int beforeLength, const int *after, const int afterLength, const int score) { if (0 == beforeLength || 0 == afterLength) { return 0.0f; } const int distance = editDistance(before, beforeLength, after, afterLength); int spaceCount = 0; for (int i = 0; i < afterLength; ++i) { if (after[i] == KEYCODE_SPACE) { ++spaceCount; } } if (spaceCount == afterLength) { return 0.0f; } // add a weight based on edit distance. // distance <= max(afterLength, beforeLength) == afterLength, // so, 0 <= distance / afterLength <= 1 const float weight = 1.0f - static_cast<float>(distance) / static_cast<float>(afterLength); if (USE_SUGGEST_INTERFACE_FOR_TYPING) { return (static_cast<float>(score) / SUGGEST_INTERFACE_OUTPUT_SCALE) * weight; } const float maxScore = score >= S_INT_MAX ? static_cast<float>(S_INT_MAX) : static_cast<float>(MAX_INITIAL_SCORE) * powf(static_cast<float>(TYPED_LETTER_MULTIPLIER), static_cast<float>(min(beforeLength, afterLength - spaceCount))) * static_cast<float>(FULL_WORD_MULTIPLIER); return (static_cast<float>(score) / maxScore) * weight; } } // namespace latinime
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/*! UIkit 3.6.4 | https://www.getuikit.com | (c) 2014 - 2020 YOOtheme | MIT License */ (function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory(require('uikit-util')) : typeof define === 'function' && define.amd ? define('uikitnotification', ['uikit-util'], factory) : (global = typeof globalThis !== 'undefined' ? globalThis : global || self, global.UIkitNotification = factory(global.UIkit.util)); }(this, (function (uikitUtil) { 'use strict'; var obj; var Component = { functional: true, args: ['message', 'status'], data: { message: '', status: '', timeout: 5000, group: null, pos: 'top-center', clsContainer: 'uk-notification', clsClose: 'uk-notification-close', clsMsg: 'uk-notification-message' }, install: install, computed: { marginProp: function(ref) { var pos = ref.pos; return ("margin" + (uikitUtil.startsWith(pos, 'top') ? 'Top' : 'Bottom')); }, startProps: function() { var obj; return ( obj = {opacity: 0}, obj[this.marginProp] = -this.$el.offsetHeight, obj ); } }, created: function() { var container = uikitUtil.$(("." + (this.clsContainer) + "-" + (this.pos)), this.$container) || uikitUtil.append(this.$container, ("<div class=\"" + (this.clsContainer) + " " + (this.clsContainer) + "-" + (this.pos) + "\" style=\"display: block\"></div>")); this.$mount(uikitUtil.append(container, ("<div class=\"" + (this.clsMsg) + (this.status ? (" " + (this.clsMsg) + "-" + (this.status)) : '') + "\"> <a href class=\"" + (this.clsClose) + "\" data-uk-close></a> <div>" + (this.message) + "</div> </div>") )); }, connected: function() { var this$1 = this; var obj; var margin = uikitUtil.toFloat(uikitUtil.css(this.$el, this.marginProp)); uikitUtil.Transition.start( uikitUtil.css(this.$el, this.startProps), ( obj = {opacity: 1}, obj[this.marginProp] = margin, obj ) ).then(function () { if (this$1.timeout) { this$1.timer = setTimeout(this$1.close, this$1.timeout); } }); }, events: ( obj = { click: function(e) { if (uikitUtil.closest(e.target, 'a[href="#"],a[href=""]')) { e.preventDefault(); } this.close(); } }, obj[uikitUtil.pointerEnter] = function () { if (this.timer) { clearTimeout(this.timer); } }, obj[uikitUtil.pointerLeave] = function () { if (this.timeout) { this.timer = setTimeout(this.close, this.timeout); } }, obj ), methods: { close: function(immediate) { var this$1 = this; var removeFn = function (el) { var container = uikitUtil.parent(el); uikitUtil.trigger(el, 'close', [this$1]); uikitUtil.remove(el); if (container && !container.hasChildNodes()) { uikitUtil.remove(container); } }; if (this.timer) { clearTimeout(this.timer); } if (immediate) { removeFn(this.$el); } else { uikitUtil.Transition.start(this.$el, this.startProps).then(removeFn); } } } }; function install(UIkit) { UIkit.notification.closeAll = function (group, immediate) { uikitUtil.apply(document.body, function (el) { var notification = UIkit.getComponent(el, 'notification'); if (notification && (!group || group === notification.group)) { notification.close(immediate); } }); }; } if (typeof window !== 'undefined' && window.UIkit) { window.UIkit.component('notification', Component); } return Component; })));
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<?xml version="1.0" encoding="utf-8"?> <resources> <color name="theme_green_light">@android:color/holo_green_light</color> <color name="theme_green_dark">@android:color/holo_green_dark</color> </resources>
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{% load staticfiles i18n %}<!DOCTYPE html> <html lang="en"> <head> <meta charset="utf-8"> <meta http-equiv="x-ua-compatible" content="ie=edge"> <title>{% block title %}trumptweets{% endblock title %}</title> <meta name="viewport" content="width=device-width, initial-scale=1.0"> <meta name="description" content=""> <meta name="author" content=""> <!-- HTML5 shim, for IE6-8 support of HTML5 elements --> <!--[if lt IE 9]> <script src="https://html5shim.googlecode.com/svn/trunk/html5.js"></script> <![endif]--> {% block css %} <!-- Latest compiled and minified Bootstrap 4 Alpha 4 CSS --> <link rel="stylesheet" href="https://maxcdn.bootstrapcdn.com/bootstrap/4.0.0-alpha.4/css/bootstrap.min.css" integrity="sha384-2hfp1SzUoho7/TsGGGDaFdsuuDL0LX2hnUp6VkX3CUQ2K4K+xjboZdsXyp4oUHZj" crossorigin="anonymous"> <!-- Your stuff: Third-party CSS libraries go here --> <!-- This file stores project-specific CSS --> <link href="{% static 'css/project.css' %}" rel="stylesheet"> {% endblock %} </head> <body> <div class="m-b-1"> <nav class="navbar navbar-dark navbar-static-top bg-inverse"> <div class="container"> <a class="navbar-brand" href="/">trumptweets</a> <button type="button" class="navbar-toggler hidden-sm-up pull-xs-right" data-toggle="collapse" data-target="#bs-navbar-collapse-1"> &#9776; </button> <!-- Collect the nav links, forms, and other content for toggling --> <div class="collapse navbar-toggleable-xs" id="bs-navbar-collapse-1"> <ul class="nav navbar-nav"> <li class="nav-item"> <a class="nav-link" href="{% url 'home' %}">Home</a> </li> <li class="nav-item"> <a class="nav-link" href="{% url 'about' %}">About</a> </li> </ul> <ul class="nav navbar-nav pull-xs-right"> {% if request.user.is_authenticated %} <li class="nav-item"> <a class="nav-link" href="{% url 'users:detail' request.user.username %}">{% trans "My Profile" %}</a> </li> <li class="nav-item"> <a class="nav-link" href="{% url 'account_logout' %}">{% trans "Sign Out" %}</a> </li> {% else %} <li class="nav-item"> <a id="sign-up-link" class="nav-link" href="{% url 'account_signup' %}">{% trans "Sign Up" %}</a> </li> <li class="nav-item"> <a id="log-in-link" class="nav-link" href="{% url 'account_login' %}">{% trans "Sign In" %}</a> </li> {% endif %} </ul> </div> </div> </nav> </div> <div class="container"> {% if messages %} {% for message in messages %} <div class="alert {% if message.tags %}alert-{{ message.tags }}{% endif %}">{{ message }}</div> {% endfor %} {% endif %} {% block content %} <p>Use this document as a way to quick start any new project.</p> {% endblock content %} </div> <!-- /container --> {% block modal %}{% endblock modal %} <!-- Le javascript ================================================== --> <!-- Placed at the end of the document so the pages load faster --> {% block javascript %} <!-- Required by Bootstrap v4 Alpha 4 --> <script src="https://ajax.googleapis.com/ajax/libs/jquery/3.1.1/jquery.min.js" integrity="sha384-3ceskX3iaEnIogmQchP8opvBy3Mi7Ce34nWjpBIwVTHfGYWQS9jwHDVRnpKKHJg7" crossorigin="anonymous"></script> <script src="https://cdnjs.cloudflare.com/ajax/libs/tether/1.3.7/js/tether.min.js" integrity="sha384-XTs3FgkjiBgo8qjEjBk0tGmf3wPrWtA6coPfQDfFEY8AnYJwjalXCiosYRBIBZX8" crossorigin="anonymous"></script> <script src="https://maxcdn.bootstrapcdn.com/bootstrap/4.0.0-alpha.4/js/bootstrap.min.js" integrity="sha384-VjEeINv9OSwtWFLAtmc4JCtEJXXBub00gtSnszmspDLCtC0I4z4nqz7rEFbIZLLU" crossorigin="anonymous"></script> <!-- Your stuff: Third-party javascript libraries go here --> <!-- place project specific Javascript in this file --> <script src="{% static 'js/project.js' %}"></script> {% endblock javascript %} </body> </html>
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<?xml version="1.0" encoding="utf-8"?> <LinearLayout xmlns:android="http://schemas.android.com/apk/res/android" xmlns:tools="http://schemas.android.com/tools" android:layout_width="match_parent" android:layout_height="match_parent" android:padding="20dp" android:orientation="vertical" android:gravity="center" android:background="@color/black" tools:context="com.codegy.aerlink.cameraremote.CameraRemoteActivity" tools:deviceIds="wear_square"> <TextView android:id="@+id/infoTextView" android:paddingLeft="12dp" android:paddingRight="12dp" android:paddingTop="12dp" android:paddingBottom="12dp" android:layout_width="match_parent" android:layout_height="match_parent" android:gravity="center" android:textSize="15sp" tools:text="Test info" android:visibility="gone"/> <RelativeLayout android:id="@+id/shutterRelativeLayout" android:layout_width="match_parent" android:layout_height="match_parent" android:padding="20dp" android:background="@drawable/button_shutter_back" android:clickable="true"> <ImageView android:layout_width="match_parent" android:layout_height="match_parent" android:src="@drawable/button_shutter_front" android:clickable="false"/> <ImageView android:id="@+id/shutterImageView" android:layout_width="match_parent" android:layout_height="match_parent" android:src="@drawable/ic_shutter" android:clickable="false" android:scaleType="center"/> <TextView android:id="@+id/countdownTextView" android:layout_width="match_parent" android:layout_height="match_parent" android:gravity="center" android:clickable="false" android:textSize="60sp" android:fontFamily="sans-serif-condensed-light" android:textColor="@color/white" android:text="3" android:visibility="gone"/> </RelativeLayout> </LinearLayout>
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require 'test_helper' class DeletedTokenhistoryTest < ActiveSupport::TestCase # test "the truth" do # assert true # end end
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from __future__ import unicode_literals from __future__ import print_function from __future__ import division from __future__ import absolute_import from future import standard_library standard_library.install_aliases() import unittest from mriapp.process import DummyProcess class TestDummyFile(unittest.TestCase): def setUp(self): pass def tearDown(self): pass def test_dummy_file(self): count = 0 process = DummyProcess(None, None, None) while process.alive: count += 1 self.assertEqual(count, 100) if __name__ == '__main__': unittest.main()
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<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd"> <html xmlns="http://www.w3.org/1999/xhtml"> <head> <meta http-equiv="X-UA-Compatible" content="IE=Edge" /> <meta http-equiv="Content-Type" content="text/html; charset=utf-8" /> <title>pandas.Panel &#8212; pandas 0.24.0.dev0+81.g8d5032a8c.dirty documentation</title> <link rel="stylesheet" href="../_static/nature.css" type="text/css" /> <link rel="stylesheet" href="../_static/pygments.css" type="text/css" /> <script type="text/javascript" id="documentation_options" data-url_root="../" src="../_static/documentation_options.js"></script> <script type="text/javascript" src="../_static/jquery.js"></script> <script type="text/javascript" src="../_static/underscore.js"></script> <script type="text/javascript" src="../_static/doctools.js"></script> <script type="text/javascript" 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nav-item-0"><a href="../index.html">pandas 0.24.0.dev0+81.g8d5032a8c.dirty documentation</a> &#187;</li> <li class="nav-item nav-item-1"><a href="../api.html" accesskey="U">API Reference</a> &#187;</li> </ul> </div> <div class="content-wrapper"> <div class="content"> <div class="document"> <div class="sphinxsidebar"> <h3>Table Of Contents</h3> <ul class="current"> <li class="toctree-l1"><a class="reference internal" href="../whatsnew.html">What’s New</a></li> <li class="toctree-l1"><a class="reference internal" href="../install.html">Installation</a></li> <li class="toctree-l1"><a class="reference internal" href="../contributing.html">Contributing to pandas</a></li> <li class="toctree-l1"><a class="reference internal" href="../overview.html">Package overview</a></li> <li class="toctree-l1"><a class="reference internal" href="../10min.html">10 Minutes to pandas</a></li> <li class="toctree-l1"><a class="reference internal" href="../tutorials.html">Tutorials</a></li> <li class="toctree-l1"><a class="reference internal" href="../cookbook.html">Cookbook</a></li> <li class="toctree-l1"><a class="reference internal" href="../dsintro.html">Intro to Data Structures</a></li> <li class="toctree-l1"><a class="reference internal" href="../basics.html">Essential Basic Functionality</a></li> <li class="toctree-l1"><a class="reference internal" href="../text.html">Working with Text Data</a></li> <li class="toctree-l1"><a class="reference internal" href="../options.html">Options and Settings</a></li> <li class="toctree-l1"><a class="reference internal" href="../indexing.html">Indexing and Selecting Data</a></li> <li class="toctree-l1"><a class="reference internal" href="../advanced.html">MultiIndex / Advanced Indexing</a></li> <li class="toctree-l1"><a class="reference internal" href="../computation.html">Computational tools</a></li> <li class="toctree-l1"><a class="reference internal" href="../missing_data.html">Working with missing data</a></li> <li class="toctree-l1"><a class="reference internal" href="../groupby.html">Group By: split-apply-combine</a></li> <li class="toctree-l1"><a class="reference internal" href="../merging.html">Merge, join, and concatenate</a></li> <li class="toctree-l1"><a class="reference internal" href="../reshaping.html">Reshaping and Pivot Tables</a></li> <li class="toctree-l1"><a class="reference internal" href="../timeseries.html">Time Series / Date functionality</a></li> <li class="toctree-l1"><a class="reference internal" href="../timedeltas.html">Time Deltas</a></li> <li class="toctree-l1"><a class="reference internal" href="../categorical.html">Categorical Data</a></li> <li class="toctree-l1"><a class="reference internal" href="../visualization.html">Visualization</a></li> <li class="toctree-l1"><a class="reference internal" href="../style.html">Styling</a></li> <li class="toctree-l1"><a class="reference internal" href="../io.html">IO Tools (Text, CSV, HDF5, …)</a></li> <li class="toctree-l1"><a class="reference internal" href="../enhancingperf.html">Enhancing Performance</a></li> <li class="toctree-l1"><a class="reference internal" href="../sparse.html">Sparse data structures</a></li> <li class="toctree-l1"><a class="reference internal" href="../gotchas.html">Frequently Asked Questions (FAQ)</a></li> <li class="toctree-l1"><a class="reference internal" href="../r_interface.html">rpy2 / R interface</a></li> <li class="toctree-l1"><a class="reference internal" href="../ecosystem.html">pandas Ecosystem</a></li> <li class="toctree-l1"><a class="reference internal" href="../comparison_with_r.html">Comparison with R / R libraries</a></li> <li class="toctree-l1"><a class="reference internal" href="../comparison_with_sql.html">Comparison with SQL</a></li> <li class="toctree-l1"><a class="reference internal" href="../comparison_with_sas.html">Comparison with SAS</a></li> <li class="toctree-l1"><a class="reference internal" href="../comparison_with_stata.html">Comparison with Stata</a></li> <li class="toctree-l1 current"><a class="reference internal" href="../api.html">API Reference</a><ul class="current"> <li class="toctree-l2"><a class="reference internal" href="../api.html#input-output">Input/Output</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#general-functions">General functions</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#series">Series</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#dataframe">DataFrame</a></li> <li class="toctree-l2 current"><a class="reference internal" href="../api.html#panel">Panel</a><ul class="current"> <li class="toctree-l3 current"><a class="reference internal" href="../api.html#id14">Constructor</a><ul class="current"> <li class="toctree-l4 current"><a class="current reference internal" href="#">pandas.Panel</a></li> </ul> </li> <li class="toctree-l3"><a class="reference internal" href="../api.html#id15">Attributes and underlying data</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#id16">Conversion</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#getting-and-setting">Getting and setting</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#indexing-iteration-slicing">Indexing, iteration, slicing</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#id17">Binary operator functions</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#function-application-groupby">Function application, GroupBy</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#api-panel-stats">Computations / Descriptive Stats</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#id19">Reindexing / Selection / Label manipulation</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#id20">Missing data handling</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#id21">Reshaping, sorting, transposing</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#id22">Combining / joining / merging</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#id23">Time series-related</a></li> <li class="toctree-l3"><a class="reference internal" href="../api.html#id24">Serialization / IO / Conversion</a></li> </ul> </li> <li class="toctree-l2"><a class="reference internal" href="../api.html#index">Index</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#numeric-index">Numeric Index</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#categoricalindex">CategoricalIndex</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#intervalindex">IntervalIndex</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#multiindex">MultiIndex</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#datetimeindex">DatetimeIndex</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#timedeltaindex">TimedeltaIndex</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#periodindex">PeriodIndex</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#scalars">Scalars</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#frequencies">Frequencies</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#window">Window</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#groupby">GroupBy</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#resampling">Resampling</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#style">Style</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#id43">Plotting</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#general-utility-functions">General utility functions</a></li> <li class="toctree-l2"><a class="reference internal" href="../api.html#extensions">Extensions</a></li> </ul> </li> <li class="toctree-l1"><a class="reference internal" href="../developer.html">Developer</a></li> <li class="toctree-l1"><a class="reference internal" href="../internals.html">Internals</a></li> <li class="toctree-l1"><a class="reference internal" href="../extending.html">Extending Pandas</a></li> <li class="toctree-l1"><a class="reference internal" href="../release.html">Release Notes</a></li> </ul> <h3 style="margin-top: 1.5em;">Search</h3> <form class="search" action="../search.html" method="get"> <input type="text" name="q" size="18"/> <input type="submit" value="Go"/> <input type="hidden" name="check_keywords" value="yes"/> <input type="hidden" name="area" value="default"/> </form> <p class="searchtip" style="font-size: 90%"> Enter search terms or a module, class or function name. </p> </div> <div class="documentwrapper"> <div class="bodywrapper"> <div class="body"> <div class="section" id="pandas-panel"> <h1>pandas.Panel<a class="headerlink" href="#pandas-panel" title="Permalink to this headline">¶</a></h1> <dl class="class"> <dt id="pandas.Panel"> <em class="property">class </em><code class="descclassname">pandas.</code><code class="descname">Panel</code><span class="sig-paren">(</span><em>data=None</em>, <em>items=None</em>, <em>major_axis=None</em>, <em>minor_axis=None</em>, <em>copy=False</em>, <em>dtype=None</em><span class="sig-paren">)</span><a class="reference external" href="http://github.com/pandas-dev/pandas/blob/master/pandas/core/panel.py#L107-L1523"><span class="viewcode-link">[source]</span></a><a class="headerlink" href="#pandas.Panel" title="Permalink to this definition">¶</a></dt> <dd><blockquote> <div>Represents wide format panel data, stored as 3-dimensional array</div></blockquote> <div class="deprecated"> <p><span class="versionmodified">Deprecated since version 0.20.0: </span>The recommended way to represent 3-D data are with a MultiIndex on a DataFrame via the <a class="reference internal" href="pandas.Panel.to_frame.html#pandas.Panel.to_frame" title="pandas.Panel.to_frame"><code class="xref py py-attr docutils literal notranslate"><span class="pre">to_frame()</span></code></a> method or with the <a class="reference external" href="http://xarray.pydata.org/en/stable/">xarray package</a>. Pandas provides a <a class="reference internal" href="pandas.Panel.to_xarray.html#pandas.Panel.to_xarray" title="pandas.Panel.to_xarray"><code class="xref py py-attr docutils literal notranslate"><span class="pre">to_xarray()</span></code></a> method to automate this conversion.</p> </div> <table class="docutils field-list" frame="void" rules="none"> <col class="field-name" /> <col class="field-body" /> <tbody valign="top"> <tr class="field-odd field"><th class="field-name">Parameters:</th><td class="field-body"><p class="first"><strong>data</strong> : ndarray (items x major x minor), or dict of DataFrames</p> <blockquote class="last"> <div><dl class="docutils"> <dt>items <span class="classifier-delimiter">:</span> <span class="classifier">Index or array-like</span></dt> <dd><p class="first last">axis=0</p> </dd> <dt>major_axis <span class="classifier-delimiter">:</span> <span class="classifier">Index or array-like</span></dt> <dd><p class="first last">axis=1</p> </dd> <dt>minor_axis <span class="classifier-delimiter">:</span> <span class="classifier">Index or array-like</span></dt> <dd><p class="first last">axis=2</p> </dd> <dt>dtype <span class="classifier-delimiter">:</span> <span class="classifier">dtype, default None</span></dt> <dd><p class="first last">Data type to force, otherwise infer</p> </dd> <dt>copy <span class="classifier-delimiter">:</span> <span class="classifier">boolean, default False</span></dt> <dd><p class="first last">Copy data from inputs. Only affects DataFrame / 2d ndarray input</p> </dd> </dl> </div></blockquote> </td> </tr> </tbody> </table> <p class="rubric">Attributes</p> <table border="1" class="longtable docutils"> <colgroup> <col width="10%" /> <col width="90%" /> </colgroup> <tbody valign="top"> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.at.html#pandas.Panel.at" title="pandas.Panel.at"><code class="xref py py-obj docutils literal notranslate"><span class="pre">at</span></code></a></td> <td>Access a single value for a row/column label pair.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.axes.html#pandas.Panel.axes" title="pandas.Panel.axes"><code class="xref py py-obj docutils literal notranslate"><span class="pre">axes</span></code></a></td> <td>Return index label(s) of the internal NDFrame</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.blocks.html#pandas.Panel.blocks" title="pandas.Panel.blocks"><code class="xref py py-obj docutils literal notranslate"><span class="pre">blocks</span></code></a></td> <td>(DEPRECATED) Internal property, property synonym for as_blocks()</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.dtypes.html#pandas.Panel.dtypes" title="pandas.Panel.dtypes"><code class="xref py py-obj docutils literal notranslate"><span class="pre">dtypes</span></code></a></td> <td>Return the dtypes in the DataFrame.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.empty.html#pandas.Panel.empty" title="pandas.Panel.empty"><code class="xref py py-obj docutils literal notranslate"><span class="pre">empty</span></code></a></td> <td>Indicator whether DataFrame is empty.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.ftypes.html#pandas.Panel.ftypes" title="pandas.Panel.ftypes"><code class="xref py py-obj docutils literal notranslate"><span class="pre">ftypes</span></code></a></td> <td>Return the ftypes (indication of sparse/dense and dtype) in DataFrame.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.iat.html#pandas.Panel.iat" title="pandas.Panel.iat"><code class="xref py py-obj docutils literal notranslate"><span class="pre">iat</span></code></a></td> <td>Access a single value for a row/column pair by integer position.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.iloc.html#pandas.Panel.iloc" title="pandas.Panel.iloc"><code class="xref py py-obj docutils literal notranslate"><span class="pre">iloc</span></code></a></td> <td>Purely integer-location based indexing for selection by position.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.items.html#pandas.Panel.items" title="pandas.Panel.items"><code class="xref py py-obj docutils literal notranslate"><span class="pre">items</span></code></a></td> <td></td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.ix.html#pandas.Panel.ix" title="pandas.Panel.ix"><code class="xref py py-obj docutils literal notranslate"><span class="pre">ix</span></code></a></td> <td>A primarily label-location based indexer, with integer position fallback.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.loc.html#pandas.Panel.loc" title="pandas.Panel.loc"><code class="xref py py-obj docutils literal notranslate"><span class="pre">loc</span></code></a></td> <td>Access a group of rows and columns by label(s) or a boolean array.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.major_axis.html#pandas.Panel.major_axis" title="pandas.Panel.major_axis"><code class="xref py py-obj docutils literal notranslate"><span class="pre">major_axis</span></code></a></td> <td></td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.minor_axis.html#pandas.Panel.minor_axis" title="pandas.Panel.minor_axis"><code class="xref py py-obj docutils literal notranslate"><span class="pre">minor_axis</span></code></a></td> <td></td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.ndim.html#pandas.Panel.ndim" title="pandas.Panel.ndim"><code class="xref py py-obj docutils literal notranslate"><span class="pre">ndim</span></code></a></td> <td>Return an int representing the number of axes / array dimensions.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.shape.html#pandas.Panel.shape" title="pandas.Panel.shape"><code class="xref py py-obj docutils literal notranslate"><span class="pre">shape</span></code></a></td> <td>Return a tuple of axis dimensions</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.size.html#pandas.Panel.size" title="pandas.Panel.size"><code class="xref py py-obj docutils literal notranslate"><span class="pre">size</span></code></a></td> <td>Return an int representing the number of elements in this object.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.values.html#pandas.Panel.values" title="pandas.Panel.values"><code class="xref py py-obj docutils literal notranslate"><span class="pre">values</span></code></a></td> <td>Return a Numpy representation of the DataFrame.</td> </tr> </tbody> </table> <table border="1" class="docutils"> <colgroup> <col width="52%" /> <col width="48%" /> </colgroup> <tbody valign="top"> <tr class="row-odd"><td><strong>is_copy</strong></td> <td>&#160;</td> </tr> </tbody> </table> <p class="rubric">Methods</p> <table border="1" class="longtable docutils"> <colgroup> <col width="10%" /> <col width="90%" /> </colgroup> <tbody valign="top"> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.abs.html#pandas.Panel.abs" title="pandas.Panel.abs"><code class="xref py py-obj docutils literal notranslate"><span class="pre">abs</span></code></a>()</td> <td>Return a Series/DataFrame with absolute numeric value of each element.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.add.html#pandas.Panel.add" title="pandas.Panel.add"><code class="xref py py-obj docutils literal notranslate"><span class="pre">add</span></code></a>(other[,&nbsp;axis])</td> <td>Addition of series and other, element-wise (binary operator <cite>add</cite>).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.add_prefix.html#pandas.Panel.add_prefix" title="pandas.Panel.add_prefix"><code class="xref py py-obj docutils literal notranslate"><span class="pre">add_prefix</span></code></a>(prefix)</td> <td>Prefix labels with string <cite>prefix</cite>.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.add_suffix.html#pandas.Panel.add_suffix" title="pandas.Panel.add_suffix"><code class="xref py py-obj docutils literal notranslate"><span class="pre">add_suffix</span></code></a>(suffix)</td> <td>Suffix labels with string <cite>suffix</cite>.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.align.html#pandas.Panel.align" title="pandas.Panel.align"><code class="xref py py-obj docutils literal notranslate"><span class="pre">align</span></code></a>(other,&nbsp;**kwargs)</td> <td>Align two objects on their axes with the specified join method for each axis Index</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.all.html#pandas.Panel.all" title="pandas.Panel.all"><code class="xref py py-obj docutils literal notranslate"><span class="pre">all</span></code></a>([axis,&nbsp;bool_only,&nbsp;skipna,&nbsp;level])</td> <td>Return whether all elements are True over series or dataframe axis.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.any.html#pandas.Panel.any" title="pandas.Panel.any"><code class="xref py py-obj docutils literal notranslate"><span class="pre">any</span></code></a>([axis,&nbsp;bool_only,&nbsp;skipna,&nbsp;level])</td> <td>Return whether any element is True over requested axis.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.apply.html#pandas.Panel.apply" title="pandas.Panel.apply"><code class="xref py py-obj docutils literal notranslate"><span class="pre">apply</span></code></a>(func[,&nbsp;axis])</td> <td>Applies function along axis (or axes) of the Panel</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.as_blocks.html#pandas.Panel.as_blocks" title="pandas.Panel.as_blocks"><code class="xref py py-obj docutils literal notranslate"><span class="pre">as_blocks</span></code></a>([copy])</td> <td>(DEPRECATED) Convert the frame to a dict of dtype -&gt; Constructor Types that each has a homogeneous dtype.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.as_matrix.html#pandas.Panel.as_matrix" title="pandas.Panel.as_matrix"><code class="xref py py-obj docutils literal notranslate"><span class="pre">as_matrix</span></code></a>()</td> <td>Convert the frame to its Numpy-array representation.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.asfreq.html#pandas.Panel.asfreq" title="pandas.Panel.asfreq"><code class="xref py py-obj docutils literal notranslate"><span class="pre">asfreq</span></code></a>(freq[,&nbsp;method,&nbsp;how,&nbsp;normalize,&nbsp;…])</td> <td>Convert TimeSeries to specified frequency.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.asof.html#pandas.Panel.asof" title="pandas.Panel.asof"><code class="xref py py-obj docutils literal notranslate"><span class="pre">asof</span></code></a>(where[,&nbsp;subset])</td> <td>The last row without any NaN is taken (or the last row without NaN considering only the subset of columns in the case of a DataFrame)</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.astype.html#pandas.Panel.astype" title="pandas.Panel.astype"><code class="xref py py-obj docutils literal notranslate"><span class="pre">astype</span></code></a>(dtype[,&nbsp;copy,&nbsp;errors])</td> <td>Cast a pandas object to a specified dtype <code class="docutils literal notranslate"><span class="pre">dtype</span></code>.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.at_time.html#pandas.Panel.at_time" title="pandas.Panel.at_time"><code class="xref py py-obj docutils literal notranslate"><span class="pre">at_time</span></code></a>(time[,&nbsp;asof])</td> <td>Select values at particular time of day (e.g.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.between_time.html#pandas.Panel.between_time" title="pandas.Panel.between_time"><code class="xref py py-obj docutils literal notranslate"><span class="pre">between_time</span></code></a>(start_time,&nbsp;end_time[,&nbsp;…])</td> <td>Select values between particular times of the day (e.g., 9:00-9:30 AM).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.bfill.html#pandas.Panel.bfill" title="pandas.Panel.bfill"><code class="xref py py-obj docutils literal notranslate"><span class="pre">bfill</span></code></a>([axis,&nbsp;inplace,&nbsp;limit,&nbsp;downcast])</td> <td>Synonym for <a class="reference internal" href="pandas.DataFrame.fillna.html#pandas.DataFrame.fillna" title="pandas.DataFrame.fillna"><code class="xref py py-meth docutils literal notranslate"><span class="pre">DataFrame.fillna(method='bfill')</span></code></a></td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.bool.html#pandas.Panel.bool" title="pandas.Panel.bool"><code class="xref py py-obj docutils literal notranslate"><span class="pre">bool</span></code></a>()</td> <td>Return the bool of a single element PandasObject.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.clip.html#pandas.Panel.clip" title="pandas.Panel.clip"><code class="xref py py-obj docutils literal notranslate"><span class="pre">clip</span></code></a>([lower,&nbsp;upper,&nbsp;axis,&nbsp;inplace])</td> <td>Trim values at input threshold(s).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.clip_lower.html#pandas.Panel.clip_lower" title="pandas.Panel.clip_lower"><code class="xref py py-obj docutils literal notranslate"><span class="pre">clip_lower</span></code></a>(threshold[,&nbsp;axis,&nbsp;inplace])</td> <td>Return copy of the input with values below a threshold truncated.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.clip_upper.html#pandas.Panel.clip_upper" title="pandas.Panel.clip_upper"><code class="xref py py-obj docutils literal notranslate"><span class="pre">clip_upper</span></code></a>(threshold[,&nbsp;axis,&nbsp;inplace])</td> <td>Return copy of input with values above given value(s) truncated.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.compound.html#pandas.Panel.compound" title="pandas.Panel.compound"><code class="xref py py-obj docutils literal notranslate"><span class="pre">compound</span></code></a>([axis,&nbsp;skipna,&nbsp;level])</td> <td>Return the compound percentage of the values for the requested axis</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.conform.html#pandas.Panel.conform" title="pandas.Panel.conform"><code class="xref py py-obj docutils literal notranslate"><span class="pre">conform</span></code></a>(frame[,&nbsp;axis])</td> <td>Conform input DataFrame to align with chosen axis pair.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.consolidate.html#pandas.Panel.consolidate" title="pandas.Panel.consolidate"><code class="xref py py-obj docutils literal notranslate"><span class="pre">consolidate</span></code></a>([inplace])</td> <td>(DEPRECATED) Compute NDFrame with “consolidated” internals (data of each dtype grouped together in a single ndarray).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.convert_objects.html#pandas.Panel.convert_objects" title="pandas.Panel.convert_objects"><code class="xref py py-obj docutils literal notranslate"><span class="pre">convert_objects</span></code></a>([convert_dates,&nbsp;…])</td> <td>(DEPRECATED) Attempt to infer better dtype for object columns.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.copy.html#pandas.Panel.copy" title="pandas.Panel.copy"><code class="xref py py-obj docutils literal notranslate"><span class="pre">copy</span></code></a>([deep])</td> <td>Make a copy of this object’s indices and data.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.count.html#pandas.Panel.count" title="pandas.Panel.count"><code class="xref py py-obj docutils literal notranslate"><span class="pre">count</span></code></a>([axis])</td> <td>Return number of observations over requested axis.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.cummax.html#pandas.Panel.cummax" title="pandas.Panel.cummax"><code class="xref py py-obj docutils literal notranslate"><span class="pre">cummax</span></code></a>([axis,&nbsp;skipna])</td> <td>Return cumulative maximum over a DataFrame or Series axis.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.cummin.html#pandas.Panel.cummin" title="pandas.Panel.cummin"><code class="xref py py-obj docutils literal notranslate"><span class="pre">cummin</span></code></a>([axis,&nbsp;skipna])</td> <td>Return cumulative minimum over a DataFrame or Series axis.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.cumprod.html#pandas.Panel.cumprod" title="pandas.Panel.cumprod"><code class="xref py py-obj docutils literal notranslate"><span class="pre">cumprod</span></code></a>([axis,&nbsp;skipna])</td> <td>Return cumulative product over a DataFrame or Series axis.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.cumsum.html#pandas.Panel.cumsum" title="pandas.Panel.cumsum"><code class="xref py py-obj docutils literal notranslate"><span class="pre">cumsum</span></code></a>([axis,&nbsp;skipna])</td> <td>Return cumulative sum over a DataFrame or Series axis.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.describe.html#pandas.Panel.describe" title="pandas.Panel.describe"><code class="xref py py-obj docutils literal notranslate"><span class="pre">describe</span></code></a>([percentiles,&nbsp;include,&nbsp;exclude])</td> <td>Generates descriptive statistics that summarize the central tendency, dispersion and shape of a dataset’s distribution, excluding <code class="docutils literal notranslate"><span class="pre">NaN</span></code> values.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.div.html#pandas.Panel.div" title="pandas.Panel.div"><code class="xref py py-obj docutils literal notranslate"><span class="pre">div</span></code></a>(other[,&nbsp;axis])</td> <td>Floating division of series and other, element-wise (binary operator <cite>truediv</cite>).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.divide.html#pandas.Panel.divide" title="pandas.Panel.divide"><code class="xref py py-obj docutils literal notranslate"><span class="pre">divide</span></code></a>(other[,&nbsp;axis])</td> <td>Floating division of series and other, element-wise (binary operator <cite>truediv</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.dropna.html#pandas.Panel.dropna" title="pandas.Panel.dropna"><code class="xref py py-obj docutils literal notranslate"><span class="pre">dropna</span></code></a>([axis,&nbsp;how,&nbsp;inplace])</td> <td>Drop 2D from panel, holding passed axis constant</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.eq.html#pandas.Panel.eq" title="pandas.Panel.eq"><code class="xref py py-obj docutils literal notranslate"><span class="pre">eq</span></code></a>(other[,&nbsp;axis])</td> <td>Wrapper for comparison method eq</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.equals.html#pandas.Panel.equals" title="pandas.Panel.equals"><code class="xref py py-obj docutils literal notranslate"><span class="pre">equals</span></code></a>(other)</td> <td>Determines if two NDFrame objects contain the same elements.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.ffill.html#pandas.Panel.ffill" title="pandas.Panel.ffill"><code class="xref py py-obj docutils literal notranslate"><span class="pre">ffill</span></code></a>([axis,&nbsp;inplace,&nbsp;limit,&nbsp;downcast])</td> <td>Synonym for <a class="reference internal" href="pandas.DataFrame.fillna.html#pandas.DataFrame.fillna" title="pandas.DataFrame.fillna"><code class="xref py py-meth docutils literal notranslate"><span class="pre">DataFrame.fillna(method='ffill')</span></code></a></td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.fillna.html#pandas.Panel.fillna" title="pandas.Panel.fillna"><code class="xref py py-obj docutils literal notranslate"><span class="pre">fillna</span></code></a>([value,&nbsp;method,&nbsp;axis,&nbsp;inplace,&nbsp;…])</td> <td>Fill NA/NaN values using the specified method</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.filter.html#pandas.Panel.filter" title="pandas.Panel.filter"><code class="xref py py-obj docutils literal notranslate"><span class="pre">filter</span></code></a>([items,&nbsp;like,&nbsp;regex,&nbsp;axis])</td> <td>Subset rows or columns of dataframe according to labels in the specified index.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.first.html#pandas.Panel.first" title="pandas.Panel.first"><code class="xref py py-obj docutils literal notranslate"><span class="pre">first</span></code></a>(offset)</td> <td>Convenience method for subsetting initial periods of time series data based on a date offset.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.first_valid_index.html#pandas.Panel.first_valid_index" title="pandas.Panel.first_valid_index"><code class="xref py py-obj docutils literal notranslate"><span class="pre">first_valid_index</span></code></a>()</td> <td>Return index for first non-NA/null value.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.floordiv.html#pandas.Panel.floordiv" title="pandas.Panel.floordiv"><code class="xref py py-obj docutils literal notranslate"><span class="pre">floordiv</span></code></a>(other[,&nbsp;axis])</td> <td>Integer division of series and other, element-wise (binary operator <cite>floordiv</cite>).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.fromDict.html#pandas.Panel.fromDict" title="pandas.Panel.fromDict"><code class="xref py py-obj docutils literal notranslate"><span class="pre">fromDict</span></code></a>(data[,&nbsp;intersect,&nbsp;orient,&nbsp;dtype])</td> <td>Construct Panel from dict of DataFrame objects</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.from_dict.html#pandas.Panel.from_dict" title="pandas.Panel.from_dict"><code class="xref py py-obj docutils literal notranslate"><span class="pre">from_dict</span></code></a>(data[,&nbsp;intersect,&nbsp;orient,&nbsp;dtype])</td> <td>Construct Panel from dict of DataFrame objects</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.ge.html#pandas.Panel.ge" title="pandas.Panel.ge"><code class="xref py py-obj docutils literal notranslate"><span class="pre">ge</span></code></a>(other[,&nbsp;axis])</td> <td>Wrapper for comparison method ge</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.get.html#pandas.Panel.get" title="pandas.Panel.get"><code class="xref py py-obj docutils literal notranslate"><span class="pre">get</span></code></a>(key[,&nbsp;default])</td> <td>Get item from object for given key (DataFrame column, Panel slice, etc.).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.get_dtype_counts.html#pandas.Panel.get_dtype_counts" title="pandas.Panel.get_dtype_counts"><code class="xref py py-obj docutils literal notranslate"><span class="pre">get_dtype_counts</span></code></a>()</td> <td>Return counts of unique dtypes in this object.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.get_ftype_counts.html#pandas.Panel.get_ftype_counts" title="pandas.Panel.get_ftype_counts"><code class="xref py py-obj docutils literal notranslate"><span class="pre">get_ftype_counts</span></code></a>()</td> <td>(DEPRECATED) Return counts of unique ftypes in this object.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.get_value.html#pandas.Panel.get_value" title="pandas.Panel.get_value"><code class="xref py py-obj docutils literal notranslate"><span class="pre">get_value</span></code></a>(*args,&nbsp;**kwargs)</td> <td>(DEPRECATED) Quickly retrieve single value at (item, major, minor) location</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.get_values.html#pandas.Panel.get_values" title="pandas.Panel.get_values"><code class="xref py py-obj docutils literal notranslate"><span class="pre">get_values</span></code></a>()</td> <td>Return an ndarray after converting sparse values to dense.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.groupby.html#pandas.Panel.groupby" title="pandas.Panel.groupby"><code class="xref py py-obj docutils literal notranslate"><span class="pre">groupby</span></code></a>(function[,&nbsp;axis])</td> <td>Group data on given axis, returning GroupBy object</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.gt.html#pandas.Panel.gt" title="pandas.Panel.gt"><code class="xref py py-obj docutils literal notranslate"><span class="pre">gt</span></code></a>(other[,&nbsp;axis])</td> <td>Wrapper for comparison method gt</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.head.html#pandas.Panel.head" title="pandas.Panel.head"><code class="xref py py-obj docutils literal notranslate"><span class="pre">head</span></code></a>([n])</td> <td>Return the first <cite>n</cite> rows.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.infer_objects.html#pandas.Panel.infer_objects" title="pandas.Panel.infer_objects"><code class="xref py py-obj docutils literal notranslate"><span class="pre">infer_objects</span></code></a>()</td> <td>Attempt to infer better dtypes for object columns.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.interpolate.html#pandas.Panel.interpolate" title="pandas.Panel.interpolate"><code class="xref py py-obj docutils literal notranslate"><span class="pre">interpolate</span></code></a>([method,&nbsp;axis,&nbsp;limit,&nbsp;inplace,&nbsp;…])</td> <td>Interpolate values according to different methods.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.isna.html#pandas.Panel.isna" title="pandas.Panel.isna"><code class="xref py py-obj docutils literal notranslate"><span class="pre">isna</span></code></a>()</td> <td>Detect missing values.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.isnull.html#pandas.Panel.isnull" title="pandas.Panel.isnull"><code class="xref py py-obj docutils literal notranslate"><span class="pre">isnull</span></code></a>()</td> <td>Detect missing values.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.iteritems.html#pandas.Panel.iteritems" title="pandas.Panel.iteritems"><code class="xref py py-obj docutils literal notranslate"><span class="pre">iteritems</span></code></a>()</td> <td>Iterate over (label, values) on info axis</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.join.html#pandas.Panel.join" title="pandas.Panel.join"><code class="xref py py-obj docutils literal notranslate"><span class="pre">join</span></code></a>(other[,&nbsp;how,&nbsp;lsuffix,&nbsp;rsuffix])</td> <td>Join items with other Panel either on major and minor axes column</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.keys.html#pandas.Panel.keys" title="pandas.Panel.keys"><code class="xref py py-obj docutils literal notranslate"><span class="pre">keys</span></code></a>()</td> <td>Get the ‘info axis’ (see Indexing for more)</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.kurt.html#pandas.Panel.kurt" title="pandas.Panel.kurt"><code class="xref py py-obj docutils literal notranslate"><span class="pre">kurt</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only])</td> <td>Return unbiased kurtosis over requested axis using Fisher’s definition of kurtosis (kurtosis of normal == 0.0).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.kurtosis.html#pandas.Panel.kurtosis" title="pandas.Panel.kurtosis"><code class="xref py py-obj docutils literal notranslate"><span class="pre">kurtosis</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only])</td> <td>Return unbiased kurtosis over requested axis using Fisher’s definition of kurtosis (kurtosis of normal == 0.0).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.last.html#pandas.Panel.last" title="pandas.Panel.last"><code class="xref py py-obj docutils literal notranslate"><span class="pre">last</span></code></a>(offset)</td> <td>Convenience method for subsetting final periods of time series data based on a date offset.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.last_valid_index.html#pandas.Panel.last_valid_index" title="pandas.Panel.last_valid_index"><code class="xref py py-obj docutils literal notranslate"><span class="pre">last_valid_index</span></code></a>()</td> <td>Return index for last non-NA/null value.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.le.html#pandas.Panel.le" title="pandas.Panel.le"><code class="xref py py-obj docutils literal notranslate"><span class="pre">le</span></code></a>(other[,&nbsp;axis])</td> <td>Wrapper for comparison method le</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.lt.html#pandas.Panel.lt" title="pandas.Panel.lt"><code class="xref py py-obj docutils literal notranslate"><span class="pre">lt</span></code></a>(other[,&nbsp;axis])</td> <td>Wrapper for comparison method lt</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.mad.html#pandas.Panel.mad" title="pandas.Panel.mad"><code class="xref py py-obj docutils literal notranslate"><span class="pre">mad</span></code></a>([axis,&nbsp;skipna,&nbsp;level])</td> <td>Return the mean absolute deviation of the values for the requested axis</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.major_xs.html#pandas.Panel.major_xs" title="pandas.Panel.major_xs"><code class="xref py py-obj docutils literal notranslate"><span class="pre">major_xs</span></code></a>(key)</td> <td>Return slice of panel along major axis</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.mask.html#pandas.Panel.mask" title="pandas.Panel.mask"><code class="xref py py-obj docutils literal notranslate"><span class="pre">mask</span></code></a>(cond[,&nbsp;other,&nbsp;inplace,&nbsp;axis,&nbsp;level,&nbsp;…])</td> <td>Return an object of same shape as self and whose corresponding entries are from self where <cite>cond</cite> is False and otherwise are from <cite>other</cite>.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.max.html#pandas.Panel.max" title="pandas.Panel.max"><code class="xref py py-obj docutils literal notranslate"><span class="pre">max</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only])</td> <td>This method returns the maximum of the values in the object.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.mean.html#pandas.Panel.mean" title="pandas.Panel.mean"><code class="xref py py-obj docutils literal notranslate"><span class="pre">mean</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only])</td> <td>Return the mean of the values for the requested axis</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.median.html#pandas.Panel.median" title="pandas.Panel.median"><code class="xref py py-obj docutils literal notranslate"><span class="pre">median</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only])</td> <td>Return the median of the values for the requested axis</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.min.html#pandas.Panel.min" title="pandas.Panel.min"><code class="xref py py-obj docutils literal notranslate"><span class="pre">min</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only])</td> <td>This method returns the minimum of the values in the object.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.minor_xs.html#pandas.Panel.minor_xs" title="pandas.Panel.minor_xs"><code class="xref py py-obj docutils literal notranslate"><span class="pre">minor_xs</span></code></a>(key)</td> <td>Return slice of panel along minor axis</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.mod.html#pandas.Panel.mod" title="pandas.Panel.mod"><code class="xref py py-obj docutils literal notranslate"><span class="pre">mod</span></code></a>(other[,&nbsp;axis])</td> <td>Modulo of series and other, element-wise (binary operator <cite>mod</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.mul.html#pandas.Panel.mul" title="pandas.Panel.mul"><code class="xref py py-obj docutils literal notranslate"><span class="pre">mul</span></code></a>(other[,&nbsp;axis])</td> <td>Multiplication of series and other, element-wise (binary operator <cite>mul</cite>).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.multiply.html#pandas.Panel.multiply" title="pandas.Panel.multiply"><code class="xref py py-obj docutils literal notranslate"><span class="pre">multiply</span></code></a>(other[,&nbsp;axis])</td> <td>Multiplication of series and other, element-wise (binary operator <cite>mul</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.ne.html#pandas.Panel.ne" title="pandas.Panel.ne"><code class="xref py py-obj docutils literal notranslate"><span class="pre">ne</span></code></a>(other[,&nbsp;axis])</td> <td>Wrapper for comparison method ne</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.notna.html#pandas.Panel.notna" title="pandas.Panel.notna"><code class="xref py py-obj docutils literal notranslate"><span class="pre">notna</span></code></a>()</td> <td>Detect existing (non-missing) values.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.notnull.html#pandas.Panel.notnull" title="pandas.Panel.notnull"><code class="xref py py-obj docutils literal notranslate"><span class="pre">notnull</span></code></a>()</td> <td>Detect existing (non-missing) values.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.pct_change.html#pandas.Panel.pct_change" title="pandas.Panel.pct_change"><code class="xref py py-obj docutils literal notranslate"><span class="pre">pct_change</span></code></a>([periods,&nbsp;fill_method,&nbsp;limit,&nbsp;freq])</td> <td>Percentage change between the current and a prior element.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.pipe.html#pandas.Panel.pipe" title="pandas.Panel.pipe"><code class="xref py py-obj docutils literal notranslate"><span class="pre">pipe</span></code></a>(func,&nbsp;*args,&nbsp;**kwargs)</td> <td>Apply func(self, *args, **kwargs)</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.pop.html#pandas.Panel.pop" title="pandas.Panel.pop"><code class="xref py py-obj docutils literal notranslate"><span class="pre">pop</span></code></a>(item)</td> <td>Return item and drop from frame.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.pow.html#pandas.Panel.pow" title="pandas.Panel.pow"><code class="xref py py-obj docutils literal notranslate"><span class="pre">pow</span></code></a>(other[,&nbsp;axis])</td> <td>Exponential power of series and other, element-wise (binary operator <cite>pow</cite>).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.prod.html#pandas.Panel.prod" title="pandas.Panel.prod"><code class="xref py py-obj docutils literal notranslate"><span class="pre">prod</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only,&nbsp;…])</td> <td>Return the product of the values for the requested axis</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.product.html#pandas.Panel.product" title="pandas.Panel.product"><code class="xref py py-obj docutils literal notranslate"><span class="pre">product</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only,&nbsp;…])</td> <td>Return the product of the values for the requested axis</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.radd.html#pandas.Panel.radd" title="pandas.Panel.radd"><code class="xref py py-obj docutils literal notranslate"><span class="pre">radd</span></code></a>(other[,&nbsp;axis])</td> <td>Addition of series and other, element-wise (binary operator <cite>radd</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.rank.html#pandas.Panel.rank" title="pandas.Panel.rank"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rank</span></code></a>([axis,&nbsp;method,&nbsp;numeric_only,&nbsp;…])</td> <td>Compute numerical data ranks (1 through n) along axis.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.rdiv.html#pandas.Panel.rdiv" title="pandas.Panel.rdiv"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rdiv</span></code></a>(other[,&nbsp;axis])</td> <td>Floating division of series and other, element-wise (binary operator <cite>rtruediv</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.reindex.html#pandas.Panel.reindex" title="pandas.Panel.reindex"><code class="xref py py-obj docutils literal notranslate"><span class="pre">reindex</span></code></a>(*args,&nbsp;**kwargs)</td> <td>Conform Panel to new index with optional filling logic, placing NA/NaN in locations having no value in the previous index.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.reindex_axis.html#pandas.Panel.reindex_axis" title="pandas.Panel.reindex_axis"><code class="xref py py-obj docutils literal notranslate"><span class="pre">reindex_axis</span></code></a>(labels[,&nbsp;axis,&nbsp;method,&nbsp;level,&nbsp;…])</td> <td>Conform input object to new index with optional filling logic, placing NA/NaN in locations having no value in the previous index.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.reindex_like.html#pandas.Panel.reindex_like" title="pandas.Panel.reindex_like"><code class="xref py py-obj docutils literal notranslate"><span class="pre">reindex_like</span></code></a>(other[,&nbsp;method,&nbsp;copy,&nbsp;limit,&nbsp;…])</td> <td>Return an object with matching indices to myself.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.rename.html#pandas.Panel.rename" title="pandas.Panel.rename"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rename</span></code></a>([items,&nbsp;major_axis,&nbsp;minor_axis])</td> <td>Alter axes input function or functions.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.rename_axis.html#pandas.Panel.rename_axis" title="pandas.Panel.rename_axis"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rename_axis</span></code></a>(mapper[,&nbsp;axis,&nbsp;copy,&nbsp;inplace])</td> <td>Alter the name of the index or columns.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.replace.html#pandas.Panel.replace" title="pandas.Panel.replace"><code class="xref py py-obj docutils literal notranslate"><span class="pre">replace</span></code></a>([to_replace,&nbsp;value,&nbsp;inplace,&nbsp;limit,&nbsp;…])</td> <td>Replace values given in <cite>to_replace</cite> with <cite>value</cite>.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.resample.html#pandas.Panel.resample" title="pandas.Panel.resample"><code class="xref py py-obj docutils literal notranslate"><span class="pre">resample</span></code></a>(rule[,&nbsp;how,&nbsp;axis,&nbsp;fill_method,&nbsp;…])</td> <td>Convenience method for frequency conversion and resampling of time series.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.rfloordiv.html#pandas.Panel.rfloordiv" title="pandas.Panel.rfloordiv"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rfloordiv</span></code></a>(other[,&nbsp;axis])</td> <td>Integer division of series and other, element-wise (binary operator <cite>rfloordiv</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.rmod.html#pandas.Panel.rmod" title="pandas.Panel.rmod"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rmod</span></code></a>(other[,&nbsp;axis])</td> <td>Modulo of series and other, element-wise (binary operator <cite>rmod</cite>).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.rmul.html#pandas.Panel.rmul" title="pandas.Panel.rmul"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rmul</span></code></a>(other[,&nbsp;axis])</td> <td>Multiplication of series and other, element-wise (binary operator <cite>rmul</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.round.html#pandas.Panel.round" title="pandas.Panel.round"><code class="xref py py-obj docutils literal notranslate"><span class="pre">round</span></code></a>([decimals])</td> <td>Round each value in Panel to a specified number of decimal places.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.rpow.html#pandas.Panel.rpow" title="pandas.Panel.rpow"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rpow</span></code></a>(other[,&nbsp;axis])</td> <td>Exponential power of series and other, element-wise (binary operator <cite>rpow</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.rsub.html#pandas.Panel.rsub" title="pandas.Panel.rsub"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rsub</span></code></a>(other[,&nbsp;axis])</td> <td>Subtraction of series and other, element-wise (binary operator <cite>rsub</cite>).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.rtruediv.html#pandas.Panel.rtruediv" title="pandas.Panel.rtruediv"><code class="xref py py-obj docutils literal notranslate"><span class="pre">rtruediv</span></code></a>(other[,&nbsp;axis])</td> <td>Floating division of series and other, element-wise (binary operator <cite>rtruediv</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.sample.html#pandas.Panel.sample" title="pandas.Panel.sample"><code class="xref py py-obj docutils literal notranslate"><span class="pre">sample</span></code></a>([n,&nbsp;frac,&nbsp;replace,&nbsp;weights,&nbsp;…])</td> <td>Return a random sample of items from an axis of object.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.select.html#pandas.Panel.select" title="pandas.Panel.select"><code class="xref py py-obj docutils literal notranslate"><span class="pre">select</span></code></a>(crit[,&nbsp;axis])</td> <td>(DEPRECATED) Return data corresponding to axis labels matching criteria</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.sem.html#pandas.Panel.sem" title="pandas.Panel.sem"><code class="xref py py-obj docutils literal notranslate"><span class="pre">sem</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;ddof,&nbsp;numeric_only])</td> <td>Return unbiased standard error of the mean over requested axis.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.set_axis.html#pandas.Panel.set_axis" title="pandas.Panel.set_axis"><code class="xref py py-obj docutils literal notranslate"><span class="pre">set_axis</span></code></a>(labels[,&nbsp;axis,&nbsp;inplace])</td> <td>Assign desired index to given axis.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.set_value.html#pandas.Panel.set_value" title="pandas.Panel.set_value"><code class="xref py py-obj docutils literal notranslate"><span class="pre">set_value</span></code></a>(*args,&nbsp;**kwargs)</td> <td>(DEPRECATED) Quickly set single value at (item, major, minor) location</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.shift.html#pandas.Panel.shift" title="pandas.Panel.shift"><code class="xref py py-obj docutils literal notranslate"><span class="pre">shift</span></code></a>([periods,&nbsp;freq,&nbsp;axis])</td> <td>Shift index by desired number of periods with an optional time freq.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.skew.html#pandas.Panel.skew" title="pandas.Panel.skew"><code class="xref py py-obj docutils literal notranslate"><span class="pre">skew</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only])</td> <td>Return unbiased skew over requested axis Normalized by N-1</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.slice_shift.html#pandas.Panel.slice_shift" title="pandas.Panel.slice_shift"><code class="xref py py-obj docutils literal notranslate"><span class="pre">slice_shift</span></code></a>([periods,&nbsp;axis])</td> <td>Equivalent to <cite>shift</cite> without copying data.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.sort_index.html#pandas.Panel.sort_index" title="pandas.Panel.sort_index"><code class="xref py py-obj docutils literal notranslate"><span class="pre">sort_index</span></code></a>([axis,&nbsp;level,&nbsp;ascending,&nbsp;…])</td> <td>Sort object by labels (along an axis)</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.sort_values.html#pandas.Panel.sort_values" title="pandas.Panel.sort_values"><code class="xref py py-obj docutils literal notranslate"><span class="pre">sort_values</span></code></a>([by,&nbsp;axis,&nbsp;ascending,&nbsp;inplace,&nbsp;…])</td> <td>NOT IMPLEMENTED: do not call this method, as sorting values is not supported for Panel objects and will raise an error.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.squeeze.html#pandas.Panel.squeeze" title="pandas.Panel.squeeze"><code class="xref py py-obj docutils literal notranslate"><span class="pre">squeeze</span></code></a>([axis])</td> <td>Squeeze length 1 dimensions.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.std.html#pandas.Panel.std" title="pandas.Panel.std"><code class="xref py py-obj docutils literal notranslate"><span class="pre">std</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;ddof,&nbsp;numeric_only])</td> <td>Return sample standard deviation over requested axis.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.sub.html#pandas.Panel.sub" title="pandas.Panel.sub"><code class="xref py py-obj docutils literal notranslate"><span class="pre">sub</span></code></a>(other[,&nbsp;axis])</td> <td>Subtraction of series and other, element-wise (binary operator <cite>sub</cite>).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.subtract.html#pandas.Panel.subtract" title="pandas.Panel.subtract"><code class="xref py py-obj docutils literal notranslate"><span class="pre">subtract</span></code></a>(other[,&nbsp;axis])</td> <td>Subtraction of series and other, element-wise (binary operator <cite>sub</cite>).</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.sum.html#pandas.Panel.sum" title="pandas.Panel.sum"><code class="xref py py-obj docutils literal notranslate"><span class="pre">sum</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;numeric_only,&nbsp;…])</td> <td>Return the sum of the values for the requested axis</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.swapaxes.html#pandas.Panel.swapaxes" title="pandas.Panel.swapaxes"><code class="xref py py-obj docutils literal notranslate"><span class="pre">swapaxes</span></code></a>(axis1,&nbsp;axis2[,&nbsp;copy])</td> <td>Interchange axes and swap values axes appropriately</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.swaplevel.html#pandas.Panel.swaplevel" title="pandas.Panel.swaplevel"><code class="xref py py-obj docutils literal notranslate"><span class="pre">swaplevel</span></code></a>([i,&nbsp;j,&nbsp;axis])</td> <td>Swap levels i and j in a MultiIndex on a particular axis</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.tail.html#pandas.Panel.tail" title="pandas.Panel.tail"><code class="xref py py-obj docutils literal notranslate"><span class="pre">tail</span></code></a>([n])</td> <td>Return the last <cite>n</cite> rows.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.take.html#pandas.Panel.take" title="pandas.Panel.take"><code class="xref py py-obj docutils literal notranslate"><span class="pre">take</span></code></a>(indices[,&nbsp;axis,&nbsp;convert,&nbsp;is_copy])</td> <td>Return the elements in the given <em>positional</em> indices along an axis.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.to_clipboard.html#pandas.Panel.to_clipboard" title="pandas.Panel.to_clipboard"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_clipboard</span></code></a>([excel,&nbsp;sep])</td> <td>Copy object to the system clipboard.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.to_dense.html#pandas.Panel.to_dense" title="pandas.Panel.to_dense"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_dense</span></code></a>()</td> <td>Return dense representation of NDFrame (as opposed to sparse)</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.to_excel.html#pandas.Panel.to_excel" title="pandas.Panel.to_excel"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_excel</span></code></a>(path[,&nbsp;na_rep,&nbsp;engine])</td> <td>Write each DataFrame in Panel to a separate excel sheet</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.to_frame.html#pandas.Panel.to_frame" title="pandas.Panel.to_frame"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_frame</span></code></a>([filter_observations])</td> <td>Transform wide format into long (stacked) format as DataFrame whose columns are the Panel’s items and whose index is a MultiIndex formed of the Panel’s major and minor axes.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.to_hdf.html#pandas.Panel.to_hdf" title="pandas.Panel.to_hdf"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_hdf</span></code></a>(path_or_buf,&nbsp;key,&nbsp;**kwargs)</td> <td>Write the contained data to an HDF5 file using HDFStore.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.to_json.html#pandas.Panel.to_json" title="pandas.Panel.to_json"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_json</span></code></a>([path_or_buf,&nbsp;orient,&nbsp;date_format,&nbsp;…])</td> <td>Convert the object to a JSON string.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.to_latex.html#pandas.Panel.to_latex" title="pandas.Panel.to_latex"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_latex</span></code></a>([buf,&nbsp;columns,&nbsp;col_space,&nbsp;header,&nbsp;…])</td> <td>Render an object to a tabular environment table.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.to_msgpack.html#pandas.Panel.to_msgpack" title="pandas.Panel.to_msgpack"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_msgpack</span></code></a>([path_or_buf,&nbsp;encoding])</td> <td>msgpack (serialize) object to input file path</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.to_pickle.html#pandas.Panel.to_pickle" title="pandas.Panel.to_pickle"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_pickle</span></code></a>(path[,&nbsp;compression,&nbsp;protocol])</td> <td>Pickle (serialize) object to file.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.to_sparse.html#pandas.Panel.to_sparse" title="pandas.Panel.to_sparse"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_sparse</span></code></a>(*args,&nbsp;**kwargs)</td> <td>NOT IMPLEMENTED: do not call this method, as sparsifying is not supported for Panel objects and will raise an error.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.to_sql.html#pandas.Panel.to_sql" title="pandas.Panel.to_sql"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_sql</span></code></a>(name,&nbsp;con[,&nbsp;schema,&nbsp;if_exists,&nbsp;…])</td> <td>Write records stored in a DataFrame to a SQL database.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.to_xarray.html#pandas.Panel.to_xarray" title="pandas.Panel.to_xarray"><code class="xref py py-obj docutils literal notranslate"><span class="pre">to_xarray</span></code></a>()</td> <td>Return an xarray object from the pandas object.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.transpose.html#pandas.Panel.transpose" title="pandas.Panel.transpose"><code class="xref py py-obj docutils literal notranslate"><span class="pre">transpose</span></code></a>(*args,&nbsp;**kwargs)</td> <td>Permute the dimensions of the Panel</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.truediv.html#pandas.Panel.truediv" title="pandas.Panel.truediv"><code class="xref py py-obj docutils literal notranslate"><span class="pre">truediv</span></code></a>(other[,&nbsp;axis])</td> <td>Floating division of series and other, element-wise (binary operator <cite>truediv</cite>).</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.truncate.html#pandas.Panel.truncate" title="pandas.Panel.truncate"><code class="xref py py-obj docutils literal notranslate"><span class="pre">truncate</span></code></a>([before,&nbsp;after,&nbsp;axis,&nbsp;copy])</td> <td>Truncate a Series or DataFrame before and after some index value.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.tshift.html#pandas.Panel.tshift" title="pandas.Panel.tshift"><code class="xref py py-obj docutils literal notranslate"><span class="pre">tshift</span></code></a>([periods,&nbsp;freq,&nbsp;axis])</td> <td>Shift the time index, using the index’s frequency if available.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.tz_convert.html#pandas.Panel.tz_convert" title="pandas.Panel.tz_convert"><code class="xref py py-obj docutils literal notranslate"><span class="pre">tz_convert</span></code></a>(tz[,&nbsp;axis,&nbsp;level,&nbsp;copy])</td> <td>Convert tz-aware axis to target time zone.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.tz_localize.html#pandas.Panel.tz_localize" title="pandas.Panel.tz_localize"><code class="xref py py-obj docutils literal notranslate"><span class="pre">tz_localize</span></code></a>(tz[,&nbsp;axis,&nbsp;level,&nbsp;copy,&nbsp;ambiguous])</td> <td>Localize tz-naive TimeSeries to target time zone.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.update.html#pandas.Panel.update" title="pandas.Panel.update"><code class="xref py py-obj docutils literal notranslate"><span class="pre">update</span></code></a>(other[,&nbsp;join,&nbsp;overwrite,&nbsp;…])</td> <td>Modify Panel in place using non-NA values from passed Panel, or object coercible to Panel.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.var.html#pandas.Panel.var" title="pandas.Panel.var"><code class="xref py py-obj docutils literal notranslate"><span class="pre">var</span></code></a>([axis,&nbsp;skipna,&nbsp;level,&nbsp;ddof,&nbsp;numeric_only])</td> <td>Return unbiased variance over requested axis.</td> </tr> <tr class="row-odd"><td><a class="reference internal" href="pandas.Panel.where.html#pandas.Panel.where" title="pandas.Panel.where"><code class="xref py py-obj docutils literal notranslate"><span class="pre">where</span></code></a>(cond[,&nbsp;other,&nbsp;inplace,&nbsp;axis,&nbsp;level,&nbsp;…])</td> <td>Return an object of same shape as self and whose corresponding entries are from self where <cite>cond</cite> is True and otherwise are from <cite>other</cite>.</td> </tr> <tr class="row-even"><td><a class="reference internal" href="pandas.Panel.xs.html#pandas.Panel.xs" title="pandas.Panel.xs"><code class="xref py py-obj docutils literal notranslate"><span class="pre">xs</span></code></a>(key[,&nbsp;axis])</td> <td>Return slice of panel along selected axis</td> </tr> </tbody> </table> <table border="1" class="docutils"> <colgroup> <col width="57%" /> <col width="43%" /> </colgroup> <tbody valign="top"> <tr class="row-odd"><td><strong>agg</strong></td> <td>&#160;</td> </tr> <tr class="row-even"><td><strong>aggregate</strong></td> <td>&#160;</td> </tr> <tr class="row-odd"><td><strong>drop</strong></td> <td>&#160;</td> </tr> </tbody> </table> </dd></dl> </div> </div> </div> </div> <div class="clearer"></div> </div> </div> </div> <div class="related" role="navigation" aria-label="related navigation"> <h3>Navigation</h3> <ul> <li class="right" style="margin-right: 10px"> <a href="../genindex.html" title="General Index" >index</a></li> <li class="right" > <a href="../py-modindex.html" title="Python Module Index" >modules</a> |</li> <li class="right" > <a href="pandas.Panel.at.html" title="pandas.Panel.at" >next</a> |</li> <li class="right" > <a href="pandas.SparseDataFrame.to_coo.html" title="pandas.SparseDataFrame.to_coo" >previous</a> |</li> <li class="nav-item nav-item-0"><a href="../index.html">pandas 0.24.0.dev0+81.g8d5032a8c.dirty documentation</a> &#187;</li> <li class="nav-item nav-item-1"><a href="../api.html" >API Reference</a> &#187;</li> </ul> </div> <style type="text/css"> .scrollToTop { text-align: 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@implementation PHWorkflow + (PHWorkflow*)workflowWithMasterViewController:(UIViewController*)masterController andDelegate:(id)delegate forIdentifier:(NSString*)workflowIdentifier { PHWorkflow *workflow = [[PHWorkflow alloc] init]; [workflow setMasterViewController:masterController]; [workflow setDelegate:delegate]; [workflow setIdentifier:workflowIdentifier]; return workflow; } @end
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:mod:`api.imagestore.image` =========================== /imagestore/*(name)*/image -------------------------- .. autofunction:: api.imagestore.image.views.imagestore_image_list /imagestore/*(name)*/image/*(uuid)* ----------------------------------- .. autofunction:: api.imagestore.image.views.imagestore_image_manage
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#include <itkMinimumImageFilter.h> #include <xip/inventor/itk/SoItkUtils.h> #include "SoItkMinimumImageFilter.h" SO_ENGINE_SOURCE( SoItkMinimumImageFilter ); SoItkMinimumImageFilter::SoItkMinimumImageFilter() { SO_ENGINE_CONSTRUCTOR( SoItkMinimumImageFilter ); } SoItkMinimumImageFilter::~SoItkMinimumImageFilter() { } void SoItkMinimumImageFilter::initClass() { SO_ENGINE_INIT_CLASS( SoItkMinimumImageFilter, SoItkBinaryFunctorImageFilter, "SoItkBinaryFunctorImageFilter" ); } bool SoItkMinimumImageFilter::checkInput() { switch( Input1.getValue()->getNumDimension() ) { case 2: { switch( Input1.getValue()->getType() ) { case SoItkDataImage::FLOAT: { return true; } break ; case SoItkDataImage::UNSIGNED_SHORT: { return true; } break ; } } break ; case 3: { switch( Input1.getValue()->getType() ) { case SoItkDataImage::FLOAT: { return true; } break ; case SoItkDataImage::UNSIGNED_SHORT: { return true; } break ; } } break ; } return false; } void SoItkMinimumImageFilter::evaluate() { if( mOutput ) { mOutput->unref(); mOutput = 0; SO_ENGINE_OUTPUT( Output, SoItkSFDataImage, setValue( 0 ) ); } if( !Input0.getValue() ) return ; if( !Input1.getValue() ) return ; if( !checkInput() ) { SoDebugError::post( __FILE__, "Invalid Input Types" ); return ; } try { switch( Input1.getValue()->getNumDimension() ) { case 2: { switch( Input1.getValue()->getType() ) { case SoItkDataImage::FLOAT: { typedef itk::Image< float, 2 > InputImageType; typedef itk::Image< float, 2 > InputImageType; typedef itk::Image< float, 2 > OutputImageType; typedef itk::MinimumImageFilter< InputImageType, InputImageType, OutputImageType > FilterType; FilterType::Pointer filter = FilterType::New(); // Set the filter's inputs // Inherited from SoItkBinaryFunctorImageFilter typedef itk::Image< float, 2 > InputImageType; SO_ITK_SET_FIELD_MDATA( filter, Input, 1, InputImageType ); // Inherited from SoItkInPlaceImageFilter SO_ITK_SET_FIELD_VALUE( filter, InPlace ); // Inherited from SoItkImageToImageFilter typedef itk::Image< float, 2 > InputImageType; SO_ITK_SET_FIELD_MDATA( filter, Input, 0, InputImageType ); // Start processing the ouputs filter->Update(); // Retrieve the filter's outputs filter->GetOutput()->Register(); mOutput = new SoItkDataImage( SoItkDataImage::FLOAT, 2, Input0.getValue()->getModelMatrix() ); mOutput->ref(); mOutput->setPointer( filter->GetOutput() ); } break ; case SoItkDataImage::UNSIGNED_SHORT: { typedef itk::Image< unsigned short, 2 > InputImageType; typedef itk::Image< unsigned short, 2 > InputImageType; typedef itk::Image< unsigned short, 2 > OutputImageType; typedef itk::MinimumImageFilter< InputImageType, InputImageType, OutputImageType > FilterType; FilterType::Pointer filter = FilterType::New(); // Set the filter's inputs // Inherited from SoItkBinaryFunctorImageFilter typedef itk::Image< unsigned short, 2 > InputImageType; SO_ITK_SET_FIELD_MDATA( filter, Input, 1, InputImageType ); // Inherited from SoItkInPlaceImageFilter SO_ITK_SET_FIELD_VALUE( filter, InPlace ); // Inherited from SoItkImageToImageFilter typedef itk::Image< unsigned short, 2 > InputImageType; SO_ITK_SET_FIELD_MDATA( filter, Input, 0, InputImageType ); // Start processing the ouputs filter->Update(); // Retrieve the filter's outputs filter->GetOutput()->Register(); mOutput = new SoItkDataImage( SoItkDataImage::UNSIGNED_SHORT, 2, Input0.getValue()->getModelMatrix() ); mOutput->ref(); mOutput->setPointer( filter->GetOutput() ); } break ; } } break ; case 3: { switch( Input1.getValue()->getType() ) { case SoItkDataImage::FLOAT: { typedef itk::Image< float, 3 > InputImageType; typedef itk::Image< float, 3 > InputImageType; typedef itk::Image< float, 3 > OutputImageType; typedef itk::MinimumImageFilter< InputImageType, InputImageType, OutputImageType > FilterType; FilterType::Pointer filter = FilterType::New(); // Set the filter's inputs // Inherited from SoItkBinaryFunctorImageFilter typedef itk::Image< float, 3 > InputImageType; SO_ITK_SET_FIELD_MDATA( filter, Input, 1, InputImageType ); // Inherited from SoItkInPlaceImageFilter SO_ITK_SET_FIELD_VALUE( filter, InPlace ); // Inherited from SoItkImageToImageFilter typedef itk::Image< float, 3 > InputImageType; SO_ITK_SET_FIELD_MDATA( filter, Input, 0, InputImageType ); // Start processing the ouputs filter->Update(); // Retrieve the filter's outputs filter->GetOutput()->Register(); mOutput = new SoItkDataImage( SoItkDataImage::FLOAT, 3, Input0.getValue()->getModelMatrix() ); mOutput->ref(); mOutput->setPointer( filter->GetOutput() ); } break ; case SoItkDataImage::UNSIGNED_SHORT: { typedef itk::Image< unsigned short, 3 > InputImageType; typedef itk::Image< unsigned short, 3 > InputImageType; typedef itk::Image< unsigned short, 3 > OutputImageType; typedef itk::MinimumImageFilter< InputImageType, InputImageType, OutputImageType > FilterType; FilterType::Pointer filter = FilterType::New(); // Set the filter's inputs // Inherited from SoItkBinaryFunctorImageFilter typedef itk::Image< unsigned short, 3 > InputImageType; SO_ITK_SET_FIELD_MDATA( filter, Input, 1, InputImageType ); // Inherited from SoItkInPlaceImageFilter SO_ITK_SET_FIELD_VALUE( filter, InPlace ); // Inherited from SoItkImageToImageFilter typedef itk::Image< unsigned short, 3 > InputImageType; SO_ITK_SET_FIELD_MDATA( filter, Input, 0, InputImageType ); // Start processing the ouputs filter->Update(); // Retrieve the filter's outputs filter->GetOutput()->Register(); mOutput = new SoItkDataImage( SoItkDataImage::UNSIGNED_SHORT, 3, Input0.getValue()->getModelMatrix() ); mOutput->ref(); mOutput->setPointer( filter->GetOutput() ); } break ; } } break ; } } catch( itk::ExceptionObject& e ) { SoDebugError::post( e.GetFile(), "line %d: %s", e.GetLine(), e.GetDescription() ); return ; } catch(...) { SoDebugError::post( __FILE__, "Unknown Exception" ); return ; } SO_ENGINE_OUTPUT( Output, SoItkSFDataImage, setValue( mOutput ) ); }
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require 'rails_helper' RSpec.describe GeocodeJob, type: :job do it 'creates the coordinate pair record' do address = create :address, coordinate_pair: nil GeocodeJob.perform_now(address) expect(address.coordinate_pair).to have_attributes stubbed_coords end context 'when the API request fails' do around(:each) do |example| Geocoder.configure(lookup: :google) stub_request(:any, /googleapis/).to_return( status: 403, body: '{ "results" : [], "status" : "OVER_QUERY_LIMIT" }' ) example.run Geocoder.configure(lookup: :test) end it 'is rescheduled for later' do address = create :address, coordinate_pair: nil job = GeocodeJob.new(address) expect(job).to receive(:retry_job) job.perform_now end end end
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@implementation MessagePackPacker // Pack a single number, figuring out which type of number it is + (void)packNumber:(NSNumber*)num into:(msgpack_packer*)pk { CFNumberType numberType = CFNumberGetType((CFNumberRef)num); switch (numberType) { case kCFNumberSInt8Type: msgpack_pack_int8(pk, num.shortValue); break; case kCFNumberSInt16Type: case kCFNumberShortType: msgpack_pack_int16(pk, num.shortValue); break; case kCFNumberSInt32Type: case kCFNumberIntType: case kCFNumberLongType: case kCFNumberCFIndexType: case kCFNumberNSIntegerType: msgpack_pack_int32(pk, num.intValue); break; case kCFNumberSInt64Type: case kCFNumberLongLongType: msgpack_pack_int64(pk, num.longLongValue); break; case kCFNumberFloat32Type: case kCFNumberFloatType: case kCFNumberCGFloatType: msgpack_pack_float(pk, num.floatValue); break; case kCFNumberFloat64Type: case kCFNumberDoubleType: msgpack_pack_double(pk, num.doubleValue); break; case kCFNumberCharType: { int theValue = num.intValue; if (theValue == 0) msgpack_pack_false(pk); else if (theValue == 1) msgpack_pack_true(pk); else msgpack_pack_int16(pk, theValue); } break; default: NSLog(@"Could not messagepack number, cannot recognise type: %@", num); } } // Pack a single object into the given packer + (void)packObject:(id)obj into:(msgpack_packer*)pk { if ([obj isKindOfClass:[NSArray class]]) { msgpack_pack_array(pk, ((NSArray*)obj).count); for (id arrayElement in obj) { [self packObject:arrayElement into:pk]; } } else if ([obj isKindOfClass:[NSDictionary class]]) { msgpack_pack_map(pk, ((NSDictionary*)obj).count); for(id key in obj) { [self packObject:key into:pk]; [self packObject:[obj objectForKey:key] into:pk]; } } else if ([obj isKindOfClass:[NSString class]]) { const char *str = ((NSString*)obj).UTF8String; unsigned long len = strlen(str); msgpack_pack_raw(pk, len); msgpack_pack_raw_body(pk, str, len); } else if ([obj isKindOfClass:[NSNumber class]]) { [self packNumber:obj into:pk]; } else if (obj==[NSNull null]) { msgpack_pack_nil(pk); } else if ([obj isKindOfClass:[NSData class]]) { msgpack_pack_raw(pk, [obj length]); msgpack_pack_raw_body(pk, [obj bytes], [obj length]); } else { NSLog(@"Could not messagepack object: %@", obj); } } // Given an array or dictionary, this messagepacks it + (NSData*)pack:(id)obj { // Creates buffer and serializer instance msgpack_sbuffer* buffer = msgpack_sbuffer_new(); msgpack_packer* pk = msgpack_packer_new(buffer, msgpack_sbuffer_write); // Pack the root array or dictionary node, which recurses through the rest [self packObject:obj into:pk]; // Bridge the data back to obj-c's world NSData* data = [NSData dataWithBytes:buffer->data length:buffer->size]; // Free msgpack_sbuffer_free(buffer); msgpack_packer_free(pk); return data; } @end
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using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; using Mod.Core.ModuleApi.Menu; namespace Mod.Core.ModuleApi.Impl { public class MenuService : IMenuService { public List<IMenuItem> MenuItems { get; } public MenuService() { MenuItems = new List<IMenuItem>(); } public void RegisterMenu(ICollection<IMenuItemSecure> menuItems) { MenuItems.AddRange(menuItems); } public ICollection<IMenuItem> GetMenuCurrentUser() { //TODO: Add role permissions return MenuItems; } } }
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SYNONYM #### According to The Catalogue of Life, 3rd January 2011 #### Published in null #### Original name null ### Remarks null
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#include "com/centreon/broker/io/events.hh" #include "com/centreon/broker/io/protocols.hh" #include "com/centreon/broker/log_v2.hh" #include "com/centreon/broker/neb/events.hh" #include "com/centreon/broker/neb/internal.hh" #include "com/centreon/exceptions/msg_fmt.hh" using namespace com::centreon::broker; using namespace com::centreon::exceptions; static uint32_t neb_instances(0); extern "C" { /** * Module version symbol. Used to check for version mismatch. */ char const* broker_module_version = CENTREON_BROKER_VERSION; /** * Module deinitialization routine. */ void broker_module_deinit() { if (!--neb_instances) { // // Remove factory. // io::protocols::instance().unreg("node_events"); // Remove events. io::events::instance().unregister_category(io::events::neb); } } /** * Module initialization routine. * * @param[in] arg Configuration object. */ void broker_module_init(void const* arg) { (void)arg; if (!neb_instances++) { log_v2::core()->info("NEB: module for Centreon Broker {}", CENTREON_BROKER_VERSION); io::events& e(io::events::instance()); // Register category. int neb_category(e.register_category("neb", io::events::neb)); if (neb_category != io::events::neb) { e.unregister_category(neb_category); --neb_instances; throw msg_fmt( "NEB: category {}" " is already registered whereas it should be " "reserved for the NEB module", io::events::neb); } // Register events. { e.register_event(io::events::neb, neb::de_acknowledgement, "acknowledgement", &neb::acknowledgement::operations, neb::acknowledgement::entries, "acknowledgements"); e.register_event(io::events::neb, neb::de_comment, "comment", &neb::comment::operations, neb::comment::entries, "comments"); e.register_event(io::events::neb, neb::de_custom_variable, "custom_variable", &neb::custom_variable::operations, neb::custom_variable::entries, "customvariables"); e.register_event(io::events::neb, neb::de_custom_variable_status, "custom_variable_status", &neb::custom_variable_status::operations, neb::custom_variable_status::entries, "customvariables"); e.register_event(io::events::neb, neb::de_downtime, "downtime", &neb::downtime::operations, neb::downtime::entries, "downtimes"); e.register_event(io::events::neb, neb::de_event_handler, "event_handler", &neb::event_handler::operations, neb::event_handler::entries, "eventhandlers"); e.register_event(io::events::neb, neb::de_flapping_status, "flapping_status", &neb::flapping_status::operations, neb::flapping_status::entries, "flappingstatuses"); e.register_event(io::events::neb, neb::de_host_check, "host_check", &neb::host_check::operations, neb::host_check::entries, "hosts"); e.register_event(io::events::neb, neb::de_host_dependency, "host_dependency", &neb::host_dependency::operations, neb::host_dependency::entries, "hosts_hosts_dependencies"); e.register_event(io::events::neb, neb::de_host, "host", &neb::host::operations, neb::host::entries, "hosts"); e.register_event(io::events::neb, neb::de_host_group, "host_group", &neb::host_group::operations, neb::host_group::entries, "hostgroups"); e.register_event(io::events::neb, neb::de_host_group_member, "host_group_member", &neb::host_group_member::operations, neb::host_group_member::entries, "hosts_hostgroups"); e.register_event(io::events::neb, neb::de_host_parent, "host_parent", &neb::host_parent::operations, neb::host_parent::entries, "hosts_hosts_parents"); e.register_event(io::events::neb, neb::de_host_status, "host_status", &neb::host_status::operations, neb::host_status::entries, "hosts"); e.register_event(io::events::neb, neb::de_instance, "instance", &neb::instance::operations, neb::instance::entries, "instances"); e.register_event(io::events::neb, neb::de_instance_status, "instance_status", &neb::instance_status::operations, neb::instance_status::entries, "instances"); e.register_event(io::events::neb, neb::de_log_entry, "log_entry", &neb::log_entry::operations, neb::log_entry::entries, "logs"); e.register_event(io::events::neb, neb::de_module, "module", &neb::module::operations, neb::module::entries, "modules"); e.register_event(io::events::neb, neb::de_service_check, "service_check", &neb::service_check::operations, neb::service_check::entries, "services"); e.register_event( io::events::neb, neb::de_service_dependency, "service_dependency", &neb::service_dependency::operations, neb::service_dependency::entries, "services_services_dependencies"); e.register_event(io::events::neb, neb::de_service, "service", &neb::service::operations, neb::service::entries, "services"); e.register_event(io::events::neb, neb::de_service_group, "service_group", &neb::service_group::operations, neb::service_group::entries, "servicegroups"); e.register_event( io::events::neb, neb::de_service_group_member, "service_group_member", &neb::service_group_member::operations, neb::service_group_member::entries, "services_servicegroups"); e.register_event(io::events::neb, neb::de_service_status, "service_status", &neb::service_status::operations, neb::service_status::entries, "services"); e.register_event(io::events::neb, neb::de_instance_configuration, "instance_configuration", &neb::instance_configuration::operations, neb::instance_configuration::entries); e.register_event(io::events::neb, neb::de_responsive_instance, "responsive_instance", &neb::responsive_instance::operations, neb::responsive_instance::entries); } // // Register neb layer. // io::protocols::instance().reg( // "node_events", // neb::node_events_factory(), // 1, // 7); } } }
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function get_ipa(input, lang) { transcription = ipa[input]; if (transcription == undefined) { url = "https://github.com/open-dict-data/ipa-dict/issues/new?title=" + lang + ":%20" + input + "&labels=missing_pronunciation"; issue = "<a href='" + url + "'>Add it to the dictionary</a>!"; output.innerHTML = "Pronunciation not found... " + issue; } else { transcription_out = "/" + transcription.replace(/, /g, "/, /") + "/" format = "<strong>" + input + "</strong><br>" + transcription_out; output.innerHTML = format; } } function show_ipa() { input = document.getElementById("input").value; output = document.getElementById("output"); get_ipa(input, lang); play_audio(input, lang); return false; } function play_audio(w, l) { base_url = audio_loc(w, l); if (base_url) { player = document.getElementById("player"); player.innerHTML = "<audio id='reading' src='" + base_url + "'></audio>"; window.reading.play(); } } function suggest_entry() { var demo1 = new autoComplete({ selector: '#input', minChars: 2, source: function(term, suggest){ term = term.toLowerCase(); var choices = keys; var suggestions = []; for (i=0;i<choices.length;i++) if (~choices[i].toLowerCase().indexOf(term)) suggestions.push(choices[i]); suggest(suggestions); } }); } function audio_loc(w, l) { url = { "nb":"https://raw.githubusercontent.com/open-dict-data/norsk-uttale/master/mp3/" + w + ".mp3" }; if (url[l]) { return url[l]; } else { return false; } }
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package org.fcrepo.server.rest; import java.io.CharArrayWriter; import java.io.IOException; import java.io.InputStream; import java.net.URLEncoder; import java.util.ArrayList; import java.util.Date; import java.util.List; import javax.ws.rs.DELETE; import javax.ws.rs.DefaultValue; import javax.ws.rs.GET; import javax.ws.rs.POST; import javax.ws.rs.PUT; import javax.ws.rs.Path; import javax.ws.rs.PathParam; import javax.ws.rs.Produces; import javax.ws.rs.QueryParam; import javax.ws.rs.core.MediaType; import javax.ws.rs.core.Response; import javax.ws.rs.core.Response.ResponseBuilder; import javax.ws.rs.core.Response.Status; import org.fcrepo.common.http.WebClient; import org.fcrepo.common.http.WebClientConfiguration; import org.fcrepo.server.Context; import org.fcrepo.server.rest.RestUtil.RequestContent; import org.fcrepo.server.rest.param.DateTimeParam; import org.fcrepo.server.storage.types.Datastream; import org.fcrepo.server.storage.types.DatastreamDef; import org.fcrepo.server.storage.types.MIMETypedStream; import org.fcrepo.utilities.DateUtility; /** * A rest controller to handle CRUD operations for the Fedora datastream API * (API-M) Request syntax: * <p/> * GET,PUT,POST,DELETE * prototol://hostname:port/fedora/objects/PID/datastreams/DSID/versions ? * [dateTime][parmArray] * <ul> * <li>protocol - either http or https.</li> * <li>hostname - required hostname of the Fedora server.</li> * <li>port - required port number on which the Fedora server is running.</li> * <li>fedora - required path name for the Fedora access service.</li> * <li>objects - required path name for the Fedora service.</li> * <li>PID - required persistent idenitifer of the digital object.</li> * <li>DSID - required datastream identifier for the datastream.</li> * <li>dateTime - optional dateTime value indicating dissemination of a version * of the digital object at the specified point in time. * <li>parmArray - optional array of method parameters consisting of name/value * pairs in the form parm1=value1&parm2=value2...</li> * * @author cuong.tran@yourmediashelf.com * @version $Id$ */ @Path("/{pid}/datastreams") public class DatastreamResource extends BaseRestResource { /** * Inquires upon all object Datastreams to obtain datastreams contained by a * digital object. This returns a set of datastream locations that represent * all possible datastreams available in the object. * <p/> * GET /objects/{pid}/datastreams ? asOfDateTime format * * @param pid * @param dateTime * @param format */ @GET public Response listDatastreams(@PathParam(RestParam.PID) String pid, @QueryParam(RestParam.AS_OF_DATE_TIME) String dateTime, @QueryParam(RestParam.FORMAT) @DefaultValue(HTML) String format) { try { Date asOfDateTime = DateUtility.parseDateOrNull(dateTime); Context context = getContext(); MediaType mime = RestHelper.getContentType(format); DatastreamDef[] dsDefs = apiAService.listDatastreams(context, pid, asOfDateTime); String output = getSerializer(context).dataStreamsToXML(pid, asOfDateTime, dsDefs); if (TEXT_HTML.isCompatible(mime)) { CharArrayWriter writer = new CharArrayWriter(); transform(output, "access/listDatastreams.xslt", writer); output = writer.toString(); } return Response.ok(output, mime).build(); } catch (Exception ex) { return handleException(ex); } } /** * Invoke API-M.getDatastream(context, pid, dsID, asOfDateTime) * <p/> * GET /objects/{pid}/datastreams/{dsID} ? asOfDateTime & * validateChecksum=true|false */ @Path("/{dsID}") @GET public Response getDatastreamProfile(@PathParam(RestParam.PID) String pid, @PathParam(RestParam.DSID) String dsID, @QueryParam(RestParam.AS_OF_DATE_TIME) String dateTime, @QueryParam(RestParam.FORMAT) @DefaultValue(HTML) String format, @QueryParam(RestParam.VALIDATE_CHECKSUM) @DefaultValue("false") boolean validateChecksum) { try { Date asOfDateTime = DateUtility.parseDateOrNull(dateTime); Context context = getContext(); Datastream dsProfile = apiMService.getDatastream(context, pid, dsID, asOfDateTime); if (dsProfile == null) { return Response .status(Status.NOT_FOUND) .type("text/plain") .entity("No datastream could be found. Either there is no datastream for " + "the digital object \"" + pid + "\" with datastream ID of \"" + dsID + "\" OR there are no datastreams that match the specified " + "date/time value of \"" + dateTime + "\".") .build(); } String xml = getSerializer(context) .datastreamProfileToXML(pid, dsID, dsProfile, asOfDateTime, validateChecksum); MediaType mime = RestHelper.getContentType(format); if (TEXT_HTML.isCompatible(mime)) { CharArrayWriter writer = new CharArrayWriter(); transform(xml, "management/viewDatastreamProfile.xslt", writer); xml = writer.toString(); } return Response.ok(xml, mime).build(); } catch (Exception ex) { return handleException(ex); } } /** * Invoke API-M.getDatastreamHistory(context,pid,dsId) GET * /objects/{pid}/datastreams/{dsID}/history * * @param pid * the PID of the digital object * @param dsID * the ID of the datastream * @param format * the desired format. Either html or "xml" * @return the response, either in XML or XHTML format */ @Path("/{dsID}/history") @GET public Response getDatastreamHistory(@PathParam(RestParam.PID) String pid, @PathParam(RestParam.DSID) String dsID, @QueryParam(RestParam.FORMAT) @DefaultValue(HTML) String format) { try { Context context = getContext(); Datastream[] datastreamHistory = apiMService.getDatastreamHistory(context, pid, dsID); if (datastreamHistory == null || datastreamHistory.length == 0) { return Response .status(Status.NOT_FOUND) .type("text/plain") .entity("No datastream history could be found. There is no datastream history for " + "the digital object \"" + pid + "\" with datastream ID of \"" + dsID).build(); } String xml = getSerializer(context) .datastreamHistoryToXml(pid, dsID, datastreamHistory); MediaType mime = RestHelper.getContentType(format); if (TEXT_HTML.isCompatible(mime)) { CharArrayWriter writer = new CharArrayWriter(); transform(xml, "management/viewDatastreamHistory.xslt", writer); xml = writer.toString(); } return Response.ok(xml, mime).build(); } catch (Exception e) { return handleException(e); } } /** * Invoke API-A.getDatastreamDissemination(context, pid, dsID, asOfDateTime) * <p/> * GET /objects/{pid}/datastreams/{dsID}/content ? asOfDateTime */ @Path("/{dsID}/content") @GET public Response getDatastream(@PathParam(RestParam.PID) String pid, @PathParam(RestParam.DSID) String dsID, @QueryParam(RestParam.AS_OF_DATE_TIME) String dateTime, @QueryParam(RestParam.DOWNLOAD) String download) { Context context = getContext(); try { Date asOfDateTime = DateUtility.parseDateOrNull(dateTime); MIMETypedStream stream = apiAService.getDatastreamDissemination(context, pid, dsID, asOfDateTime); if (datastreamFilenameHelper != null) { datastreamFilenameHelper .addContentDispositionHeader(context, pid, dsID, download, asOfDateTime, stream); } return buildResponse(stream); } catch (Exception ex) { return handleException(ex); } } /** * Invoke API-M.purgeDatastream * <p/> * DELETE /objects/{pid}/datastreams/{dsID} ? startDT endDT logMessage */ @Path("/{dsID}") @DELETE @Produces(MediaType.APPLICATION_JSON) public Response deleteDatastream(@PathParam(RestParam.PID) String pid, @PathParam(RestParam.DSID) String dsID, @QueryParam(RestParam.START_DT) String startDT, @QueryParam(RestParam.END_DT) String endDT, @QueryParam(RestParam.LOG_MESSAGE) String logMessage) { try { Context context = getContext(); Date startDate = DateUtility.parseDateOrNull(startDT); Date endDate = DateUtility.parseDateOrNull(endDT); Date[] purged = apiMService.purgeDatastream(context, pid, dsID, startDate, endDate, logMessage); // convert purged into a String[] so we can return it as a JSON array List<String> results = new ArrayList<String>(); for (Date d : purged) { results.add(DateUtility.convertDateToXSDString(d)); } return Response.ok(mapper.writeValueAsString(results)).build(); } catch (Exception ex) { return handleException(ex); } } /** * Modify an existing datastream. * <p/> * PUT /objects/{pid}/datastreams/{dsID} ? dsLocation altIDs dsLabel * versionable dsState formatURI checksumType checksum logMessage * <p/> * Successful Response: Status: 200 OK Content-Type: text/xml Body: XML * datastream profile */ @Path("/{dsID}") @PUT public Response modifyDatastream(@PathParam(RestParam.PID) String pid, @PathParam(RestParam.DSID) String dsID, @QueryParam(RestParam.DS_LOCATION) String dsLocation, @QueryParam(RestParam.ALT_IDS) List<String> altIDs, @QueryParam(RestParam.DS_LABEL) String dsLabel, @QueryParam(RestParam.VERSIONABLE) Boolean versionable, @QueryParam(RestParam.DS_STATE) String dsState, @QueryParam(RestParam.FORMAT_URI) String formatURI, @QueryParam(RestParam.CHECKSUM_TYPE) String checksumType, @QueryParam(RestParam.CHECKSUM) String checksum, @QueryParam(RestParam.MIME_TYPE) String mimeType, @QueryParam(RestParam.LOG_MESSAGE) String logMessage, @QueryParam(RestParam.IGNORE_CONTENT) @DefaultValue("false") boolean ignoreContent, @QueryParam(RestParam.LAST_MODIFIED_DATE) DateTimeParam lastModifiedDate) { return addOrUpdateDatastream(false, pid, dsID, headers.getMediaType(), mimeType, null, dsLocation, altIDs, dsLabel, versionable, dsState, formatURI, checksumType, checksum, logMessage, ignoreContent, lastModifiedDate); } /** * Add or modify a datastream. * <p/> * POST /objects/{pid}/datastreams/{dsID} ? controlGroup dsLocation altIDs * dsLabel versionable dsState formatURI checksumType checksum logMessage * <p/> * Successful Response: Status: 201 Created Location: Datastream profile URL * Content-Type: text/xml Body: XML datastream profile */ @Path("/{dsID}") @POST public Response addDatastream(@PathParam(RestParam.PID) String pid, @PathParam(RestParam.DSID) String dsID, @QueryParam(RestParam.CONTROL_GROUP) @DefaultValue("X") String controlGroup, @QueryParam(RestParam.DS_LOCATION) String dsLocation, @QueryParam(RestParam.ALT_IDS) List<String> altIDs, @QueryParam(RestParam.DS_LABEL) String dsLabel, @QueryParam(RestParam.VERSIONABLE) @DefaultValue("true") Boolean versionable, @QueryParam(RestParam.DS_STATE) @DefaultValue("A") String dsState, @QueryParam(RestParam.FORMAT_URI) String formatURI, @QueryParam(RestParam.CHECKSUM_TYPE) String checksumType, @QueryParam(RestParam.CHECKSUM) String checksum, @QueryParam(RestParam.MIME_TYPE) String mimeType, @QueryParam(RestParam.LOG_MESSAGE) String logMessage) { return addOrUpdateDatastream(true, pid, dsID, headers.getMediaType(), mimeType, controlGroup, dsLocation, altIDs, dsLabel, versionable, dsState, formatURI, checksumType, checksum, logMessage, false, null); } protected Response addOrUpdateDatastream(boolean posted, String pid, String dsID, MediaType mediaType, String mimeType, String controlGroup, String dsLocation, List<String> altIDList, String dsLabel, Boolean versionable, String dsState, String formatURI, String checksumType, String checksum, String logMessage, boolean ignoreContent, DateTimeParam lastModifiedDate) { try { String[] altIDs = {}; if (altIDList != null && altIDList.size() > 0) { altIDs = altIDList.toArray(new String[altIDList.size()]); } Context context = getContext(); Datastream existingDS = apiMService.getDatastream(context, pid, dsID, null); if (!posted && versionable == null && existingDS != null){ versionable = existingDS.DSVersionable; } Date requestModDate = null; if (lastModifiedDate != null) { requestModDate = lastModifiedDate.getValue(); } // If a datastream is set to Deleted state, it must be set to // another state before any other changes can be made if (existingDS != null && existingDS.DSState.equals("D") && dsState != null) { if (dsState.equals("A") || dsState.equals("I")) { apiMService.setDatastreamState(context, pid, dsID, dsState, logMessage); existingDS.DSState = dsState; } } InputStream is = null; // Determine if datastream content is included in the request if (!ignoreContent) { RestUtil restUtil = new RestUtil(); RequestContent content = restUtil.getRequestContent(servletRequest, headers); if (content != null && content.getContentStream() != null) { is = content.getContentStream(); // Give preference to the passed in mimeType if (mimeType == null && content.getMimeType() != null) { mimeType = content.getMimeType(); } } } // Make sure that there is a mime type value if (mimeType == null && mediaType != null) { mimeType = mediaType.toString(); } else if (mimeType == null && mediaType == null && existingDS != null) { mimeType = existingDS.DSMIME; } // set default control group based on mimeType if (dsLocation == null && TEXT_XML.isCompatible(MediaType.valueOf(mimeType)) && controlGroup == null) { controlGroup = "X"; } if (existingDS == null) { if (posted) { if ((dsLocation == null || dsLocation.equals("")) && ("X".equals(controlGroup) || "M" .equals(controlGroup))) { dsLocation = apiMService.putTempStream(context, is); } dsID = apiMService.addDatastream(context, pid, dsID, altIDs, dsLabel, versionable, mimeType, formatURI, dsLocation, controlGroup, dsState, checksumType, checksum, logMessage); } else { return Response.status(Response.Status.NOT_FOUND).build(); } } else { if ("X".equals(existingDS.DSControlGrp)) { // Inline XML can only be modified by value. If there is no stream, // but there is a dsLocation attempt to retrieve the content. if (is == null && dsLocation != null && !dsLocation.equals("")) { try { WebClientConfiguration webconfig = fedoraServer.getWebClientConfig(); WebClient webClient = new WebClient(webconfig); is = webClient.get(dsLocation, true); } catch (IOException ioe) { throw new Exception("Could not retrive content from " + dsLocation + " due to error: " + ioe.getMessage()); } } apiMService.modifyDatastreamByValue(context, pid, dsID, altIDs, dsLabel, mimeType, formatURI, is, checksumType, checksum, logMessage, requestModDate); } else { // Managed content can only be modified by reference. // If there is no dsLocation, but there is a content stream, // store the stream in a temporary location. if (dsLocation == null && ("M".equals(existingDS.DSControlGrp))) { if (is != null) { dsLocation = apiMService.putTempStream(context, is); } else { dsLocation = null; } } apiMService.modifyDatastreamByReference(context, pid, dsID, altIDs, dsLabel, mimeType, formatURI, dsLocation, checksumType, checksum, logMessage, requestModDate); } if (dsState != null) { if (dsState.equals("A") || dsState.equals("D") || dsState.equals("I")) { if (!dsState.equals(existingDS.DSState)) { apiMService.setDatastreamState(context, pid, dsID, dsState, logMessage); } } } if (versionable != existingDS.DSVersionable) { apiMService.setDatastreamVersionable(context, pid, dsID, versionable, logMessage); } } ResponseBuilder builder; if (posted) { builder = Response.created(uriInfo.getRequestUri() .resolve(URLEncoder.encode(dsID, DEFAULT_ENC))); } else { // put builder = Response.ok(); } builder.header("Content-Type", MediaType.TEXT_XML); Datastream dsProfile = apiMService.getDatastream(context, pid, dsID, null); String xml = getSerializer(context).datastreamProfileToXML(pid, dsID, dsProfile, null, false); builder.entity(xml); return builder.build(); } catch (Exception ex) { return handleException(ex); } } }
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.. code-block:: csharp CancellationToken cn = new CancellationToken(); ReadOnlyCollectionPage<Service> x = await contentDeliveryClient.ListServicesAsync(cn); .. code-block:: go err := services.List(client, nil).EachPage(func(page pagination.Page) (bool, error) { serviceList, err := osServices.ExtractServices(page) for _, service := range serviceList { // ... } return true, nil }) .. code-block:: java ServiceApi serviceApi = cdnApi.getServiceApi(); List<Service> serviceList = serviceApi.list().concat().toList(); .. code-block:: javascript client.getServices(function(err, services) { if (err) { // TODO handle as appropriate } // TODO use your services array here }); .. code-block:: php $services = $cdnService->listServices(); .. code-block:: python services = cdn.list_services() .. code-block:: ruby @client.services .. code-block:: sh $ curl -X GET $ENDPOINT/services \ -H "X-Auth-Token: $TOKEN" \ -H "Accept: application/json" | python -m json.tool
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'use strict'; var paths, fs = require('fs'), gulp = require('gulp'), jshint = require('gulp-jshint'), jscs = require('gulp-jscs'), mocha = require('gulp-mocha'), istanbul = require('gulp-istanbul'), complexity = require('gulp-complexity'), runSequence = require('run-sequence'), open = require('open'), help = require('./tasks/help'); paths = { lint: [ 'test/**/*.js', 'tasks/**/*.js', '*.js' ], complexity: ['test/**/*.js', 'tasks/**/*.js', '*.js'], cover: ['picel.js'], unit: ['test/**/*.js', '!test/fixture/*.js'], watch: ['picel.js'], 'coverage-report-directory': 'reports/coverage', 'coverage-report': 'reports/coverage/lcov-report/index.html' }; function lintTask() { return gulp.src(paths.lint) .pipe(jshint()) .pipe(jshint.reporter('jshint-stylish')) .pipe(jshint.reporter('fail')) .pipe(jscs()); } function complexityTask() { return gulp.src(paths.complexity) .pipe(complexity({ halstead: 29, cyclomatic: 17 })); } function coverTask() { return gulp.src(paths.cover) .pipe(istanbul({includeUntested: true})) .pipe(istanbul.hookRequire()); } function mochaTest() { return gulp.src(paths.unit) .pipe(mocha()); } function unitTask() { return mochaTest() .pipe(istanbul.writeReports({ reporters: ['lcov', 'json'], dir: paths['coverage-report-directory'] })); } function unitCiTask() { return mochaTest() .pipe(istanbul.writeReports({ dir: paths['coverage-report-directory'] })); } function testTask(done) { return runSequence( 'lint', 'complexity', 'unit', done ); } function ciTask(done) { return runSequence( 'lint', 'complexity', 'unit-ci', done ); } function coverageReportTask() { var file = paths['coverage-report']; if (!fs.existsSync(file)) { console.error('Run gulp test first.'); return; } open(file); } function watchTask() { return gulp.watch(paths.watch, ['test']); } gulp.task('default', help); gulp.task('help', help); gulp.task('lint', lintTask); gulp.task('complexity', complexityTask); gulp.task('test-cover', coverTask); gulp.task('unit', ['test-cover'], unitTask); gulp.task('unit-ci', ['test-cover'], unitCiTask); gulp.task('test', testTask); gulp.task('ci', ciTask); gulp.task('coverage-report', coverageReportTask); gulp.task('watch', watchTask);
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package rest import ( "io/ioutil" "log" "net/url" "testing" "github.com/rs/rest-layer/schema" "github.com/stretchr/testify/assert" ) func TestResourceBindDupViaAlias(t *testing.T) { r := NewResource(schema.Schema{"f": schema.Field{}}, nil, DefaultConf) r.Alias("foo", url.Values{}) log.SetOutput(ioutil.Discard) assert.Panics(t, func() { r.Bind("foo", "f", NewResource(nil, nil, DefaultConf)) }) } func TestResourceBindOnMissingField(t *testing.T) { r := NewResource(schema.Schema{"f": schema.Field{}}, nil, DefaultConf) log.SetOutput(ioutil.Discard) assert.Panics(t, func() { r.Bind("foo", "m", NewResource(schema.Schema{"f": schema.Field{}}, nil, DefaultConf)) }) }
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<?php declare(strict_types=1); /* * This file is part of SolidInvoice project. * * (c) Pierre du Plessis <open-source@solidworx.co> * * This source file is subject to the MIT license that is bundled * with this source code in the file LICENSE. */ namespace SolidInvoice\CoreBundle\Tests\Listener; use Mockery\Adapter\Phpunit\MockeryPHPUnitIntegration; use Mockery as M; use PHPUnit\Framework\TestCase; use SolidInvoice\CoreBundle\Listener\EmailFromListener; use SolidInvoice\SettingsBundle\SystemConfig; use SolidInvoice\UserBundle\Entity\User; use Symfony\Bridge\Twig\Mime\TemplatedEmail; use Symfony\Component\Mailer\Envelope; use Symfony\Component\Mailer\Event\MessageEvent; use Symfony\Component\Mime\Address; use Symfony\Component\Security\Core\Authentication\Token\Storage\TokenStorageInterface; use Symfony\Component\Security\Core\Authentication\Token\TokenInterface; class EmailFromListenerTest extends TestCase { use MockeryPHPUnitIntegration; public function testWithFromAddressConfigured(): void { $systemConfig = M::mock(SystemConfig::class); $systemConfig->shouldReceive('get') ->with('email/from_address') ->andReturn('info@example.com'); $systemConfig->shouldReceive('get') ->with('email/from_name') ->andReturn('SolidInvoice'); $tokenStorage = M::mock(TokenStorageInterface::class); $tokenStorage->shouldNotReceive('getToken'); $listener = new EmailFromListener($systemConfig, $tokenStorage); $message = new TemplatedEmail(); $listener(new MessageEvent($message, Envelope::create($message), 'smtp')); self::assertEquals([new Address('info@example.com', 'SolidInvoice')], $message->getFrom()); } public function testWithoutFromAddress(): void { $systemConfig = M::mock(SystemConfig::class); $systemConfig->shouldReceive('get') ->with('email/from_address') ->andReturn(null); $token = M::mock(TokenInterface::class); $user = new User(); $user->setEmail('test@example.com'); $token->shouldReceive('getUser') ->once() ->withNoArgs() ->andReturn($user); $tokenStorage = M::mock(TokenStorageInterface::class); $tokenStorage->shouldReceive('getToken') ->once() ->withNoArgs() ->andReturn($token); $listener = new EmailFromListener($systemConfig, $tokenStorage); $message = new TemplatedEmail(); $listener(new MessageEvent($message, Envelope::create($message), 'smtp')); self::assertEquals([new Address('test@example.com')], $message->getFrom()); } public function testEvents(): void { self::assertSame([MessageEvent::class], \array_keys(EmailFromListener::getSubscribedEvents())); } }
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@interface PodsDummy_Pods_better : NSObject @end @implementation PodsDummy_Pods_better @end
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package com.github.df.restypass.testserver.controller; import com.github.df.restypass.testserver.entity.User; import org.springframework.web.bind.annotation.RequestMapping; import org.springframework.web.bind.annotation.RequestMethod; import org.springframework.web.bind.annotation.RestController; import java.util.concurrent.Future; /** * Created by darrenfu on 17-7-29. */ @RestController @RequestMapping("/resty") public class TestController { @RequestMapping(value = "/get_nothing", method = RequestMethod.GET) public void nothing() { System.out.println("############nothing"); } @RequestMapping(value = "/get_status", method = RequestMethod.GET) public String getStatus() { return "Status is OK"; } @RequestMapping(value = "/get_user", method = RequestMethod.GET) public User getUser() throws InterruptedException { System.out.println("get user called"); Thread.sleep(5000); System.out.println("get user finished!"); return new User("test_user"); } @RequestMapping(value = "/get_void_async", method = RequestMethod.GET) void getVoidAsync() { System.out.println("void method called"); } }
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require 'spec_helper' class ScreenPopulatorScreen include TE3270 text_field(:editable, 1, 2, 10, true) text_field(:read_only, 2, 3, 12, false) end describe TE3270::ScreenPopulator do let(:platform) { double('platform') } let(:screen_object) { ScreenPopulatorScreen.new platform } it 'should set a value in a text field' do platform.should_receive(:put_string).with('the_value', 1, 2) screen_object.populate_screen_with editable: 'the_value' end it 'should not set a value when a text field is read only' do platform.should_not_receive(:put_string) screen_object.populate_screen_with read_only: 'the_value' end it 'should attempt to set all values from the provided Hash' do platform.should_receive(:put_string).with('the_value', 1, 2) platform.should_not_receive(:put_string).with('read_only', 2, 3) screen_object.populate_screen_with(editable: 'the_value', read_only: 'read_only') end end
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import type { VisWrapperProps } from '../VisWrapper'; import type { SDKRecord, Fields, CSeriesBasic, CSeriesLine, SupportedChartTypes, ChartLayoutProps, CommonCartesianProperties } from '../types'; export declare type CSparklineSeries = Pick<CSeriesBasic, 'color' | 'visible'> & CSeriesLine; export declare type CSparkline = { series?: CSparklineSeries[] | { [key: string]: CSparklineSeries; }; /** * Either render a gap where data is null, or treat it as a value 0 */ render_null_values?: boolean; type?: SupportedChartTypes['sparkline']; } & Pick<CommonCartesianProperties, 'y_axis'>; export declare type SparklineProps = VisWrapperProps & ChartLayoutProps & { data: SDKRecord[]; fields: Fields; config?: CSparkline; };
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package objects import ( "fmt" "time" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/aws/awserr" "github.com/aws/aws-sdk-go/service/s3" "github.com/yomon8/aloget/config" ) const ( timeFormatObjectPath = "2006/01/02" ) type List []*s3.Object func (objs List) Len() int { return len(objs) } func (objs List) Swap(i, j int) { objs[i], objs[j] = objs[j], objs[i] } func (objs List) Less(i, j int) bool { return objs[i].LastModified.Before(*objs[j].LastModified) } func (objs List) GetTotalByte() int64 { var total int64 for _, o := range objs { total += *o.Size } return total } func (objs List) GetOldestTime() time.Time { return *objs[0].LastModified } func (objs List) GetLatestTime() time.Time { return *objs[objs.Len()-1].LastModified } func (objs List) GetAllKeys() []*string { keys := make([]*string, objs.Len()) for i, obj := range objs { keys[i] = obj.Key } return keys } func getTargetPaths(config *config.Config) map[string]string { target := config.StartTime end := config.EndTime targetPaths := make(map[string]string, 10) for i := 0; end.Sub(target) > 0; i++ { datekey := target.In(time.UTC).Format(timeFormatObjectPath) if targetPaths[datekey] == "" { targetPaths[datekey] = fmt.Sprintf("%s/AWSLogs/%s/elasticloadbalancing/%s/%s", config.S3Prefix, config.AccountID, config.Region, datekey, ) } target = target.Add(time.Duration(i) * time.Hour) } return targetPaths } func GetObjectList(config *config.Config) (*List, error) { s3Objects := make([]*s3.Object, 0) for _, path := range getTargetPaths(config) { input := &s3.ListObjectsInput{ Bucket: aws.String(config.S3Bucket), MaxKeys: aws.Int64(config.MaxKeyCount), Prefix: aws.String(path), } result, err := s3.New(config.Session).ListObjects(input) if err != nil { if aerr, ok := err.(awserr.Error); ok { switch aerr.Code() { case s3.ErrCodeNoSuchBucket: return nil, fmt.Errorf( "s3 bucket not found. %#v %#v\n", s3.ErrCodeNoSuchBucket, aerr.Error(), ) default: return nil, fmt.Errorf( "get s3 list error. %#v\n", aerr.Error(), ) } } else { return nil, fmt.Errorf( "get s3 list error. %#v\n", err, ) } } for _, o := range result.Contents { if o.LastModified.Sub(config.StartTime) > 0 && o.LastModified.Sub(config.EndTime) < 0 { s3Objects = append(s3Objects, o) } } } var objs List = s3Objects return &objs, nil }
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package com.suitedslime.efficientcraft.network.packet; import java.io.DataInputStream; import java.io.DataOutputStream; import java.io.IOException; import net.minecraft.entity.player.EntityPlayer; import net.minecraft.network.INetworkManager; import net.minecraft.tileentity.TileEntity; import com.suitedslime.efficientcraft.network.PacketTypeHandler; import com.suitedslime.efficientcraft.tileentity.TileEntityStructure.TileStructurePlaceholder; import cpw.mods.fml.common.network.Player; import cpw.mods.fml.relauncher.Side; public class PacketClientData extends PacketEC { public int x, y, z; public String dataKey; public Object dataValue; public PacketClientData() { super(PacketTypeHandler.CLIENT_DATA, false); } public PacketClientData(int x, int y, int z, String dataKey, Object dataValue) { super(PacketTypeHandler.CLIENT_DATA, false); this.x = x; this.y = y; this.z = z; this.dataKey = dataKey; this.dataValue = dataValue; } @Override public void readData(DataInputStream data) throws IOException { this.x = data.readInt(); this.y = data.readInt(); this.z = data.readInt(); this.dataKey = data.readUTF(); this.dataValue = readObject(data); } @Override public void writeData(DataOutputStream dos) throws IOException { dos.writeInt(this.x); dos.writeInt(this.y); dos.writeInt(this.z); dos.writeUTF(this.dataKey); writeObject(this.dataValue, dos); } @Override public void execute(INetworkManager network, Player player, Side side) { if (side == Side.CLIENT) { TileEntity tileEntity = ((EntityPlayer)player).worldObj.getBlockTileEntity(x, y, z); if (tileEntity != null && tileEntity instanceof TileStructurePlaceholder) { ((TileStructurePlaceholder)tileEntity).readClientData(dataKey, dataValue); } } } public static void writeObject(Object object, DataOutputStream dos) throws IOException { if (object instanceof String) { dos.writeByte(0); dos.writeUTF(object.toString()); } else if (object instanceof Byte) { dos.writeByte(1); dos.writeByte(((Byte) object).byteValue()); } else if (object instanceof Integer) { dos.writeByte(2); dos.writeInt(((Integer) object).intValue()); } else if (object instanceof Float) { dos.writeByte(3); dos.writeFloat(((Float) object).floatValue()); } else if (object instanceof Double) { dos.writeByte(4); dos.writeDouble(((Double) object).doubleValue()); } } public static Object readObject(DataInputStream data) throws IOException { ObjectType type = ObjectType.values()[data.readByte()]; switch (type) { case DOUBLE: return data.readDouble(); case FLOAT: return data.readFloat(); case INTEGER: return data.readInt(); case BYTE: return data.readByte(); case STRING: return data.readUTF(); default: return null; } } private static enum ObjectType { STRING, BYTE, INTEGER, FLOAT, DOUBLE; } }
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class CheckFileNameEscaping { }
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frontend-patterns ================= A collection of front end patterns which can be reused in any project.
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package org.broadleafcommerce.vendor.authorizenet.web.controller; import org.apache.commons.logging.Log; import org.apache.commons.logging.LogFactory; import org.broadleafcommerce.common.payment.dto.PaymentRequestDTO; import org.broadleafcommerce.common.payment.dto.PaymentResponseDTO; import org.broadleafcommerce.common.payment.service.PaymentGatewayConfiguration; import org.broadleafcommerce.common.payment.service.PaymentGatewayTransactionService; import org.broadleafcommerce.common.payment.service.PaymentGatewayWebResponsePrintService; import org.broadleafcommerce.common.payment.service.PaymentGatewayWebResponseService; import org.broadleafcommerce.common.vendor.service.exception.PaymentException; import org.broadleafcommerce.common.web.payment.controller.PaymentGatewayAbstractController; import org.broadleafcommerce.payment.service.gateway.AuthorizeNetConfiguration; import org.broadleafcommerce.vendor.authorizenet.service.payment.AuthorizeNetCheckoutService; import org.springframework.stereotype.Controller; import org.springframework.ui.Model; import org.springframework.web.bind.annotation.PathVariable; import org.springframework.web.bind.annotation.RequestMapping; import org.springframework.web.bind.annotation.RequestMethod; import org.springframework.web.bind.annotation.ResponseBody; import org.springframework.web.servlet.mvc.support.RedirectAttributes; import java.util.Map; import java.util.Map.Entry; import java.util.Set; import javax.annotation.Resource; import javax.servlet.http.HttpServletRequest; import javax.servlet.http.HttpServletResponse; import net.authorize.sim.Result; /** * @author Chad Harchar (charchar) * @author Elbert Bautista (elbertbautista) * @deprecated - Transparent Redirect is no longer used in favor of Accept.js integration */ @Deprecated @Controller("blAuthorizeNetController") @RequestMapping("/" + BroadleafAuthorizeNetController.GATEWAY_CONTEXT_KEY) public class BroadleafAuthorizeNetController extends PaymentGatewayAbstractController { protected static final Log LOG = LogFactory.getLog(BroadleafAuthorizeNetController.class); protected static final String GATEWAY_CONTEXT_KEY = "authorizenet"; @Resource(name = "blAuthorizeNetWebResponseService") protected PaymentGatewayWebResponseService paymentGatewayWebResponseService; @Resource(name = "blAuthorizeNetCheckoutService") protected AuthorizeNetCheckoutService authorizeNetCheckoutService; @Resource(name = "blAuthorizeNetConfiguration") protected AuthorizeNetConfiguration configuration; @Resource(name = "blPaymentGatewayWebResponsePrintService") protected PaymentGatewayWebResponsePrintService webResponsePrintService; @Resource(name = "blAuthorizeNetTransactionService") protected PaymentGatewayTransactionService transactionService; @Override public String getGatewayContextKey() { return GATEWAY_CONTEXT_KEY; } @Override public void handleProcessingException(Exception e, RedirectAttributes redirectAttributes) throws PaymentException { // Don't do anything here because there isn't enough information in the given parameters to actually // void the payment that we need to void the payment throw new PaymentException(e); } @Override public void handleUnsuccessfulTransaction(Model model, RedirectAttributes redirectAttributes, PaymentResponseDTO responseDTO) throws PaymentException { LOG.trace("A Processing Exception Occurred for " + GATEWAY_CONTEXT_KEY + ". Adding Error to Redirect Attributes."); redirectAttributes.addAttribute(PAYMENT_PROCESSING_ERROR, getProcessingErrorMessage()); } @Override public PaymentGatewayWebResponseService getWebResponseService() { return paymentGatewayWebResponseService; } @Override public PaymentGatewayConfiguration getConfiguration() { return configuration; } @Override @RequestMapping(value = "/error", method = RequestMethod.GET) public String errorEndpoint(Model model, HttpServletRequest request, RedirectAttributes redirectAttributes, Map<String, String> pathVars) throws PaymentException { redirectAttributes.addAttribute(PAYMENT_PROCESSING_ERROR, getProcessingErrorMessage()); for (String key : (Set<String>) request.getParameterMap().keySet()) { redirectAttributes.addAttribute(key, request.getParameter(key)); } return getOrderReviewRedirect(); } @Override @RequestMapping(value = "/return", method = RequestMethod.GET) public String returnEndpoint(Model model, HttpServletRequest request, final RedirectAttributes redirectAttributes, @PathVariable Map<String, String> pathVars) throws PaymentException { PaymentResponseDTO responseDTO = getWebResponseService().translateWebResponse(request); String orderNumber = lookupOrderNumberFromOrderId(responseDTO); return getConfirmationViewRedirect(orderNumber); } /** * <p> * Invoked by Authorize.net after taking the user's credit card. This should process the payment and add it to the order * as well as check out the order if configured. * * <p> * At this point in the lifecyle of taking payment, the card has already been charged. If there is a problem checking * out the order, we need to communicate that explicitly up to Authorize.net via a VOID transaction. Otherwise, the user * will be left with a non-submitted Order but their card will still be charged. * * @param request * @param response * @param model * @return */ @RequestMapping(value = "/process", method = RequestMethod.POST) public @ResponseBody String process(HttpServletRequest request, HttpServletResponse response, RedirectAttributes redirectAttributes, Model model) throws PaymentException { LOG.debug("Authorize URL request - " + request.getRequestURL().toString()); LOG.debug("Authorize Request Parameter Map (params: [" + requestParamToString(request) + "])"); Result result = Result.createResult(configuration.getLoginId(), configuration.getMd5Key(), request.getParameterMap()); boolean error = false; String returnUrl = ""; try { // Process the payment on the Broadleaf order side returnUrl = super.process(model, request, redirectAttributes); } catch (Exception e) { error = true; } // This is a hacky way to do this but has to be done because the handleProcessingException does not give enough // information to actually be useful in doing what I need. Ideally this logic would go in handleProcessingException // TODO: It is possible that this has already been voided if this was an exception in the checkout workflow itself if (error || getErrorViewRedirect().equals(returnUrl)) { PaymentResponseDTO responseDTO = getWebResponseService().translateWebResponse(request); PaymentRequestDTO voidRequest = responseToVoidRequest(responseDTO); transactionService.voidPayment(voidRequest); return authorizeNetCheckoutService.buildRelayResponse(configuration.getErrorUrl(), result); } return authorizeNetCheckoutService.buildRelayResponse(configuration.getConfirmUrl(), result); } /** * Builds a request with enough information to void the given response from the gateway * * @param response * @return */ protected PaymentRequestDTO responseToVoidRequest(PaymentResponseDTO response) { PaymentRequestDTO request = new PaymentRequestDTO() .transactionTotal(response.getAmount().toString()); for (Entry<String, String> field : response.getResponseMap().entrySet()) { request.additionalField(field.getKey(), field.getValue()); } return request; } protected String requestParamToString(HttpServletRequest request) { StringBuffer requestMap = new StringBuffer(); for (String key : (Set<String>) request.getParameterMap().keySet()) { requestMap.append(key + ": " + request.getParameter(key) + ", "); } return requestMap.toString(); } }
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package com.haibin.haibin; import android.graphics.Bitmap; import android.graphics.BitmapFactory; import android.graphics.Canvas; import android.graphics.Color; import android.graphics.Matrix; import android.graphics.Paint; import android.graphics.PorterDuff; import android.graphics.PorterDuffXfermode; import android.graphics.Rect; import android.graphics.drawable.BitmapDrawable; import android.graphics.drawable.Drawable; import android.media.ExifInterface; import android.util.Base64; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.File; import java.io.FileOutputStream; import java.io.IOException; /** * Desction:Bitmap工具类 * Author:pengjianbo * Date:15/9/17 下午4:26 */ public class BitmapUtils { /** * convert Bitmap to byte array * @param b * @return */ public static byte[] bitmapToByte(Bitmap b) { ByteArrayOutputStream o = new ByteArrayOutputStream(); b.compress(Bitmap.CompressFormat.PNG, 100, o); return o.toByteArray(); } /** * convert byte array to Bitmap * @param b * @return */ public static Bitmap byteToBitmap(byte[] b) { return (b == null || b.length == 0) ? null : BitmapFactory.decodeByteArray(b, 0, b.length); } /** * 把bitmap转换成Base64编码String * @param bitmap * @return */ public static String bitmapToString(Bitmap bitmap) { return Base64.encodeToString(bitmapToByte(bitmap), Base64.DEFAULT); } /** * convert Drawable to Bitmap * @param drawable * @return */ public static Bitmap drawableToBitmap(Drawable drawable) { return drawable == null ? null : ((BitmapDrawable) drawable).getBitmap(); } /** * convert Bitmap to Drawable * @param bitmap * @return */ public static Drawable bitmapToDrawable(Bitmap bitmap) { return bitmap == null ? null : new BitmapDrawable(bitmap); } /** * scale image * @param org * @param newWidth * @param newHeight * @return */ public static Bitmap scaleImageTo(Bitmap org, int newWidth, int newHeight) { return scaleImage(org, (float) newWidth / org.getWidth(), (float) newHeight / org.getHeight()); } /** * scale image * @param src * @param scaleWidth * @param scaleHeight * @return */ public static Bitmap scaleImage(Bitmap src, float scaleWidth, float scaleHeight) { if (src == null) { return null; } Matrix matrix = new Matrix(); matrix.postScale(scaleWidth, scaleHeight); return Bitmap.createBitmap(src, 0, 0, src.getWidth(), src.getHeight(), matrix, true); } /** * 圆bitmap * @param bitmap * @return */ public static Bitmap toRoundCorner(Bitmap bitmap) { int height = bitmap.getHeight(); int width = bitmap.getHeight(); Bitmap output = Bitmap.createBitmap(width, height, Bitmap.Config.ARGB_8888); Canvas canvas = new Canvas(output); final Paint paint = new Paint(); final Rect rect = new Rect(0, 0, width, height); paint.setAntiAlias(true); canvas.drawARGB(0, 0, 0, 0); paint.setColor(Color.TRANSPARENT); canvas.drawCircle(width / 2, height / 2, width / 2, paint); paint.setXfermode(new PorterDuffXfermode(PorterDuff.Mode.SRC_IN)); canvas.drawBitmap(bitmap, rect, rect, paint); return output; } /** * 生成bitmap缩略图 * @param bitmap * @param needRecycle 是否释放bitmap原图 * @param newHeight 目标宽度 * @param newWidth 目标高度 * @return */ public static Bitmap createBitmapThumbnail(Bitmap bitmap, boolean needRecycle, int newHeight, int newWidth) { int width = bitmap.getWidth(); int height = bitmap.getHeight(); // 计算缩放比例 float scaleWidth = ((float) newWidth) / width; float scaleHeight = ((float) newHeight) / height; // 取得想要缩放的matrix参数 Matrix matrix = new Matrix(); matrix.postScale(scaleWidth, scaleHeight); // 得到新的图片 Bitmap newBitMap = Bitmap.createBitmap(bitmap, 0, 0, width, height, matrix, true); if (needRecycle) bitmap.recycle(); return newBitMap; } /** * 保存Bitmap到文件 * @param bitmap * @param target */ public static void saveBitmap(Bitmap bitmap, File target) { if (target.exists()) { target.delete(); } try { FileOutputStream out = new FileOutputStream(target); bitmap.compress(Bitmap.CompressFormat.JPEG, 100, out); out.flush(); out.close(); } catch (Exception e) { e.printStackTrace(); } } /** * 保存Bitmap到文件 * @param bitmap * @param quality 保存质量 0..100 * @param target */ public static void saveBitmap(Bitmap bitmap, int quality, File target) { if (target.exists()) { target.delete(); } try { FileOutputStream out = new FileOutputStream(target); bitmap.compress(Bitmap.CompressFormat.JPEG, quality, out); out.flush(); out.close(); } catch (Exception e) { e.printStackTrace(); } } /** * 压缩bitmp到目标大小(质量压缩) * @param bitmap * @param needRecycle * @param maxSize * @return */ public static Bitmap compressBitmap(Bitmap bitmap, boolean needRecycle, long maxSize) { ByteArrayOutputStream baos = new ByteArrayOutputStream(); bitmap.compress(Bitmap.CompressFormat.JPEG, 100, baos); int options = 100; while (baos.toByteArray().length > maxSize) { baos.reset();//重置baos即清空baos bitmap.compress(Bitmap.CompressFormat.JPEG, options, baos); options -= 10;//每次都减少10 } ByteArrayInputStream isBm = new ByteArrayInputStream(baos.toByteArray()); Bitmap bm = BitmapFactory.decodeStream(isBm, null, null); if(needRecycle) { bitmap.recycle(); } bitmap = bm; return bitmap; } /** * 等比压缩(宽高等比缩放) * @param bitmap * @param needRecycle * @param targetWidth * @param targeHeight * @return */ public static Bitmap compressBitmap(Bitmap bitmap, boolean needRecycle, int targetWidth, int targeHeight) { float sourceWidth = bitmap.getWidth(); float sourceHeight = bitmap.getHeight(); float scaleWidth = targetWidth / sourceWidth; float scaleHeight = targeHeight / sourceHeight; Matrix matrix = new Matrix(); matrix.postScale(scaleWidth, scaleHeight); //长和宽放大缩小的比例 Bitmap bm = Bitmap.createBitmap(bitmap, 0, 0, bitmap.getWidth(), bitmap.getHeight(), matrix, true); if (needRecycle) { bitmap.recycle(); } bitmap = bm; return bitmap; } public static Bitmap compressBitmap(String imageFile, boolean qualityCompress, long maxSize, int targetWidth, int targeHeight) { return compress(imageFile, null, true, qualityCompress, maxSize, targetWidth, targeHeight); } private static Bitmap compress(String imageFile, String targetFile, boolean isSave, boolean qualityCompress, long maxSize, int targetWidth, int targeHeight) { final BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(imageFile, options); //加载图片信息 int sourceWidth = options.outWidth; int sourceHeight = options.outHeight; options.inJustDecodeBounds = false; //计算inSampleSize int inSampleSize = 1; //先根据宽度进行缩小 while (sourceWidth / inSampleSize > targetWidth) { inSampleSize++; } //然后根据高度进行缩小 while (sourceHeight / inSampleSize > targeHeight) { inSampleSize++; } if (inSampleSize <= 0) { inSampleSize = 1; } options.inSampleSize = inSampleSize; Bitmap bitmap = BitmapFactory.decodeFile(imageFile, options);//加载真正bitmap bitmap = compressBitmap(bitmap, false, targetWidth, targeHeight); //等比缩放 if(qualityCompress) { bitmap = compressBitmap(bitmap, true, maxSize); //压缩质量 } if (isSave) { String savePath = imageFile; if (!StringUtils.isEmpty(targetFile)) { savePath = targetFile; } saveBitmap(bitmap, new File(savePath));//保存图片 } return bitmap; } /** * 压缩某张图片(执行步骤sampleSize压缩->等比压缩->质量压缩) * @param imageFile * @param targetFile 保存目标,为空表示源地址保存 * @param qualityCompress 是否做质量压缩 * @param maxSize 目标图片大小 * @param targetWidth * @param targeHeight */ public static void compressImage(String imageFile, String targetFile, boolean qualityCompress, long maxSize, int targetWidth, int targeHeight) { Bitmap bitmap = compress(imageFile, targetFile, true, qualityCompress, maxSize, targetWidth, targeHeight); bitmap.recycle(); } public static void compressImage(String imageFile, boolean qualityCompress, long maxSize, int targetWidth, int targeHeight) { compressImage(imageFile, null, qualityCompress, maxSize, targetWidth, targeHeight); } /** * 图片缩放-尺寸缩放 * @param imageFile * @param targetWidth * @param targeHeight */ public static void compressImage(String imageFile, int targetWidth, int targeHeight) { compressImage(imageFile, null, false, 0L, targetWidth, targeHeight); } /** * 图片缩放-尺寸缩放 * @param imageFile * @param targetWidth * @param targeHeight * @return * @return */ public static Bitmap compressBitmap(String imageFile, int targetWidth, int targeHeight) { return compressBitmap(imageFile, false, 0L, targetWidth, targeHeight); } /** * 图片缩放-尺寸缩放 * @param imageFile * @param scale 图片缩小倍速 */ public static void compressImageSmall(String imageFile, int scale) { BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(imageFile, options); int targetWidth = options.outWidth / scale; int targeHeight = options.outHeight / scale; compressImage(imageFile, targetWidth, targeHeight); } public static Bitmap getCircleBitmap(String imageFile) { Bitmap bitmap=BitmapFactory.decodeFile(imageFile); Bitmap output = Bitmap.createBitmap(bitmap.getWidth(), bitmap.getHeight(), Bitmap.Config.ARGB_8888); Canvas canvas = new Canvas(output); final Paint paint = new Paint(); final Rect rect = new Rect(0, 0, bitmap.getWidth(), bitmap.getHeight()); paint.setAntiAlias(true); canvas.drawARGB(0, 0, 0, 0); if (bitmap.getWidth() == bitmap.getHeight()) { canvas.drawCircle(bitmap.getWidth() / 2, bitmap.getHeight() / 2, bitmap.getHeight() / 2, paint); } else { canvas.drawCircle(bitmap.getWidth() / 2, bitmap.getHeight() / 2, bitmap.getWidth() / 2, paint); } paint.setXfermode(new PorterDuffXfermode(PorterDuff.Mode.SRC_IN)); canvas.drawBitmap(bitmap, rect, rect, paint); return output; } /** * 图片缩放-尺寸缩放 * @param imageFile * @param scale 图片缩小倍速 * @return */ public static Bitmap compressBitmapSmall(String imageFile, int scale) { BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(imageFile, options); int targetWidth = options.outWidth / scale; int targeHeight = options.outHeight / scale; return compressBitmap(imageFile, targetWidth, targeHeight); } /** * 图片缩放-尺寸缩放 * @param imageFile * @param scale 图片放大倍速 */ public static void compressImageBig(String imageFile, int scale) { BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(imageFile, options); int targetWidth = options.outWidth * scale; int targeHeight = options.outHeight * scale; compressImage(imageFile, targetWidth, targeHeight); } /** * 图片缩放-尺寸缩放 * @param imageFile * @param scale 图片放大倍速 * @return */ public static Bitmap compressBitmapBig(String imageFile, int scale) { BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(imageFile, options); int targetWidth = options.outWidth * scale; int targeHeight = options.outHeight * scale; return compressBitmap(imageFile, targetWidth, targeHeight); } /** * 质量压缩图片 * @param imageFile * @param targetFile * @param qualityCompress * @param maxSize */ public static void compressImage(String imageFile, String targetFile, boolean qualityCompress, long maxSize) { BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(imageFile, options); int targetWidth = options.outWidth / 2; int targeHeight = options.outHeight / 2; compressImage(imageFile, targetFile, qualityCompress, maxSize, targetWidth, targeHeight); } /** * 质量压缩图片 * @param imageFile * @param qualityCompress * @param maxSize */ public static void compressImage(String imageFile, boolean qualityCompress, long maxSize) { compressImage(imageFile, null, qualityCompress, maxSize); } /** * 质量压缩图片 * @param imageFile * @param qualityCompress * @param maxSize * @return */ public static Bitmap compressBitmap(String imageFile, boolean qualityCompress, long maxSize) { BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(imageFile, options); int targetWidth = options.outWidth / 2; int targeHeight = options.outHeight / 2; return compressBitmap(imageFile, qualityCompress, maxSize, targetWidth, targeHeight); } /** * 质量压缩图片-压缩在maxSize以内 * @param imageFile * @param maxSize */ public static void compressImage(String imageFile, long maxSize) { compressImage(imageFile, true, maxSize); } /** * 质量压缩图片-压缩在maxSize以内 * @param imageFile * @param maxSize * @return */ public static Bitmap compressBimap(String imageFile, long maxSize) { return compressBitmap(imageFile, true, maxSize); } /** * 旋转bitmap * @param bitmap * @param degress 旋转角度 * @param needRecycle * @return */ public static Bitmap rotateBitmap(Bitmap bitmap, int degress, boolean needRecycle) { Matrix m = new Matrix(); m.postRotate(degress); Bitmap bm = Bitmap.createBitmap(bitmap, 0, 0, bitmap.getWidth(), bitmap.getHeight(), m, true); if(needRecycle) { bitmap.recycle(); } return bm; } /** * 从exif信息获取图片旋转角度 * * @param path * @return */ public static int readPictureDegree(String path) { int degree = 0; try { ExifInterface exifInterface = new ExifInterface(path); int orientation = exifInterface.getAttributeInt( ExifInterface.TAG_ORIENTATION, ExifInterface.ORIENTATION_NORMAL); switch (orientation) { case ExifInterface.ORIENTATION_ROTATE_90: degree = 90; break; case ExifInterface.ORIENTATION_ROTATE_180: degree = 180; break; case ExifInterface.ORIENTATION_ROTATE_270: degree = 270; break; } } catch (IOException e) { e.printStackTrace(); } return degree; } /** * 根据path * @param path * @return */ public final static int getDegress(String path) { int degree = 0; try { ExifInterface exifInterface = new ExifInterface(path); int orientation = exifInterface.getAttributeInt( ExifInterface.TAG_ORIENTATION, ExifInterface.ORIENTATION_NORMAL); switch (orientation) { case ExifInterface.ORIENTATION_ROTATE_90: degree = 90; break; case ExifInterface.ORIENTATION_ROTATE_180: degree = 180; break; case ExifInterface.ORIENTATION_ROTATE_270: degree = 270; break; } } catch (IOException e) { e.printStackTrace(); } return degree; } }
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package timetakers.repository.converter; import javax.persistence.AttributeConverter; import javax.persistence.Converter; import java.time.LocalDate; /** * @author David Liebl */ @Converter(autoApply = true) public class LocalDateConverter implements AttributeConverter<LocalDate, Long> { @Override public Long convertToDatabaseColumn(LocalDate entityValue) { return entityValue.toEpochDay(); } @Override public LocalDate convertToEntityAttribute(Long dbValue) { return LocalDate.ofEpochDay(dbValue); } }
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package com.facebook.buck.cxx; import com.facebook.buck.android.AndroidPackageable; import com.facebook.buck.android.AndroidPackageableCollector; import com.facebook.buck.cxx.toolchain.CxxPlatform; import com.facebook.buck.cxx.toolchain.HeaderVisibility; import com.facebook.buck.cxx.toolchain.linker.Linker; import com.facebook.buck.cxx.toolchain.nativelink.NativeLinkTarget; import com.facebook.buck.cxx.toolchain.nativelink.NativeLinkTargetMode; import com.facebook.buck.cxx.toolchain.nativelink.NativeLinkable; import com.facebook.buck.cxx.toolchain.nativelink.NativeLinkableInput; import com.facebook.buck.io.ProjectFilesystem; import com.facebook.buck.model.BuildTarget; import com.facebook.buck.model.Flavor; import com.facebook.buck.rules.BuildRule; import com.facebook.buck.rules.BuildRuleParams; import com.facebook.buck.rules.BuildRuleResolver; import com.facebook.buck.rules.HasRuntimeDeps; import com.facebook.buck.rules.NoopBuildRuleWithDeclaredAndExtraDeps; import com.facebook.buck.rules.SourcePath; import com.facebook.buck.rules.SourcePathRuleFinder; import com.facebook.buck.rules.args.Arg; import com.facebook.buck.rules.args.FileListableLinkerInputArg; import com.facebook.buck.rules.args.SourcePathArg; import com.facebook.buck.rules.coercer.FrameworkPath; import com.facebook.buck.util.RichStream; import com.google.common.base.Function; import com.google.common.base.Preconditions; import com.google.common.base.Predicate; import com.google.common.cache.LoadingCache; import com.google.common.collect.ImmutableList; import com.google.common.collect.ImmutableMap; import com.google.common.collect.ImmutableSet; import com.google.common.collect.ImmutableSortedSet; import com.google.common.collect.Iterables; import java.nio.file.Path; import java.util.HashMap; import java.util.Map; import java.util.Optional; import java.util.regex.Pattern; import java.util.stream.Stream; /** * An action graph representation of a C/C++ library from the target graph, providing the various * interfaces to make it consumable by C/C++ preprocessing and native linkable rules. */ public class CxxLibrary extends NoopBuildRuleWithDeclaredAndExtraDeps implements AbstractCxxLibrary, HasRuntimeDeps, NativeTestable, NativeLinkTarget { private final BuildRuleResolver ruleResolver; private final CxxDeps deps; private final CxxDeps exportedDeps; private final Predicate<CxxPlatform> headerOnly; private final Function<? super CxxPlatform, Iterable<? extends Arg>> exportedLinkerFlags; private final Function<? super CxxPlatform, NativeLinkableInput> linkTargetInput; private final Optional<Pattern> supportedPlatformsRegex; private final ImmutableSet<FrameworkPath> frameworks; private final ImmutableSet<FrameworkPath> libraries; private final Linkage linkage; private final boolean linkWhole; private final Optional<String> soname; private final ImmutableSortedSet<BuildTarget> tests; private final boolean canBeAsset; private final boolean reexportAllHeaderDependencies; /** * Whether Native Linkable dependencies should be propagated for the purpose of computing objects * to link at link time. Setting this to false makes this library invisible to linking, so it and * its link-time dependencies are ignored. */ private final boolean propagateLinkables; private final Map<NativeLinkableCacheKey, NativeLinkableInput> nativeLinkableCache = new HashMap<>(); private final LoadingCache<CxxPlatform, ImmutableMap<BuildTarget, CxxPreprocessorInput>> transitiveCxxPreprocessorInputCache = CxxPreprocessables.getTransitiveCxxPreprocessorInputCache(this); public CxxLibrary( BuildTarget buildTarget, ProjectFilesystem projectFilesystem, BuildRuleParams params, BuildRuleResolver ruleResolver, CxxDeps deps, CxxDeps exportedDeps, Predicate<CxxPlatform> headerOnly, Function<? super CxxPlatform, Iterable<? extends Arg>> exportedLinkerFlags, Function<? super CxxPlatform, NativeLinkableInput> linkTargetInput, Optional<Pattern> supportedPlatformsRegex, ImmutableSet<FrameworkPath> frameworks, ImmutableSet<FrameworkPath> libraries, Linkage linkage, boolean linkWhole, Optional<String> soname, ImmutableSortedSet<BuildTarget> tests, boolean canBeAsset, boolean propagateLinkables, boolean reexportAllHeaderDependencies) { super(buildTarget, projectFilesystem, params); this.ruleResolver = ruleResolver; this.deps = deps; this.exportedDeps = exportedDeps; this.headerOnly = headerOnly; this.exportedLinkerFlags = exportedLinkerFlags; this.linkTargetInput = linkTargetInput; this.supportedPlatformsRegex = supportedPlatformsRegex; this.frameworks = frameworks; this.libraries = libraries; this.linkage = linkage; this.linkWhole = linkWhole; this.soname = soname; this.tests = tests; this.canBeAsset = canBeAsset; this.propagateLinkables = propagateLinkables; this.reexportAllHeaderDependencies = reexportAllHeaderDependencies; } private boolean isPlatformSupported(CxxPlatform cxxPlatform) { return !supportedPlatformsRegex.isPresent() || supportedPlatformsRegex.get().matcher(cxxPlatform.getFlavor().toString()).find(); } @Override public Iterable<CxxPreprocessorDep> getCxxPreprocessorDeps(CxxPlatform cxxPlatform) { if (!isPlatformSupported(cxxPlatform)) { return ImmutableList.of(); } return RichStream.from(exportedDeps.get(ruleResolver, cxxPlatform)) .concat( this.reexportAllHeaderDependencies ? RichStream.from(deps.get(ruleResolver, cxxPlatform)) : Stream.empty()) .filter(CxxPreprocessorDep.class) .toImmutableList(); } private CxxPreprocessorInput getCxxPreprocessorInput( CxxPlatform cxxPlatform, HeaderVisibility headerVisibility) { // Handle via metadata query. return CxxLibraryDescription.queryMetadataCxxPreprocessorInput( ruleResolver, getBuildTarget(), cxxPlatform, headerVisibility) .orElseThrow(IllegalStateException::new); } @Override public CxxPreprocessorInput getCxxPreprocessorInput(CxxPlatform cxxPlatform) { return getCxxPreprocessorInput(cxxPlatform, HeaderVisibility.PUBLIC); } @Override public CxxPreprocessorInput getPrivateCxxPreprocessorInput(CxxPlatform cxxPlatform) { return getCxxPreprocessorInput(cxxPlatform, HeaderVisibility.PRIVATE); } @Override public ImmutableMap<BuildTarget, CxxPreprocessorInput> getTransitiveCxxPreprocessorInput( CxxPlatform cxxPlatform) { return transitiveCxxPreprocessorInputCache.getUnchecked(cxxPlatform); } @Override public Iterable<NativeLinkable> getNativeLinkableDeps() { if (!propagateLinkables) { return ImmutableList.of(); } return RichStream.from(deps.getForAllPlatforms(ruleResolver)) .filter(NativeLinkable.class) .toImmutableList(); } @Override public Iterable<NativeLinkable> getNativeLinkableDepsForPlatform(CxxPlatform cxxPlatform) { if (!propagateLinkables) { return ImmutableList.of(); } if (!isPlatformSupported(cxxPlatform)) { return ImmutableList.of(); } return RichStream.from(deps.get(ruleResolver, cxxPlatform)) .filter(NativeLinkable.class) .toImmutableList(); } @Override public Iterable<? extends NativeLinkable> getNativeLinkableExportedDeps() { if (!propagateLinkables) { return ImmutableList.of(); } return RichStream.from(exportedDeps.getForAllPlatforms(ruleResolver)) .filter(NativeLinkable.class) .toImmutableList(); } @Override public Iterable<? extends NativeLinkable> getNativeLinkableExportedDepsForPlatform( CxxPlatform cxxPlatform) { if (!propagateLinkables) { return ImmutableList.of(); } if (!isPlatformSupported(cxxPlatform)) { return ImmutableList.of(); } return RichStream.from(exportedDeps.get(ruleResolver, cxxPlatform)) .filter(NativeLinkable.class) .toImmutableList(); } private NativeLinkableInput getNativeLinkableInputUncached( CxxPlatform cxxPlatform, Linker.LinkableDepType type, boolean forceLinkWhole) { if (!isPlatformSupported(cxxPlatform)) { return NativeLinkableInput.of(); } // Build up the arguments used to link this library. If we're linking the // whole archive, wrap the library argument in the necessary "ld" flags. ImmutableList.Builder<Arg> linkerArgsBuilder = ImmutableList.builder(); linkerArgsBuilder.addAll(Preconditions.checkNotNull(exportedLinkerFlags.apply(cxxPlatform))); if (!headerOnly.apply(cxxPlatform) && propagateLinkables) { boolean isStatic; switch (linkage) { case STATIC: isStatic = true; break; case SHARED: isStatic = false; break; case ANY: isStatic = type != Linker.LinkableDepType.SHARED; break; default: throw new IllegalStateException("unhandled linkage type: " + linkage); } if (isStatic) { Archive archive = (Archive) requireBuildRule( cxxPlatform.getFlavor(), type == Linker.LinkableDepType.STATIC ? CxxDescriptionEnhancer.STATIC_FLAVOR : CxxDescriptionEnhancer.STATIC_PIC_FLAVOR); if (linkWhole || forceLinkWhole) { Linker linker = cxxPlatform.getLd().resolve(ruleResolver); linkerArgsBuilder.addAll(linker.linkWhole(archive.toArg())); } else { Arg libraryArg = archive.toArg(); if (libraryArg instanceof SourcePathArg) { linkerArgsBuilder.add( FileListableLinkerInputArg.withSourcePathArg((SourcePathArg) libraryArg)); } else { linkerArgsBuilder.add(libraryArg); } } } else { BuildRule rule = requireBuildRule( cxxPlatform.getFlavor(), cxxPlatform.getSharedLibraryInterfaceParams().isPresent() ? CxxLibraryDescription.Type.SHARED_INTERFACE.getFlavor() : CxxLibraryDescription.Type.SHARED.getFlavor()); linkerArgsBuilder.add( SourcePathArg.of(Preconditions.checkNotNull(rule.getSourcePathToOutput()))); } } final ImmutableList<Arg> linkerArgs = linkerArgsBuilder.build(); return NativeLinkableInput.of( linkerArgs, Preconditions.checkNotNull(frameworks), Preconditions.checkNotNull(libraries)); } @Override public NativeLinkableInput getNativeLinkableInput( CxxPlatform cxxPlatform, Linker.LinkableDepType type, boolean forceLinkWhole, ImmutableSet<LanguageExtensions> languageExtensions) { NativeLinkableCacheKey key = NativeLinkableCacheKey.of(cxxPlatform.getFlavor(), type, forceLinkWhole); NativeLinkableInput input = nativeLinkableCache.get(key); if (input == null) { input = getNativeLinkableInputUncached(cxxPlatform, type, forceLinkWhole); nativeLinkableCache.put(key, input); } return input; } public BuildRule requireBuildRule(Flavor... flavors) { return ruleResolver.requireRule(getBuildTarget().withAppendedFlavors(flavors)); } @Override public NativeLinkable.Linkage getPreferredLinkage(CxxPlatform cxxPlatform) { return linkage; } @Override public Iterable<AndroidPackageable> getRequiredPackageables() { return AndroidPackageableCollector.getPackageableRules( RichStream.from( Iterables.concat( deps.getForAllPlatforms(ruleResolver), exportedDeps.getForAllPlatforms(ruleResolver))) .toImmutableList()); } @Override public void addToCollector(AndroidPackageableCollector collector) { if (canBeAsset) { collector.addNativeLinkableAsset(this); } else { collector.addNativeLinkable(this); } } @Override public ImmutableMap<String, SourcePath> getSharedLibraries(CxxPlatform cxxPlatform) { if (headerOnly.apply(cxxPlatform)) { return ImmutableMap.of(); } if (!isPlatformSupported(cxxPlatform)) { return ImmutableMap.of(); } ImmutableMap.Builder<String, SourcePath> libs = ImmutableMap.builder(); String sharedLibrarySoname = CxxDescriptionEnhancer.getSharedLibrarySoname(soname, getBuildTarget(), cxxPlatform); BuildRule sharedLibraryBuildRule = requireBuildRule(cxxPlatform.getFlavor(), CxxDescriptionEnhancer.SHARED_FLAVOR); libs.put(sharedLibrarySoname, sharedLibraryBuildRule.getSourcePathToOutput()); return libs.build(); } @Override public boolean isTestedBy(BuildTarget testTarget) { return tests.contains(testTarget); } @Override public NativeLinkTargetMode getNativeLinkTargetMode(CxxPlatform cxxPlatform) { return NativeLinkTargetMode.library( CxxDescriptionEnhancer.getSharedLibrarySoname(soname, getBuildTarget(), cxxPlatform)); } @Override public Iterable<? extends NativeLinkable> getNativeLinkTargetDeps(CxxPlatform cxxPlatform) { return Iterables.concat( getNativeLinkableDepsForPlatform(cxxPlatform), getNativeLinkableExportedDepsForPlatform(cxxPlatform)); } @Override public NativeLinkableInput getNativeLinkTargetInput(CxxPlatform cxxPlatform) { return linkTargetInput.apply(cxxPlatform); } @Override public Optional<Path> getNativeLinkTargetOutputPath(CxxPlatform cxxPlatform) { return Optional.empty(); } @Override public Stream<BuildTarget> getRuntimeDeps(SourcePathRuleFinder ruleFinder) { // We export all declared deps as runtime deps, to setup a transitive runtime dep chain which // will pull in runtime deps (e.g. other binaries) or transitive C/C++ libraries. 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""" Copyright 2015 Andrew Lin. All rights reserved. Licensed under the BSD 3-clause License. See LICENSE.txt or <http://opensource.org/licenses/BSD-3-Clause>. """ import argparse import os from lib.albatross import log from lib.albatross import path _log = log.get_logger(__name__) def parse_command_line(): parser = argparse.ArgumentParser() parser.add_argument( 'filepath', nargs='?', default=None, help='Path to audio file to load.' ) log.add_log_parser_arguments(parser) args = parser.parse_args() if args.filepath: args.filepath = path.abs_path(args.filepath) if args.log: args.log = path.abs_path(args.log) return args def main(): """Launch audiolenscli.""" args = parse_command_line() with log.logger(**log.configure_logging(args)): _log.info('Audiolens starting with the following arguments: %s', args) if __name__ =='__main__': main()
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package network // Copyright (c) Microsoft and contributors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // // See the License for the specific language governing permissions and // limitations under the License. // // Code generated by Microsoft (R) AutoRest Code Generator. // Changes may cause incorrect behavior and will be lost if the code is regenerated. import ( "context" "github.com/Azure/go-autorest/autorest" "github.com/Azure/go-autorest/autorest/azure" "github.com/Azure/go-autorest/autorest/validation" "net/http" ) // WatchersClient is the network Client type WatchersClient struct { BaseClient } // NewWatchersClient creates an instance of the WatchersClient client. func NewWatchersClient(subscriptionID string) WatchersClient { return NewWatchersClientWithBaseURI(DefaultBaseURI, subscriptionID) } // NewWatchersClientWithBaseURI creates an instance of the WatchersClient client. func NewWatchersClientWithBaseURI(baseURI string, subscriptionID string) WatchersClient { return WatchersClient{NewWithBaseURI(baseURI, subscriptionID)} } // CheckConnectivity verifies the possibility of establishing a direct TCP connection from a virtual machine to a given // endpoint including another VM or an arbitrary remote server. // // resourceGroupName is the name of the network watcher resource group. networkWatcherName is the name of the // network watcher resource. parameters is parameters that determine how the connectivity check will be performed. func (client WatchersClient) CheckConnectivity(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters ConnectivityParameters) (result WatchersCheckConnectivityFuture, err error) { if err := validation.Validate([]validation.Validation{ {TargetValue: parameters, Constraints: []validation.Constraint{{Target: "parameters.Source", Name: validation.Null, Rule: true, Chain: []validation.Constraint{{Target: "parameters.Source.ResourceID", Name: validation.Null, Rule: true, Chain: nil}}}, {Target: "parameters.Destination", Name: validation.Null, Rule: true, Chain: nil}}}}); err != nil { return result, validation.NewError("network.WatchersClient", "CheckConnectivity", err.Error()) } req, err := client.CheckConnectivityPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "CheckConnectivity", nil, "Failure preparing request") return } result, err = client.CheckConnectivitySender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "CheckConnectivity", result.Response(), "Failure sending request") return } return } // CheckConnectivityPreparer prepares the CheckConnectivity request. func (client WatchersClient) CheckConnectivityPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters ConnectivityParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/connectivityCheck", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // CheckConnectivitySender sends the CheckConnectivity request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) CheckConnectivitySender(req *http.Request) (future WatchersCheckConnectivityFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // CheckConnectivityResponder handles the response to the CheckConnectivity request. The method always // closes the http.Response Body. func (client WatchersClient) CheckConnectivityResponder(resp *http.Response) (result ConnectivityInformation, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // CreateOrUpdate creates or updates a network watcher in the specified resource group. // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher. // parameters is parameters that define the network watcher resource. func (client WatchersClient) CreateOrUpdate(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters Watcher) (result Watcher, err error) { req, err := client.CreateOrUpdatePreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "CreateOrUpdate", nil, "Failure preparing request") return } resp, err := client.CreateOrUpdateSender(req) if err != nil { result.Response = autorest.Response{Response: resp} err = autorest.NewErrorWithError(err, "network.WatchersClient", "CreateOrUpdate", resp, "Failure sending request") return } result, err = client.CreateOrUpdateResponder(resp) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "CreateOrUpdate", resp, "Failure responding to request") } return } // CreateOrUpdatePreparer prepares the CreateOrUpdate request. func (client WatchersClient) CreateOrUpdatePreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters Watcher) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPut(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // CreateOrUpdateSender sends the CreateOrUpdate request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) CreateOrUpdateSender(req *http.Request) (*http.Response, error) { return autorest.SendWithSender(client, req, azure.DoRetryWithRegistration(client.Client)) } // CreateOrUpdateResponder handles the response to the CreateOrUpdate request. The method always // closes the http.Response Body. func (client WatchersClient) CreateOrUpdateResponder(resp *http.Response) (result Watcher, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusCreated), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // Delete deletes the specified network watcher resource. // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher. func (client WatchersClient) Delete(ctx context.Context, resourceGroupName string, networkWatcherName string) (result WatchersDeleteFuture, err error) { req, err := client.DeletePreparer(ctx, resourceGroupName, networkWatcherName) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "Delete", nil, "Failure preparing request") return } result, err = client.DeleteSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "Delete", result.Response(), "Failure sending request") return } return } // DeletePreparer prepares the Delete request. func (client WatchersClient) DeletePreparer(ctx context.Context, resourceGroupName string, networkWatcherName string) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsDelete(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}", pathParameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // DeleteSender sends the Delete request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) DeleteSender(req *http.Request) (future WatchersDeleteFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted, http.StatusNoContent)) return } // DeleteResponder handles the response to the Delete request. The method always // closes the http.Response Body. func (client WatchersClient) DeleteResponder(resp *http.Response) (result autorest.Response, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted, http.StatusNoContent), autorest.ByClosing()) result.Response = resp return } // Get gets the specified network watcher by resource group. // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher. func (client WatchersClient) Get(ctx context.Context, resourceGroupName string, networkWatcherName string) (result Watcher, err error) { req, err := client.GetPreparer(ctx, resourceGroupName, networkWatcherName) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "Get", nil, "Failure preparing request") return } resp, err := client.GetSender(req) if err != nil { result.Response = autorest.Response{Response: resp} err = autorest.NewErrorWithError(err, "network.WatchersClient", "Get", resp, "Failure sending request") return } result, err = client.GetResponder(resp) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "Get", resp, "Failure responding to request") } return } // GetPreparer prepares the Get request. func (client WatchersClient) GetPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsGet(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}", pathParameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // GetSender sends the Get request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) GetSender(req *http.Request) (*http.Response, error) { return autorest.SendWithSender(client, req, azure.DoRetryWithRegistration(client.Client)) } // GetResponder handles the response to the Get request. The method always // closes the http.Response Body. func (client WatchersClient) GetResponder(resp *http.Response) (result Watcher, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // GetAzureReachabilityReport gets the relative latency score for internet service providers from a specified location // to Azure regions. // // resourceGroupName is the name of the network watcher resource group. networkWatcherName is the name of the // network watcher resource. parameters is parameters that determine Azure reachability report configuration. func (client WatchersClient) GetAzureReachabilityReport(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters AzureReachabilityReportParameters) (result WatchersGetAzureReachabilityReportFuture, err error) { if err := validation.Validate([]validation.Validation{ {TargetValue: parameters, Constraints: []validation.Constraint{{Target: "parameters.ProviderLocation", Name: validation.Null, Rule: true, Chain: []validation.Constraint{{Target: "parameters.ProviderLocation.Country", Name: validation.Null, Rule: true, Chain: nil}}}, {Target: "parameters.StartTime", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.EndTime", Name: validation.Null, Rule: true, Chain: nil}}}}); err != nil { return result, validation.NewError("network.WatchersClient", "GetAzureReachabilityReport", err.Error()) } req, err := client.GetAzureReachabilityReportPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetAzureReachabilityReport", nil, "Failure preparing request") return } result, err = client.GetAzureReachabilityReportSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetAzureReachabilityReport", result.Response(), "Failure sending request") return } return } // GetAzureReachabilityReportPreparer prepares the GetAzureReachabilityReport request. func (client WatchersClient) GetAzureReachabilityReportPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters AzureReachabilityReportParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/azureReachabilityReport", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // GetAzureReachabilityReportSender sends the GetAzureReachabilityReport request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) GetAzureReachabilityReportSender(req *http.Request) (future WatchersGetAzureReachabilityReportFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // GetAzureReachabilityReportResponder handles the response to the GetAzureReachabilityReport request. The method always // closes the http.Response Body. func (client WatchersClient) GetAzureReachabilityReportResponder(resp *http.Response) (result AzureReachabilityReport, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // GetFlowLogStatus queries status of flow log and traffic analytics (optional) on a specified resource. // // resourceGroupName is the name of the network watcher resource group. networkWatcherName is the name of the // network watcher resource. parameters is parameters that define a resource to query flow log and traffic // analytics (optional) status. func (client WatchersClient) GetFlowLogStatus(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters FlowLogStatusParameters) (result WatchersGetFlowLogStatusFuture, err error) { if err := validation.Validate([]validation.Validation{ {TargetValue: parameters, Constraints: []validation.Constraint{{Target: "parameters.TargetResourceID", Name: validation.Null, Rule: true, Chain: nil}}}}); err != nil { return result, validation.NewError("network.WatchersClient", "GetFlowLogStatus", err.Error()) } req, err := client.GetFlowLogStatusPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetFlowLogStatus", nil, "Failure preparing request") return } result, err = client.GetFlowLogStatusSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetFlowLogStatus", result.Response(), "Failure sending request") return } return } // GetFlowLogStatusPreparer prepares the GetFlowLogStatus request. func (client WatchersClient) GetFlowLogStatusPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters FlowLogStatusParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/queryFlowLogStatus", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // GetFlowLogStatusSender sends the GetFlowLogStatus request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) GetFlowLogStatusSender(req *http.Request) (future WatchersGetFlowLogStatusFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // GetFlowLogStatusResponder handles the response to the GetFlowLogStatus request. The method always // closes the http.Response Body. func (client WatchersClient) GetFlowLogStatusResponder(resp *http.Response) (result FlowLogInformation, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // GetNextHop gets the next hop from the specified VM. // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher. // parameters is parameters that define the source and destination endpoint. func (client WatchersClient) GetNextHop(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters NextHopParameters) (result WatchersGetNextHopFuture, err error) { if err := validation.Validate([]validation.Validation{ {TargetValue: parameters, Constraints: []validation.Constraint{{Target: "parameters.TargetResourceID", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.SourceIPAddress", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.DestinationIPAddress", Name: validation.Null, Rule: true, Chain: nil}}}}); err != nil { return result, validation.NewError("network.WatchersClient", "GetNextHop", err.Error()) } req, err := client.GetNextHopPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetNextHop", nil, "Failure preparing request") return } result, err = client.GetNextHopSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetNextHop", result.Response(), "Failure sending request") return } return } // GetNextHopPreparer prepares the GetNextHop request. func (client WatchersClient) GetNextHopPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters NextHopParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/nextHop", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // GetNextHopSender sends the GetNextHop request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) GetNextHopSender(req *http.Request) (future WatchersGetNextHopFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // GetNextHopResponder handles the response to the GetNextHop request. The method always // closes the http.Response Body. func (client WatchersClient) GetNextHopResponder(resp *http.Response) (result NextHopResult, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // GetTopology gets the current network topology by resource group. // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher. // parameters is parameters that define the representation of topology. func (client WatchersClient) GetTopology(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters TopologyParameters) (result Topology, err error) { req, err := client.GetTopologyPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetTopology", nil, "Failure preparing request") return } resp, err := client.GetTopologySender(req) if err != nil { result.Response = autorest.Response{Response: resp} err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetTopology", resp, "Failure sending request") return } result, err = client.GetTopologyResponder(resp) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetTopology", resp, "Failure responding to request") } return } // GetTopologyPreparer prepares the GetTopology request. func (client WatchersClient) GetTopologyPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters TopologyParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/topology", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // GetTopologySender sends the GetTopology request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) GetTopologySender(req *http.Request) (*http.Response, error) { return autorest.SendWithSender(client, req, azure.DoRetryWithRegistration(client.Client)) } // GetTopologyResponder handles the response to the GetTopology request. The method always // closes the http.Response Body. func (client WatchersClient) GetTopologyResponder(resp *http.Response) (result Topology, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // GetTroubleshooting initiate troubleshooting on a specified resource // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher // resource. parameters is parameters that define the resource to troubleshoot. func (client WatchersClient) GetTroubleshooting(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters TroubleshootingParameters) (result WatchersGetTroubleshootingFuture, err error) { if err := validation.Validate([]validation.Validation{ {TargetValue: parameters, Constraints: []validation.Constraint{{Target: "parameters.TargetResourceID", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.TroubleshootingProperties", Name: validation.Null, Rule: true, Chain: []validation.Constraint{{Target: "parameters.TroubleshootingProperties.StorageID", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.TroubleshootingProperties.StoragePath", Name: validation.Null, Rule: true, Chain: nil}, }}}}}); err != nil { return result, validation.NewError("network.WatchersClient", "GetTroubleshooting", err.Error()) } req, err := client.GetTroubleshootingPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetTroubleshooting", nil, "Failure preparing request") return } result, err = client.GetTroubleshootingSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetTroubleshooting", result.Response(), "Failure sending request") return } return } // GetTroubleshootingPreparer prepares the GetTroubleshooting request. func (client WatchersClient) GetTroubleshootingPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters TroubleshootingParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/troubleshoot", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // GetTroubleshootingSender sends the GetTroubleshooting request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) GetTroubleshootingSender(req *http.Request) (future WatchersGetTroubleshootingFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // GetTroubleshootingResponder handles the response to the GetTroubleshooting request. The method always // closes the http.Response Body. func (client WatchersClient) GetTroubleshootingResponder(resp *http.Response) (result TroubleshootingResult, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // GetTroubleshootingResult get the last completed troubleshooting result on a specified resource // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher // resource. parameters is parameters that define the resource to query the troubleshooting result. func (client WatchersClient) GetTroubleshootingResult(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters QueryTroubleshootingParameters) (result WatchersGetTroubleshootingResultFuture, err error) { if err := validation.Validate([]validation.Validation{ {TargetValue: parameters, Constraints: []validation.Constraint{{Target: "parameters.TargetResourceID", Name: validation.Null, Rule: true, Chain: nil}}}}); err != nil { return result, validation.NewError("network.WatchersClient", "GetTroubleshootingResult", err.Error()) } req, err := client.GetTroubleshootingResultPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetTroubleshootingResult", nil, "Failure preparing request") return } result, err = client.GetTroubleshootingResultSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetTroubleshootingResult", result.Response(), "Failure sending request") return } return } // GetTroubleshootingResultPreparer prepares the GetTroubleshootingResult request. func (client WatchersClient) GetTroubleshootingResultPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters QueryTroubleshootingParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/queryTroubleshootResult", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // GetTroubleshootingResultSender sends the GetTroubleshootingResult request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) GetTroubleshootingResultSender(req *http.Request) (future WatchersGetTroubleshootingResultFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // GetTroubleshootingResultResponder handles the response to the GetTroubleshootingResult request. The method always // closes the http.Response Body. func (client WatchersClient) GetTroubleshootingResultResponder(resp *http.Response) (result TroubleshootingResult, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // GetVMSecurityRules gets the configured and effective security group rules on the specified VM. // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher. // parameters is parameters that define the VM to check security groups for. func (client WatchersClient) GetVMSecurityRules(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters SecurityGroupViewParameters) (result WatchersGetVMSecurityRulesFuture, err error) { if err := validation.Validate([]validation.Validation{ {TargetValue: parameters, Constraints: []validation.Constraint{{Target: "parameters.TargetResourceID", Name: validation.Null, Rule: true, Chain: nil}}}}); err != nil { return result, validation.NewError("network.WatchersClient", "GetVMSecurityRules", err.Error()) } req, err := client.GetVMSecurityRulesPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetVMSecurityRules", nil, "Failure preparing request") return } result, err = client.GetVMSecurityRulesSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "GetVMSecurityRules", result.Response(), "Failure sending request") return } return } // GetVMSecurityRulesPreparer prepares the GetVMSecurityRules request. func (client WatchersClient) GetVMSecurityRulesPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters SecurityGroupViewParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/securityGroupView", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // GetVMSecurityRulesSender sends the GetVMSecurityRules request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) GetVMSecurityRulesSender(req *http.Request) (future WatchersGetVMSecurityRulesFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // GetVMSecurityRulesResponder handles the response to the GetVMSecurityRules request. The method always // closes the http.Response Body. func (client WatchersClient) GetVMSecurityRulesResponder(resp *http.Response) (result SecurityGroupViewResult, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // List gets all network watchers by resource group. // // resourceGroupName is the name of the resource group. func (client WatchersClient) List(ctx context.Context, resourceGroupName string) (result WatcherListResult, err error) { req, err := client.ListPreparer(ctx, resourceGroupName) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "List", nil, "Failure preparing request") return } resp, err := client.ListSender(req) if err != nil { result.Response = autorest.Response{Response: resp} err = autorest.NewErrorWithError(err, "network.WatchersClient", "List", resp, "Failure sending request") return } result, err = client.ListResponder(resp) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "List", resp, "Failure responding to request") } return } // ListPreparer prepares the List request. func (client WatchersClient) ListPreparer(ctx context.Context, resourceGroupName string) (*http.Request, error) { pathParameters := map[string]interface{}{ "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsGet(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers", pathParameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // ListSender sends the List request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) ListSender(req *http.Request) (*http.Response, error) { return autorest.SendWithSender(client, req, azure.DoRetryWithRegistration(client.Client)) } // ListResponder handles the response to the List request. The method always // closes the http.Response Body. func (client WatchersClient) ListResponder(resp *http.Response) (result WatcherListResult, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // ListAll gets all network watchers by subscription. func (client WatchersClient) ListAll(ctx context.Context) (result WatcherListResult, err error) { req, err := client.ListAllPreparer(ctx) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "ListAll", nil, "Failure preparing request") return } resp, err := client.ListAllSender(req) if err != nil { result.Response = autorest.Response{Response: resp} err = autorest.NewErrorWithError(err, "network.WatchersClient", "ListAll", resp, "Failure sending request") return } result, err = client.ListAllResponder(resp) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "ListAll", resp, "Failure responding to request") } return } // ListAllPreparer prepares the ListAll request. func (client WatchersClient) ListAllPreparer(ctx context.Context) (*http.Request, error) { pathParameters := map[string]interface{}{ "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsGet(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/providers/Microsoft.Network/networkWatchers", pathParameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // ListAllSender sends the ListAll request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) ListAllSender(req *http.Request) (*http.Response, error) { return autorest.SendWithSender(client, req, azure.DoRetryWithRegistration(client.Client)) } // ListAllResponder handles the response to the ListAll request. The method always // closes the http.Response Body. func (client WatchersClient) ListAllResponder(resp *http.Response) (result WatcherListResult, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // ListAvailableProviders lists all available internet service providers for a specified Azure region. // // resourceGroupName is the name of the network watcher resource group. networkWatcherName is the name of the // network watcher resource. parameters is parameters that scope the list of available providers. func (client WatchersClient) ListAvailableProviders(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters AvailableProvidersListParameters) (result WatchersListAvailableProvidersFuture, err error) { req, err := client.ListAvailableProvidersPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "ListAvailableProviders", nil, "Failure preparing request") return } result, err = client.ListAvailableProvidersSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "ListAvailableProviders", result.Response(), "Failure sending request") return } return } // ListAvailableProvidersPreparer prepares the ListAvailableProviders request. func (client WatchersClient) ListAvailableProvidersPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters AvailableProvidersListParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/availableProvidersList", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // ListAvailableProvidersSender sends the ListAvailableProviders request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) ListAvailableProvidersSender(req *http.Request) (future WatchersListAvailableProvidersFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // ListAvailableProvidersResponder handles the response to the ListAvailableProviders request. The method always // closes the http.Response Body. func (client WatchersClient) ListAvailableProvidersResponder(resp *http.Response) (result AvailableProvidersList, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // SetFlowLogConfiguration configures flow log and traffic analytics (optional) on a specified resource. // // resourceGroupName is the name of the network watcher resource group. networkWatcherName is the name of the // network watcher resource. parameters is parameters that define the configuration of flow log. func (client WatchersClient) SetFlowLogConfiguration(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters FlowLogInformation) (result WatchersSetFlowLogConfigurationFuture, err error) { if err := validation.Validate([]validation.Validation{ {TargetValue: parameters, Constraints: []validation.Constraint{{Target: "parameters.TargetResourceID", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.FlowLogProperties", Name: validation.Null, Rule: true, Chain: []validation.Constraint{{Target: "parameters.FlowLogProperties.StorageID", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.FlowLogProperties.Enabled", Name: validation.Null, Rule: true, Chain: nil}, }}, {Target: "parameters.TrafficAnalyticsProperties", Name: validation.Null, Rule: false, Chain: []validation.Constraint{{Target: "parameters.TrafficAnalyticsProperties.NetworkWatcherFlowAnalyticsConfiguration", Name: validation.Null, Rule: true, Chain: []validation.Constraint{{Target: "parameters.TrafficAnalyticsProperties.NetworkWatcherFlowAnalyticsConfiguration.Enabled", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.TrafficAnalyticsProperties.NetworkWatcherFlowAnalyticsConfiguration.WorkspaceID", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.TrafficAnalyticsProperties.NetworkWatcherFlowAnalyticsConfiguration.WorkspaceRegion", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.TrafficAnalyticsProperties.NetworkWatcherFlowAnalyticsConfiguration.WorkspaceResourceID", Name: validation.Null, Rule: true, Chain: nil}, }}, }}}}}); err != nil { return result, validation.NewError("network.WatchersClient", "SetFlowLogConfiguration", err.Error()) } req, err := client.SetFlowLogConfigurationPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "SetFlowLogConfiguration", nil, "Failure preparing request") return } result, err = client.SetFlowLogConfigurationSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "SetFlowLogConfiguration", result.Response(), "Failure sending request") return } return } // SetFlowLogConfigurationPreparer prepares the SetFlowLogConfiguration request. func (client WatchersClient) SetFlowLogConfigurationPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters FlowLogInformation) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/configureFlowLog", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // SetFlowLogConfigurationSender sends the SetFlowLogConfiguration request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) SetFlowLogConfigurationSender(req *http.Request) (future WatchersSetFlowLogConfigurationFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // SetFlowLogConfigurationResponder handles the response to the SetFlowLogConfiguration request. The method always // closes the http.Response Body. func (client WatchersClient) SetFlowLogConfigurationResponder(resp *http.Response) (result FlowLogInformation, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // UpdateTags updates a network watcher tags. // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher. // parameters is parameters supplied to update network watcher tags. func (client WatchersClient) UpdateTags(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters TagsObject) (result Watcher, err error) { req, err := client.UpdateTagsPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "UpdateTags", nil, "Failure preparing request") return } resp, err := client.UpdateTagsSender(req) if err != nil { result.Response = autorest.Response{Response: resp} err = autorest.NewErrorWithError(err, "network.WatchersClient", "UpdateTags", resp, "Failure sending request") return } result, err = client.UpdateTagsResponder(resp) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "UpdateTags", resp, "Failure responding to request") } return } // UpdateTagsPreparer prepares the UpdateTags request. func (client WatchersClient) UpdateTagsPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters TagsObject) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPatch(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // UpdateTagsSender sends the UpdateTags request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) UpdateTagsSender(req *http.Request) (*http.Response, error) { return autorest.SendWithSender(client, req, azure.DoRetryWithRegistration(client.Client)) } // UpdateTagsResponder handles the response to the UpdateTags request. The method always // closes the http.Response Body. func (client WatchersClient) UpdateTagsResponder(resp *http.Response) (result Watcher, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return } // VerifyIPFlow verify IP flow from the specified VM to a location given the currently configured NSG rules. // // resourceGroupName is the name of the resource group. networkWatcherName is the name of the network watcher. // parameters is parameters that define the IP flow to be verified. func (client WatchersClient) VerifyIPFlow(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters VerificationIPFlowParameters) (result WatchersVerifyIPFlowFuture, err error) { if err := validation.Validate([]validation.Validation{ {TargetValue: parameters, Constraints: []validation.Constraint{{Target: "parameters.TargetResourceID", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.LocalPort", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.RemotePort", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.LocalIPAddress", Name: validation.Null, Rule: true, Chain: nil}, {Target: "parameters.RemoteIPAddress", Name: validation.Null, Rule: true, Chain: nil}}}}); err != nil { return result, validation.NewError("network.WatchersClient", "VerifyIPFlow", err.Error()) } req, err := client.VerifyIPFlowPreparer(ctx, resourceGroupName, networkWatcherName, parameters) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "VerifyIPFlow", nil, "Failure preparing request") return } result, err = client.VerifyIPFlowSender(req) if err != nil { err = autorest.NewErrorWithError(err, "network.WatchersClient", "VerifyIPFlow", result.Response(), "Failure sending request") return } return } // VerifyIPFlowPreparer prepares the VerifyIPFlow request. func (client WatchersClient) VerifyIPFlowPreparer(ctx context.Context, resourceGroupName string, networkWatcherName string, parameters VerificationIPFlowParameters) (*http.Request, error) { pathParameters := map[string]interface{}{ "networkWatcherName": autorest.Encode("path", networkWatcherName), "resourceGroupName": autorest.Encode("path", resourceGroupName), "subscriptionId": autorest.Encode("path", client.SubscriptionID), } const APIVersion = "2018-01-01" queryParameters := map[string]interface{}{ "api-version": APIVersion, } preparer := autorest.CreatePreparer( autorest.AsContentType("application/json; charset=utf-8"), autorest.AsPost(), autorest.WithBaseURL(client.BaseURI), autorest.WithPathParameters("/subscriptions/{subscriptionId}/resourceGroups/{resourceGroupName}/providers/Microsoft.Network/networkWatchers/{networkWatcherName}/ipFlowVerify", pathParameters), autorest.WithJSON(parameters), autorest.WithQueryParameters(queryParameters)) return preparer.Prepare((&http.Request{}).WithContext(ctx)) } // VerifyIPFlowSender sends the VerifyIPFlow request. The method will close the // http.Response Body if it receives an error. func (client WatchersClient) VerifyIPFlowSender(req *http.Request) (future WatchersVerifyIPFlowFuture, err error) { sender := autorest.DecorateSender(client, azure.DoRetryWithRegistration(client.Client)) future.Future = azure.NewFuture(req) future.req = req _, err = future.Done(sender) if err != nil { return } err = autorest.Respond(future.Response(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted)) return } // VerifyIPFlowResponder handles the response to the VerifyIPFlow request. The method always // closes the http.Response Body. func (client WatchersClient) VerifyIPFlowResponder(resp *http.Response) (result VerificationIPFlowResult, err error) { err = autorest.Respond( resp, client.ByInspecting(), azure.WithErrorUnlessStatusCode(http.StatusOK, http.StatusAccepted), autorest.ByUnmarshallingJSON(&result), autorest.ByClosing()) result.Response = autorest.Response{Response: resp} return }
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"""Family module for Wikimedia Strategy Wiki.""" # # (C) Pywikibot team, 2009-2015 # # Distributed under the terms of the MIT license. # from __future__ import absolute_import, unicode_literals from pywikibot import family # The Wikimedia Strategy family class Family(family.WikimediaOrgFamily): """Family class for Wikimedia Strategy Wiki.""" name = 'strategy' def __init__(self): """Constructor.""" super(Family, self).__init__() self.interwiki_forward = 'wikipedia' def dbName(self, code): """Return the database name for this family.""" return 'strategywiki_p'
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/** @module delite/CustomElement */ define([ "dcl/advise", "dcl/dcl", "decor/Observable", "decor/Destroyable", "decor/Stateful", "requirejs-dplugins/has", "./on", "./register" ], function (advise, dcl, Observable, Destroyable, Stateful, has, on, register) { /** * Dispatched after the CustomElement has been attached. * This is useful to be notified when an HTMLElement has been upgraded to a * CustomElement and attached to the DOM, in particular on browsers supporting native Custom Element. * @example * element.addEventListener("customelement-attached", function (evt) { * console.log("custom element: "+evt.target.id+" has been attached"); * }); * @event module:delite/CustomElement#customelement-attached */ // Test if custom setters work for native properties like dir, or if they are ignored. // They don't work on some versions of webkit (Chrome, Safari 7, iOS 7), but do work on Safari 8 and iOS 8. // If needed, this test could probably be reduced to just use Object.defineProperty() and dcl(), // skipping use of register(). has.add("setter-on-native-prop", function () { var works = false, Mixin = dcl(Stateful, { // mixin to workaround https://github.com/uhop/dcl/issues/9 getProps: function () { return {dir: true}; }, dir: "", _setDirAttr: function () { works = true; } }), TestWidget = register("test-setter-on-native-prop", [HTMLElement, Mixin], {}), tw = new TestWidget(); tw.dir = "rtl"; return works; }); /** * Get a property from a dot-separated string, such as "A.B.C". */ function getObject(name) { try { return name.split(".").reduce(function (context, part) { return context[part]; }, this); // "this" is the global object (i.e. window on browsers) } catch (e) { // Return undefined to indicate that object doesn't exist. } } // Properties not to monitor for changes. var REGEXP_IGNORE_PROPS = /^constructor$|^_set$|^_get$|^deliver$|^discardChanges$|^_(.+)Attr$/; /** * Base class for all custom elements. * * Use this class rather that delite/Widget for non-visual custom elements. * Custom elements can provide custom setters/getters for properties, which are called automatically * when the value is set. For an attribute XXX, define methods _setXXXAttr() and/or _getXXXAttr(). * * @mixin module:delite/CustomElement * @augments module:decor/Stateful * @augments module:decor/Destroyable */ var CustomElement = dcl([Stateful, Destroyable], /** @lends module:delite/CustomElement# */{ introspect: function () { if (!has("setter-on-native-prop")) { // Generate map from native attributes of HTMLElement to custom setters for those attributes. // Necessary because webkit masks all custom setters for native properties on the prototype. // For details see: // https://bugs.webkit.org/show_bug.cgi?id=36423 // https://bugs.webkit.org/show_bug.cgi?id=49739 // https://bugs.webkit.org/show_bug.cgi?id=75297 var proto = this, nativeProps = document.createElement(this._extends || "div"), setterMap = this._nativePropSetterMap = {}; this._nativeAttrs = []; do { Object.keys(proto).forEach(function (prop) { var lcProp = prop.toLowerCase(); if (prop in nativeProps && !setterMap[lcProp]) { var desc = Object.getOwnPropertyDescriptor(proto, prop); if (desc && desc.set) { this._nativeAttrs.push(lcProp); setterMap[lcProp] = desc.set; } } }, this); proto = Object.getPrototypeOf(proto); } while (proto && proto !== this._baseElement.prototype); } }, getProps: function () { // Override _Stateful.getProps() to ignore properties from the HTML*Element superclasses, like "style". // You would need to explicitly declare style: "" in your widget to get it here. // // Also sets up this._propCaseMap, a mapping from lowercase property name to actual name, // ex: iconclass --> iconClass, which does include the methods, but again doesn't // include props like "style" that are merely inherited from HTMLElement. var hash = {}, proto = this, pcm = this._propCaseMap = {}; do { Object.keys(proto).forEach(function (prop) { if (!REGEXP_IGNORE_PROPS.test(prop)) { hash[prop] = true; pcm[prop.toLowerCase()] = prop; } }); proto = Object.getPrototypeOf(proto); } while (proto && proto !== this._baseElement.prototype); return hash; }, /** * This method will detect and process any properties that the application has set, but the custom setter * didn't run because `has("setter-on-native-prop") === false`. * Used during initialization and also by `deliver()`. * @private */ _processNativeProps: function () { if (!has("setter-on-native-prop")) { this._nativeAttrs.forEach(function (attrName) { if (this.hasAttribute(attrName)) { // value was specified var value = this.getAttribute(attrName); this.removeAttribute(attrName); if (value !== null) { this._nativePropSetterMap[attrName].call(this, value); // call custom setter } } }, this); } }, /** * Set to true when `createdCallback()` has completed. * @member {boolean} * @protected */ created: false, /** * Called when the custom element is created, or when `register.parse()` parses a custom tag. * * This method is automatically chained, so subclasses generally do not need to use `dcl.superCall()`, * `dcl.advise()`, etc. * @method * @protected */ createdCallback: dcl.advise({ before: function () { // Mark this object as observable with Object.observe() shim if (!this._observable) { Observable.call(this); } // Get parameters that were specified declaratively on the widget DOMNode. this._parsedAttributes = this._mapAttributes(); }, after: function () { this.created = true; // Now that creation has finished, apply parameters that were specified declaratively. // This is consistent with the timing that parameters are applied for programmatic creation. this._parsedAttributes.forEach(function (pa) { if (pa.event) { this.on(pa.event, pa.callback); } else { this[pa.prop] = pa.value; } }, this); if (!has("setter-on-native-prop")) { // Call custom setters for initial values of attributes with shadow properties (dir, tabIndex, etc) this._processNativeProps(); // Begin watching for changes to those DOM attributes. // Note that (at least on Chrome) I could use attributeChangedCallback() instead, which is // synchronous, so Widget#deliver() will work as expected, but OTOH gets lots of notifications // that I don't care about. // If Polymer is loaded, use MutationObserver rather than WebKitMutationObserver // to avoid error about "referencing a Node in a context where it does not exist". /* global WebKitMutationObserver */ var MO = window.MutationObserver || WebKitMutationObserver; // for jshint var observer = new MO(function (records) { records.forEach(function (mr) { var attrName = mr.attributeName, setter = this._nativePropSetterMap[attrName], newValue = this.getAttribute(attrName); if (newValue !== null) { this.removeAttribute(attrName); setter.call(this, newValue); } }, this); }.bind(this)); observer.observe(this, { subtree: false, attributeFilter: this._nativeAttrs, attributes: true }); } } }), /** * Set to true when `attachedCallback()` has completed, and false when `detachedCallback()` called. * @member {boolean} * @protected */ attached: false, /** * Called automatically when the element is added to the document, after `createdCallback()` completes. * This method is automatically chained, so subclasses generally do not need to use `dcl.superCall()`, * `dcl.advise()`, etc. * @method * @fires module:delite/CustomElement#customelement-attached */ attachedCallback: dcl.advise({ before: function () { // Call computeProperties() and refreshRendering() for declaratively set properties. // Do this in attachedCallback() rather than createdCallback() to avoid calling refreshRendering() etc. // prematurely in the programmatic case (i.e. calling it before user parameters have been applied). this.deliver(); }, after: function () { this.attached = true; this.emit("customelement-attached", { bubbles: false, cancelable: false }); } }), /** * Called when the element is removed the document. * This method is automatically chained, so subclasses generally do not need to use `dcl.superCall()`, * `dcl.advise()`, etc. */ detachedCallback: function () { this.attached = false; }, /** * Returns value for widget property based on attribute value in markup. * @param {string} name - Name of widget property. * @param {string} value - Value of attribute in markup. * @private */ _parsePrototypeAttr: function (name, value) { // inner function useful to reduce cyclomatic complexity when using jshint function stringToObject(value) { var obj; try { // TODO: remove this code if it isn't being used, so we don't scare people that are afraid of eval. /* jshint evil:true */ // This will only be executed when complex parameters are used in markup // <my-tag constraints="max: 3, min: 2"></my-tag> // This can be avoided by using such complex parameters only programmatically or by not using // them at all. // This is harmless if you make sure the JavaScript code that is passed to the attribute // is harmless. obj = eval("(" + (value[0] === "{" ? "" : "{") + value + (value[0] === "{" ? "" : "}") + ")"); } catch (e) { throw new SyntaxError("Error in attribute conversion to object: " + e.message + "\nAttribute Value: '" + value + "'"); } return obj; } switch (typeof this[name]) { case "string": return value; case "number": return value - 0; case "boolean": return value !== "false"; case "object": // Try to interpret value as global variable, ex: store="myStore", array of strings // ex: "1, 2, 3", or expression, ex: constraints="min: 10, max: 100" return getObject(value) || (Array.isArray(this[name]) ? (value ? value.split(/,\s*/) : []) : stringToObject(value)); case "function": return this.parseFunctionAttribute(value, []); } }, /** * Helper to parse function attribute in markup. Unlike `_parsePrototypeAttr()`, does not require a * corresponding widget property. Functions can be specified as global variables or as inline javascript: * * ```html * <my-widget funcAttr="globalFunction" on-click="console.log(event.pageX);"> * ``` * * @param {string} value - Value of the attribute. * @param {string[]} params - When generating a function from inline javascript, give it these parameter names. * @protected */ parseFunctionAttribute: function (value, params) { /* jshint evil:true */ // new Function() will only be executed if you have properties that are of function type in your widget // and that you use them in your tag attributes as follows: // <my-tag whatever="console.log(param)"></my-tag> // This can be avoided by setting the function programmatically or by not setting it at all. // This is harmless if you make sure the JavaScript code that is passed to the attribute is harmless. // Use Function.bind to get a partial on Function constructor (trick to call it with an array // of args instead list of args). return getObject(value) || new (Function.bind.apply(Function, [undefined].concat(params).concat([value])))(); }, /** * Helper for parsing declarative widgets. Interpret a given attribute specified in markup, returning either: * * - `undefined`: ignore * - `{prop: prop, value: value}`: set `this[prop] = value` * - `{event: event, callback: callback}`: call `this.on(event, callback)` * * @param {string} name - Attribute name. * @param {string} value - Attribute value. * @protected */ parseAttribute: function (name, value) { var pcm = this._propCaseMap; if (name in pcm) { name = pcm[name]; // convert to correct case for widget return { prop: name, value: this._parsePrototypeAttr(name, value) }; } else if (/^on-/.test(name)) { return { event: name.substring(3), callback: this.parseFunctionAttribute(value, ["event"]) }; } }, /** * Parse declaratively specified attributes for widget properties and connects. * @returns {Array} Info about the attributes and their values as returned by `parseAttribute()`. * @private */ _mapAttributes: function () { var attr, idx = 0, parsedAttrs = [], attrsToRemove = []; while ((attr = this.attributes[idx++])) { var name = attr.name.toLowerCase(); // note: will be lower case already except for IE9 var parsedAttr = this.parseAttribute(name, attr.value); if (parsedAttr) { parsedAttrs.push(parsedAttr); attrsToRemove.push(attr.name); } } // Remove attributes that were processed, but do it in a separate loop so we don't modify this.attributes // while we are looping through it. (See CustomElement-attr.html test failure on IE10.) attrsToRemove.forEach(this.removeAttribute, this); return parsedAttrs; }, /** * Release resources used by this custom element and its descendants. * After calling this method, the element can no longer be used, * and should be removed from the document. */ destroy: function () { // Destroy descendants this.findCustomElements().forEach(function (w) { if (w.destroy) { w.destroy(); } }); if (this.parentNode) { this.parentNode.removeChild(this); this.detachedCallback(); } }, /** * Emits a synthetic event of specified type, based on eventObj. * @param {string} type - Name of event. * @param {Object} [eventObj] - Properties to mix in to emitted event. Can also contain * `bubbles` and `cancelable` properties to control how the event is emitted. * @param {Element} [node] - Element to emit event on, defaults to `this`. * @returns {boolean} True if the event was *not* canceled, false if it was canceled. * @example * myWidget.emit("query-success", {}); * @protected */ emit: function (type, eventObj, node) { return on.emit(node || this, type, eventObj); }, /** * Call specified function when event occurs. * * Note that the function is not run in any particular scope, so if (for example) you want it to run * in the element's scope you must do `myCustomElement.on("click", myCustomElement.func.bind(myCustomElement))`. * * Note that `delite/Widget` overrides `on()` so that `on("focus", ...)` and `on("blur", ...) will trigger the * listener when focus moves into or out of the widget, rather than just when the widget's root node is * focused/blurred. In other words, the listener is called when the widget is conceptually focused or blurred. * * @param {string} type - Name of event (ex: "click"). * @param {Function} func - Callback function. * @param {Element} [node] - Element to attach handler to, defaults to `this`. * @returns {Object} Handle with `remove()` method to cancel the event. */ on: function (type, func, node) { return on(node || this, type, func); }, // Override Stateful#getPropsToObserve() because the way to get the list of properties to watch is different // than for a plain Stateful. Especially since IE doesn't support prototype swizzling. getPropsToObserve: function () { return this._ctor._propsToObserve; }, // Before deliver() runs, process any native properties (tabIndex, dir) etc. that may have been // set without the custom setter getting called. deliver: dcl.before(function () { this._processNativeProps(); }), /** * Search subtree under root returning custom elements found. * @param {Element} [root] - Node to search under. */ findCustomElements: function (root) { var outAry = []; function getChildrenHelper(root) { for (var node = root.firstChild; node; node = node.nextSibling) { if (node.nodeType === 1 && node.createdCallback) { outAry.push(node); } else { getChildrenHelper(node); } } } getChildrenHelper(root || this); return outAry; } }); // Setup automatic chaining for lifecycle methods. // destroy() is chained in Destroyable.js. dcl.chainAfter(CustomElement, "createdCallback"); dcl.chainAfter(CustomElement, "attachedCallback"); dcl.chainBefore(CustomElement, "detachedCallback"); return CustomElement; });
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class QApplicationFilter: public QObject { public: QApplicationFilter(): QObject() {} ~QApplicationFilter() {} bool eventFilter(QObject* obj, QEvent* event) { qDebug() << "QApplicationFilter: " << obj->objectName() << " - event type: " << event->type(); return QObject::eventFilter(obj, event); }; }; int main(int argc, char *argv[]) { QApplication a(argc, argv); a.installEventFilter(new QApplicationFilter()); MyFrame mf; mf.show(); return a.exec(); }
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'use strict'; /** * Define a non-enumerable read-only property. * * @module @stdlib/utils/define-nonenumerable-read-only-property * * @example * var setNonEnumerableReadOnly = require( '@stdlib/utils/define-nonenumerable-read-only-property' ); * * var obj = {}; * * setNonEnumerableReadOnly( obj, 'foo', 'bar' ); * * try { * obj.foo = 'boop'; * } catch ( err ) { * console.error( err.message ); * } */ // MODULES // var main = require( './main.js' ); // EXPORTS // module.exports = main;
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using System; using System.Collections.Generic; using System.Globalization; using System.IO; using System.Text; using System.Threading; using System.Threading.Tasks; namespace ahd.Graphite { /// <summary> /// formatter for sending plaintext data /// </summary> public class PlaintextGraphiteFormatter: IGraphiteFormatter { private static readonly Encoding _utfNoBom = new UTF8Encoding(false, true); /// <summary> /// single space, will be trimmed by carbon /// </summary> private static readonly byte[] _empty = {32}; /// <summary> /// Creates a plaintext formatter with default port 2003 /// </summary> public PlaintextGraphiteFormatter() { Port = 2003; } /// <summary> /// creates a plaintext formatter with custom destination port /// </summary> /// <param name="port"></param> public PlaintextGraphiteFormatter(ushort port):this() { Port = port; } /// <inheritdoc/> public ushort Port { get; } /// <inheritdoc/> public async Task WriteAsync(Stream stream, ICollection<Datapoint> datapoints, CancellationToken cancellationToken = default(CancellationToken)) { using (var writer = new StreamWriter(stream, _utfNoBom, 1024, true) {NewLine = "\n"}) { foreach (var datapoint in datapoints) { cancellationToken.ThrowIfCancellationRequested(); await writer.WriteLineAsync($"{datapoint.Series} {datapoint.Value.ToString(CultureInfo.InvariantCulture)} {datapoint.UnixTimestamp}").ConfigureAwait(false); } cancellationToken.ThrowIfCancellationRequested(); await writer.FlushAsync().ConfigureAwait(false); } } /// <inheritdoc/> public void Write(Stream stream, ICollection<Datapoint> datapoints) { using (var writer = new StreamWriter(stream, _utfNoBom, 1024, true) { NewLine = "\n" }) { foreach (var datapoint in datapoints) { writer.WriteLine($"{datapoint.Series} {datapoint.Value.ToString(CultureInfo.InvariantCulture)} {datapoint.UnixTimestamp}"); } writer.Flush(); } } /// <inheritdoc/> public void TestConnection(Stream stream) { stream.Write(_empty, 0, _empty.Length); stream.Write(_empty, 0, _empty.Length); stream.Flush(); } /// <inheritdoc/> public async Task TestConnectionAsync(Stream stream, CancellationToken cancellationToken) { await stream.WriteAsync(_empty, 0, _empty.Length, cancellationToken).ConfigureAwait(false); await stream.WriteAsync(_empty, 0, _empty.Length, cancellationToken).ConfigureAwait(false); await stream.FlushAsync(cancellationToken).ConfigureAwait(false); } } }
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<?php /* ... Connect to LDAP server and bind to a directory. */ $dn = "OU=People,OU=staff,DC=ad,DC=example,DC=com"; /* Search the directory */ $results = ldap_search($ldapconn, $dn, "sn=G*"); /* Retrieve the first entry. */ $firstEntry = ldap_first_entry($ldapconn, $results); /* Retrieve the given name and surname.*/ $gn = ldap_get_values($ldapconn, $firstEntry, "givenname"); $sn = ldap_get_values($ldapconn, $firstEntry, "sn"); echo "The user's name is $gn $sn."; ?>
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FROM balenalib/kitra520-debian:stretch-run ENV NODE_VERSION 10.24.1 ENV YARN_VERSION 1.22.4 RUN buildDeps='curl libatomic1' \ && set -x \ && for key in \ 6A010C5166006599AA17F08146C2130DFD2497F5 \ ; do \ gpg --batch --keyserver pgp.mit.edu --recv-keys "$key" || \ gpg --batch --keyserver keyserver.pgp.com --recv-keys "$key" || \ gpg --batch --keyserver ha.pool.sks-keyservers.net --recv-keys "$key" ; \ done \ && apt-get update && apt-get install -y $buildDeps --no-install-recommends \ && rm -rf /var/lib/apt/lists/* \ && curl -SLO "http://nodejs.org/dist/v$NODE_VERSION/node-v$NODE_VERSION-linux-armv7l.tar.gz" \ && echo "5b156bbd04adfaad2184b4d1e8324b21b546b40fb46e7105fa39f5ad2f34ddf3 node-v$NODE_VERSION-linux-armv7l.tar.gz" | sha256sum -c - \ && tar -xzf "node-v$NODE_VERSION-linux-armv7l.tar.gz" -C /usr/local --strip-components=1 \ && rm "node-v$NODE_VERSION-linux-armv7l.tar.gz" \ && curl -fSLO --compressed "https://yarnpkg.com/downloads/$YARN_VERSION/yarn-v$YARN_VERSION.tar.gz" \ && curl -fSLO --compressed "https://yarnpkg.com/downloads/$YARN_VERSION/yarn-v$YARN_VERSION.tar.gz.asc" \ && gpg --batch --verify yarn-v$YARN_VERSION.tar.gz.asc yarn-v$YARN_VERSION.tar.gz \ && mkdir -p /opt/yarn \ && tar -xzf yarn-v$YARN_VERSION.tar.gz -C /opt/yarn --strip-components=1 \ && ln -s /opt/yarn/bin/yarn /usr/local/bin/yarn \ && ln -s /opt/yarn/bin/yarn /usr/local/bin/yarnpkg \ && rm yarn-v$YARN_VERSION.tar.gz.asc yarn-v$YARN_VERSION.tar.gz \ && npm config set unsafe-perm true -g --unsafe-perm \ && rm -rf /tmp/* CMD ["echo","'No CMD command was set in Dockerfile! Details about CMD command could be found in Dockerfile Guide section in our Docs. Here's the link: https://balena.io/docs"] RUN curl -SLO "https://raw.githubusercontent.com/balena-io-library/base-images/8accad6af708fca7271c5c65f18a86782e19f877/scripts/assets/tests/test-stack@node.sh" \ && echo "Running test-stack@node" \ && chmod +x test-stack@node.sh \ && bash test-stack@node.sh \ && rm -rf test-stack@node.sh RUN [ ! -d /.balena/messages ] && mkdir -p /.balena/messages; echo 'Here are a few details about this Docker image (For more information please visit https://www.balena.io/docs/reference/base-images/base-images/): \nArchitecture: ARM v7 \nOS: Debian Stretch \nVariant: run variant \nDefault variable(s): UDEV=off \nThe following software stack is preinstalled: \nNode.js v10.24.1, Yarn v1.22.4 \nExtra features: \n- Easy way to install packages with `install_packages <package-name>` command \n- Run anywhere with cross-build feature (for ARM only) \n- Keep the container idling with `balena-idle` command \n- Show base image details with `balena-info` command' > /.balena/messages/image-info RUN echo '#!/bin/sh.real\nbalena-info\nrm -f /bin/sh\ncp /bin/sh.real /bin/sh\n/bin/sh "$@"' > /bin/sh-shim \ && chmod +x /bin/sh-shim \ && cp /bin/sh /bin/sh.real \ && mv /bin/sh-shim /bin/sh
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This is an optimization package for the Go language. More documentation can be seen at godoc.org/github.com/gonum/optimize ## Issues If you find any bugs, feel free to file an issue on the github issue tracker. Discussions on API changes, added features, code review, or similar requests are preferred on the gonum-dev Google Group. https://groups.google.com/forum/#!forum/gonum-dev ## License Please see github.com/gonum/license for general license information, contributors, authors, etc on the Gonum suite of packages.
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"use strict"; const colName = "oauth_urac"; const core = require("soajs"); const Mongo = core.mongo; let indexing = {}; function Oauth_urac(service, options, mongoCore) { let __self = this; if (mongoCore) { __self.mongoCore = mongoCore; } if (!__self.mongoCore) { if (options && options.dbConfig) { __self.mongoCore = new Mongo(options.dbConfig); } else { let registry = service.registry.get(); __self.mongoCore = new Mongo(registry.coreDB.provision); } let index = "default"; if (options && options.index) { index = options.index; } if (indexing && !indexing[index]) { indexing[index] = true; __self.mongoCore.createIndex(colName, {'userId': 1}, {}, (err, index) => { service.log.debug("Index: " + index + " created with error: " + err); }); service.log.debug("Oauth: Indexes for " + index + " Updated!"); } } } Oauth_urac.prototype.getUser = function (data, cb) { let __self = this; if (!data || !data.username) { let error = new Error("(username is required."); return cb(error, null); } let condition = { 'userId': data.username }; __self.mongoCore.findOne(colName, condition, null, null, (err, record) => { return cb(err, record); }); }; Oauth_urac.prototype.validateId = function (id, cb) { let __self = this; if (!id) { let error = new Error("id is required."); return cb(error, null); } try { id = __self.mongoCore.ObjectId(id); return cb(null, id); } catch (e) { return cb(e, null); } }; Oauth_urac.prototype.closeConnection = function () { let __self = this; __self.mongoCore.closeDb(); }; module.exports = Oauth_urac;
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/* * To change this template, choose Tools | Templates * and open the template in the editor. */ package pkg_contabilidad; import framework.componentes.Division; import framework.componentes.PanelTabla; import framework.componentes.Tabla; import java.util.ArrayList; import java.util.List; import org.primefaces.event.SelectEvent; import sistema.aplicacion.Pantalla; /** * * @author user */ public class pre_tipo_cuenta extends Pantalla { private Tabla tab_tabla1 = new Tabla(); private Tabla tab_tabla2 = new Tabla(); private Division div_division = new Division(); public pre_tipo_cuenta() { tab_tabla1.setId("tab_tabla1"); tab_tabla1.setTabla("con_tipo_cuenta", "ide_cntcu", 1); tab_tabla1.agregarRelacion(tab_tabla2); tab_tabla1.dibujar(); PanelTabla pat_panel1 = new PanelTabla(); pat_panel1.setPanelTabla(tab_tabla1); tab_tabla2.setId("tab_tabla2"); tab_tabla2.setTabla("con_signo_cuenta", "ide_cnscu", 2); tab_tabla2.getColumna("ide_cnlap").setCombo("con_lugar_aplicac", "ide_cnlap", "nombre_cnlap", ""); tab_tabla2.getColumna("signo_cnscu").setRadio(getListaSigno(), "1"); tab_tabla2.dibujar(); PanelTabla pat_panel2 = new PanelTabla(); pat_panel2.setPanelTabla(tab_tabla2); div_division.setId("div_division"); div_division.dividir2(pat_panel1, pat_panel2, "50%", "H"); agregarComponente(div_division); } public List getListaSigno() { //pARA USAR EN TODAS LAS TABLAS QUE SEAN RECURSIVAS List lista = new ArrayList(); Object fila1[] = { "1", "+" }; Object fila2[] = { "-1", "-" }; lista.add(fila1); lista.add(fila2); return lista; } @Override public void insertar() { utilitario.getTablaisFocus().insertar(); } @Override public void guardar() { tab_tabla1.guardar(); tab_tabla2.guardar(); utilitario.getConexion().guardarPantalla(); } @Override public void eliminar() { utilitario.getTablaisFocus().eliminar(); } public void seleccionar_tabla1(SelectEvent evt) { tab_tabla1.seleccionarFila(evt); } public Tabla getTab_tabla1() { return tab_tabla1; } public void setTab_tabla1(Tabla tab_tabla1) { this.tab_tabla1 = tab_tabla1; } public Tabla getTab_tabla2() { return tab_tabla2; } public void setTab_tabla2(Tabla tab_tabla2) { this.tab_tabla2 = tab_tabla2; } }
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class AttachmentUploader < CarrierWave::Uploader::Base # Include RMagick or MiniMagick support: # include CarrierWave::RMagick # include CarrierWave::MiniMagick # Choose what kind of storage to use for this uploader: storage :file # storage :fog # Override the directory where uploaded files will be stored. # This is a sensible default for uploaders that are meant to be mounted: def store_dir "uploads/#{model.class.to_s.underscore}/#{mounted_as}/#{model.id}" end # Provide a default URL as a default if there hasn't been a file uploaded: # def default_url # # For Rails 3.1+ asset pipeline compatibility: # # ActionController::Base.helpers.asset_path("fallback/" + [version_name, "default.png"].compact.join('_')) # # "/images/fallback/" + [version_name, "default.png"].compact.join('_') # end # Process files as they are uploaded: # process :scale => [200, 300] # # def scale(width, height) # # do something # end # Create different versions of your uploaded files: # version :thumb do # process :resize_to_fit => [50, 50] # end # Add a white list of extensions which are allowed to be uploaded. # For images you might use something like this: def extension_white_list %w(pdf) end # Override the filename of the uploaded files: # Avoid using model.id or version_name here, see uploader/store.rb for details. # def filename # "something.jpg" if original_filename # end end
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// Copyright 2015 Google Inc. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package com.google.api.ads.adwords.axis.utils.v201502.shopping; import com.google.api.ads.adwords.axis.v201502.cm.ProductBiddingCategory; import com.google.api.ads.adwords.axis.v201502.cm.ProductBrand; import com.google.api.ads.adwords.axis.v201502.cm.ProductCanonicalCondition; import com.google.api.ads.adwords.axis.v201502.cm.ProductCanonicalConditionCondition; import com.google.api.ads.adwords.axis.v201502.cm.ProductChannel; import com.google.api.ads.adwords.axis.v201502.cm.ProductChannelExclusivity; import com.google.api.ads.adwords.axis.v201502.cm.ProductCustomAttribute; import com.google.api.ads.adwords.axis.v201502.cm.ProductDimensionType; import com.google.api.ads.adwords.axis.v201502.cm.ProductOfferId; import com.google.api.ads.adwords.axis.v201502.cm.ProductType; import com.google.api.ads.adwords.axis.v201502.cm.ShoppingProductChannel; import com.google.api.ads.adwords.axis.v201502.cm.ShoppingProductChannelExclusivity; import com.google.common.base.Preconditions; import javax.annotation.Nullable; /** * Factory methods for creating ProductDimension objects. Each ProductDimension subclass has a * create method, and each of those methods has a signature that reflects the attributes that * logically identify an instance of that subclass. * * <p>For example, {@link #createBrand(String)} has a single {@code brand} parameter since the * {@code brand} attribute is what uniquely identifies a {@link ProductBrand}, while * {@link #createBiddingCategory(ProductDimensionType, Long)} has both a * {@code productDimensionType} and a {@code biddingCategoryId} parameter since both attributes are * required to uniquely identify a {@link ProductBiddingCategory}. * * <p>Note that this factory only includes methods for subclasses of ProductDimension that are * supported by Shopping Campaigns. * * @author Josh Radcliff */ public class ProductDimensions { private ProductDimensions() {} /** * Creates a new ProductType. * * @param productDimensionType required * @param productTypeValue may be null if creating an "other" dimension */ public static ProductType createType(ProductDimensionType productDimensionType, @Nullable String productTypeValue) { Preconditions.checkNotNull(productDimensionType, "ProductDimensionType is required when creating a ProductType"); ProductType productType = new ProductType(); productType.setType(productDimensionType); productType.setValue(productTypeValue); return productType; } /** * Creates a new ProductCanonicalCondition. * * @param condition may be null if creating an "other" dimension */ public static ProductCanonicalCondition createCanonicalCondition( @Nullable ProductCanonicalConditionCondition condition) { ProductCanonicalCondition productCanonicalCondition = new ProductCanonicalCondition(); productCanonicalCondition.setCondition(condition); return productCanonicalCondition; } /** * Creates a new ProductBiddingCategory. * * @param productDimensionType required * @param biddingCategoryId may be null if creating an "other" dimension */ public static ProductBiddingCategory createBiddingCategory( ProductDimensionType productDimensionType, @Nullable Long biddingCategoryId) { Preconditions.checkNotNull(productDimensionType, "ProductDimensionType is required when creating a ProductBiddingCategory"); ProductBiddingCategory productBiddingCategory = new ProductBiddingCategory(); productBiddingCategory.setType(productDimensionType); productBiddingCategory.setValue(biddingCategoryId); return productBiddingCategory; } /** * Creates a new ProductOfferId. * * @param offerId may be null if creating an "other" dimension */ public static ProductOfferId createOfferId(@Nullable String offerId) { ProductOfferId productOfferId = new ProductOfferId(); productOfferId.setValue(offerId); return productOfferId; } /** * Creates a new ProductBrand. * * @param brand may be null if creating an "other" dimension */ public static ProductBrand createBrand(@Nullable String brand) { ProductBrand productBrand = new ProductBrand(); productBrand.setValue(brand); return productBrand; } /** * Creates a new ProductCustomAttribute. * * @param productDimensionType required * @param attributeValue may be null if creating an "other" dimension */ public static ProductCustomAttribute createCustomAttribute( ProductDimensionType productDimensionType, @Nullable String attributeValue) { Preconditions.checkNotNull(productDimensionType, "ProductDimensionType is required when creating a ProductCustomAttribute"); ProductCustomAttribute productCustomAttribute = new ProductCustomAttribute(); productCustomAttribute.setType(productDimensionType); productCustomAttribute.setValue(attributeValue); return productCustomAttribute; } /** * Creates a new ProductChannel. * * @param channel may be null if creating an "other" dimension */ public static ProductChannel createChannel(@Nullable ShoppingProductChannel channel) { ProductChannel productChannel = new ProductChannel(); productChannel.setChannel(channel); return productChannel; } /** * Creates a new ProductChannelExclusivity. * * @param channelExclusivity may be null if creating an "other" dimension */ public static ProductChannelExclusivity createChannelExclusivity( @Nullable ShoppingProductChannelExclusivity channelExclusivity) { ProductChannelExclusivity productChannelExclusivity = new ProductChannelExclusivity(); productChannelExclusivity.setChannelExclusivity(channelExclusivity); return productChannelExclusivity; } }
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ACCEPTED #### According to Index Fungorum #### Published in Report of the Department of Indutry, Government Research Institute, Formosa 85: 100 (1943) #### Original name Cercospora celtidis Sawada ### Remarks null
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package com.ran.learn.eventmanager.to; import javax.xml.bind.annotation.XmlRootElement; import com.google.gson.JsonObject; import com.ran.learn.eventmanager.entity.Place; /** * * @author rdhanasekar */ @XmlRootElement public class PlaceTO { private Long id; private String name; private String doorNumber; private String line1; private String line2; private String state; private String country; private String zipCode; private String phoneNumber; private GeoLocationTO geoLocationTO; public Long getId() { return id; } public void setId(Long id) { this.id = id; } public String getName() { return name; } public void setName(String name) { this.name = name; } public String getLine1() { return line1; } public void setLine1(String line1) { this.line1 = line1; } public String getLine2() { return line2; } public void setLine2(String line2) { this.line2 = line2; } public String getState() { return state; } public void setState(String state) { this.state = state; } public String getCountry() { return country; } public void setCountry(String country) { this.country = country; } public String getZipCode() { return zipCode; } public void setZipCode(String zipCode) { this.zipCode = zipCode; } public GeoLocationTO getGeoLocation() { return geoLocationTO; } public void setGeoLocation(GeoLocationTO geoLocation) { this.geoLocationTO = geoLocation; } public String getDoorNumber() { return doorNumber; } public void setDoorNumber(String doorNumber) { this.doorNumber = doorNumber; } public String getPhoneNumber() { return phoneNumber; } public void setPhoneNumber(String phoneNumber) { this.phoneNumber = phoneNumber; } public Place getPlaceTO() { Place place = new Place(); place.setId(this.getId()); place.setCountry(this.getCountry()); place.setLine1(this.getLine1()); place.setLine2(this.getLine2()); place.setName(this.getName()); place.setPhoneNumber(this.getPhoneNumber()); place.setState(this.getState()); place.setZipCode(this.getZipCode()); if (this.getGeoLocation() != null) { place.setGeoLocation(this.getGeoLocation().getGeoLocation()); } return place; } public PlaceTO fromJson(JsonObject jsonObject) { if (jsonObject.get("id") != null) { this.setId(jsonObject.get("id").getAsLong()); } if (jsonObject.get("name") != null) { this.setName(jsonObject.get("name").getAsString()); } if (jsonObject.get("line1") != null) { this.setLine1(jsonObject.get("line1").getAsString()); } if (jsonObject.get("line2") != null) { this.setLine2(jsonObject.get("line2").getAsString()); } if (jsonObject.get("phoneNumber") != null) { this.setPhoneNumber(jsonObject.get("phoneNumber").getAsString()); } if (jsonObject.get("state") != null) { this.setState(jsonObject.get("state").getAsString()); } if (jsonObject.get("zipCode") != null) { this.setZipCode(jsonObject.get("zipCode").getAsString()); } if (jsonObject.get("geoLocation") != null) { JsonObject placeObject = jsonObject.get("geoLocation").getAsJsonObject(); this.setGeoLocation(new GeoLocationTO().fromJson(placeObject)); } return this; } public StringBuffer toJson() { StringBuffer buffer = new StringBuffer(); buffer = buffer.append("{"); buffer = buffer.append("\"id\":\"").append(this.getId()).append("\","); buffer = buffer.append("\"name\":\"").append(this.getName()).append("\","); buffer = buffer.append("\"line1\":\"").append(this.getLine1() != null ? this.getLine1() : "").append("\","); buffer = buffer.append("\"line2\":\"").append(this.getLine2() != null ? this.getLine2() : "").append("\","); buffer = buffer.append("\"phoneNumber\":\"").append(this.getPhoneNumber() != null ? this.getPhoneNumber() : "") .append("\","); buffer = buffer.append("\"state\":\"").append(this.getState() != null ? this.getState() : "").append("\","); buffer = buffer.append("\"zipCode\":\"").append(this.getZipCode() != null ? this.getZipCode() : ""); if (this.getGeoLocation() != null) { buffer.append("\","); buffer = buffer.append("\"geoLocation\":").append(this.getGeoLocation().toJson()); } else { buffer.append("\""); } buffer = buffer.append("}"); return buffer; } }
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@implementation DQActionSheet - (void)setDq_cancellationBlock:(DQActionSheetCancellationBlock)dq_cancellationBlock { self.delegate = (dq_cancellationBlock || self.dq_completionBlock) ? self : nil; _dq_cancellationBlock = [dq_cancellationBlock copy]; } - (void)setDq_completionBlock:(DQActionSheetCompletionBlock)dq_completionBlock { self.delegate = (dq_completionBlock || self.dq_cancellationBlock) ? self : nil; _dq_completionBlock = [dq_completionBlock copy]; } - (void)actionSheet:(UIActionSheet *)actionSheet clickedButtonAtIndex:(NSInteger)buttonIndex { if (actionSheet == self) { if (buttonIndex == actionSheet.cancelButtonIndex) { if (self.dq_cancellationBlock) { self.dq_cancellationBlock(self); self.dq_completionBlock = nil; self.dq_completionBlock = nil; } } else if (self.dq_completionBlock) { self.dq_completionBlock(self, buttonIndex); self.dq_completionBlock = nil; self.dq_completionBlock = nil; } } } @end
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// Copyright 2013 Google Inc. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. /** * @fileoverview Internal-only types used by GA Closure API, and helper * methods. * * @author smckay@google.com (Steve McKay) * @author tbreisacher@google.com (Tyler Breisacher) */ goog.provide('analytics.internal.Parameters'); goog.provide('analytics.internal.parameters'); goog.require('analytics.Parameters'); goog.require('analytics.ValueTypes'); /** * Parameters used by the library. * @enum {analytics.Parameter} */ analytics.internal.Parameters = { /* Protocol Version */ API_VERSION: { id: 'apiVersion', name: 'v', valueType: analytics.ValueTypes.TEXT, maxLength: undefined, defaultValue: undefined }, /* Application Name */ APP_NAME: { id: 'appName', name: 'an', valueType: analytics.ValueTypes.TEXT, maxLength: 100, defaultValue: undefined }, /* Application Version */ APP_VERSION: { id: 'appVersion', name: 'av', valueType: analytics.ValueTypes.TEXT, maxLength: 100, defaultValue: undefined }, /* Client ID */ CLIENT_ID: { id: 'clientId', name: 'cid', valueType: analytics.ValueTypes.TEXT, maxLength: undefined, defaultValue: undefined }, /* User Language */ LANGUAGE: { id: 'language', name: 'ul', valueType: analytics.ValueTypes.TEXT, maxLength: 20, defaultValue: undefined }, /* Library version. For internal use only. */ LIBRARY_VERSION: { id: 'libVersion', name: '_v', valueType: analytics.ValueTypes.TEXT, maxLength: undefined, defaultValue: undefined }, /* User sample rate override */ SAMPLE_RATE_OVERRIDE: { id: 'sampleRateOverride', name: 'usro', valueType: analytics.ValueTypes.INTEGER, maxLength: undefined, defaultValue: undefined }, /* Screen Colors */ SCREEN_COLORS: { id: 'screenColors', name: 'sd', valueType: analytics.ValueTypes.TEXT, maxLength: 20, defaultValue: undefined }, /* Screen Resolution */ SCREEN_RESOLUTION: { id: 'screenResolution', name: 'sr', valueType: analytics.ValueTypes.TEXT, maxLength: 20, defaultValue: undefined }, /* Tracking ID / Web Property ID */ TRACKING_ID: { id: 'trackingId', name: 'tid', valueType: analytics.ValueTypes.TEXT, maxLength: undefined, defaultValue: undefined }, /* Viewport size */ VIEWPORT_SIZE: { id: 'viewportSize', name: 'vp', valueType: analytics.ValueTypes.TEXT, maxLength: 20, defaultValue: undefined } }; /** * Converts a string to a Parameter, or if a Parameter is passed in, * simply returns that Parameter. * * @param {!analytics.Parameter|string} param A Parameter * from the analytics.Parameters enum, or a string representing a * non-standard Parameter. Currently the only non-standard strings * that are supported are 'metricX' and 'dimensionX' where X is a number. * @return {!analytics.Parameter} The parameter definition matching the * given param or name. If no such definition exists, one will be created, * provided that the name can be matched to a known parameter. */ analytics.internal.parameters.asParameter = function(param) { if (!goog.isString(param)) { return param; } var definition = analytics.internal.parameters.findParameter_( param, analytics.Parameters); if (goog.isObject(definition)) { return definition; } definition = analytics.internal.parameters.findParameter_( param, analytics.internal.Parameters); if (goog.isObject(definition)) { return definition; } // If the parameter isn't one of the built in types, check whether it's a // valid custom dimension or custom metric. See // https://developers.google.com/analytics/devguides/platform/features/customdimsmets var match = /^dimension(\d+)$/.exec(param); if (!goog.isNull(match)) { return analytics.createDimensionParam(parseInt(match[1], 10)); } match = /^metric(\d+)$/.exec(param); if (!goog.isNull(match)) { return analytics.createMetricParam(parseInt(match[1], 10)); } throw new Error(param + ' is not a valid parameter name.'); }; /** * Returns the matchign parameter in the enum, or null if not found. * * @param {string} id The id of the parameter to find. * @param {!Object} params An enum of * {@code analytics.Parameter} definitions to seach for a matching param. * @return {?analytics.Parameter} The matched param, or null if a match * cannot be found. * @private */ analytics.internal.parameters.findParameter_ = function(id, params) { var definition = goog.object.findValue( params, /** @param {!analytics.Parameter} instance */ function(instance) { // Match if this is a recognized "id" (which happens // to be the human readable string). Don't match on // 'metric' and 'dimension' as we provide // special handling of those parameters below. return instance.id == id && id != 'metric' && id != 'dimension'; }); return goog.isObject(definition) ? definition : null; };
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package com.amazonaws.services.codeguruprofiler.model.transform; import java.math.*; import javax.annotation.Generated; import com.amazonaws.services.codeguruprofiler.model.*; import com.amazonaws.transform.SimpleTypeJsonUnmarshallers.*; import com.amazonaws.transform.*; import static com.fasterxml.jackson.core.JsonToken.*; /** * TagResourceResult JSON Unmarshaller */ @Generated("com.amazonaws:aws-java-sdk-code-generator") public class TagResourceResultJsonUnmarshaller implements Unmarshaller<TagResourceResult, JsonUnmarshallerContext> { public TagResourceResult unmarshall(JsonUnmarshallerContext context) throws Exception { TagResourceResult tagResourceResult = new TagResourceResult(); return tagResourceResult; } private static TagResourceResultJsonUnmarshaller instance; public static TagResourceResultJsonUnmarshaller getInstance() { if (instance == null) instance = new TagResourceResultJsonUnmarshaller(); return instance; } }
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package jo.vecmath.logic; import java.nio.FloatBuffer; import jo.sm.logic.utils.BufferLogic; import jo.vecmath.Tuple4f; public class Tuple4fLogic extends MathUtils { public static float[] toFloatArray(Tuple4f v) { return new float[] { v.x, v.y, v.z, v.w }; } public static FloatBuffer toFloatBuffer(Tuple4f v) { return BufferLogic.create(toFloatArray(v)); } }
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package com.farmafene.commons.j2ee.tools.jca.spi; import java.io.IOException; import java.net.UnknownHostException; import java.util.concurrent.atomic.AtomicInteger; import javax.transaction.HeuristicMixedException; import javax.transaction.HeuristicRollbackException; import javax.transaction.NotSupportedException; import javax.transaction.RollbackException; import javax.transaction.SystemException; import javax.transaction.TransactionManager; import org.junit.AfterClass; import org.junit.Assert; import org.junit.BeforeClass; import org.junit.Test; import org.junit.runner.RunWith; import org.slf4j.Logger; import org.slf4j.LoggerFactory; import org.springframework.beans.factory.InitializingBean; import org.springframework.beans.factory.annotation.Autowired; import org.springframework.context.ConfigurableApplicationContext; import org.springframework.test.context.ContextConfiguration; import org.springframework.test.context.junit4.SpringJUnit4ClassRunner; import com.farmafene.commons.j2ee.tools.jca.common.StringPrintStream; @RunWith(SpringJUnit4ClassRunner.class) @ContextConfiguration(locations = { "classpath:com/farmafene/commons/j2ee/tools/jca/spi/testLocalapplicationContext.xml" }) public class JCA01UTest implements InitializingBean { private static final Logger logger = LoggerFactory .getLogger(JCA01UTest.class); @Autowired private ConfigurableApplicationContext applicationContext; private static ConfigurableApplicationContext APPCTX; @BeforeClass public static void beforeClass() throws UnknownHostException, IOException { logger.info("Starting ..."); } @AfterClass public static void afterClass() throws IOException { APPCTX.close(); } @Override public void afterPropertiesSet() throws Exception { APPCTX = this.applicationContext; } @Test public void ask01() throws IOException { if (logger.isInfoEnabled()) { final StringPrintStream ps = new StringPrintStream(); ps.println(); ps.println("/*-------------------------------------------------------+|"); ps.println("|| ||"); ps.println("|| ASK01 ||"); ps.println("|| ||"); ps.println("|+-------------------------------------------------------*/"); logger.info("{}", ps); } Assert.assertNotNull(this.applicationContext); if (logger.isInfoEnabled()) { final StringPrintStream ps = new StringPrintStream(); ps.println(); ps.println("/*-------------------------------------------------------+|"); ps.println("|| ||"); ps.println("|| Buscando el TransactionManger ||"); ps.println("|| ||"); ps.println("|+-------------------------------------------------------*/"); logger.info("{}", ps); } final Object oCf = this.applicationContext .getBean("connectionFactory1"); Assert.assertNotNull(oCf); logger.info("Hemos obtenido: {}", oCf); final IConnectionFactoryDummy cf = (IConnectionFactoryDummy) oCf; logger.info("Probando conexión"); IManagedDriverDummy con = cf.getConnection(); AtomicInteger test = con.getAtomicInteger(); logger.info("Hemos obtenido: {}", con); Assert.assertEquals("No está equilibrado", 0, test.intValue()); con.close(); logger.info("cerrado"); con = cf.getConnection(); logger.info("Hemos obtenido: {}", con); Assert.assertEquals("No está equilibrado", 0, test.intValue()); con.close(); logger.info("cerrado"); con = cf.getConnection(); logger.info("Hemos obtenido: {}", con); Assert.assertEquals("No está equilibrado", 0, test.intValue()); con.close(); logger.info("cerrado"); Assert.assertEquals("No está equilibrado", 0, test.intValue()); } @Test public void ask02() throws IOException, NotSupportedException, SystemException, IllegalStateException, SecurityException, HeuristicMixedException, HeuristicRollbackException, RollbackException { if (logger.isInfoEnabled()) { final StringPrintStream ps = new StringPrintStream(); ps.println(); ps.println("/*-------------------------------------------------------+|"); ps.println("|| ||"); ps.println("|| ASK02 ||"); ps.println("|| ||"); ps.println("|+-------------------------------------------------------*/"); logger.info("{}", ps); } Assert.assertNotNull(this.applicationContext); doTest(); doTest(); doTest(); } public void doTest() throws IOException, NotSupportedException, SystemException, IllegalStateException, SecurityException, HeuristicMixedException, HeuristicRollbackException, RollbackException { if (logger.isInfoEnabled()) { final StringPrintStream ps = new StringPrintStream(); ps.println(); ps.println("/*-------------------------------------------------------+|"); ps.println("|| ||"); ps.println("|| Buscando el TransactionManger ||"); ps.println("|| ||"); ps.println("|+-------------------------------------------------------*/"); logger.info("{}", ps); } final TransactionManager txm = this.applicationContext .getBean(TransactionManager.class); if (logger.isInfoEnabled()) { final StringPrintStream ps = new StringPrintStream(); ps.println(); ps.println("/*-------------------------------------------------------+|"); ps.println("|| ||"); ps.println("|| Before begin ||"); ps.println("|| ||"); ps.println("|+-------------------------------------------------------*/"); logger.info("{}", ps); } txm.begin(); if (logger.isInfoEnabled()) { final StringPrintStream ps = new StringPrintStream(); ps.println(); ps.println("/*-------------------------------------------------------+|"); ps.println("|| ||"); ps.println("|| After begin ||"); ps.println("|| ||"); ps.println("|+-------------------------------------------------------*/"); logger.info("{}", ps); } logger.info("Probando conexión"); final IManagedDriverDummy con1 = this.applicationContext.getBean( "connectionFactory1", IConnectionFactoryDummy.class) .getConnection(); AtomicInteger test = con1.getAtomicInteger(); logger.info("Hemos obtenido 01: {}", con1); Assert.assertEquals("No está equilibrado", 1, test.intValue()); final IManagedDriverDummy con2 = this.applicationContext.getBean( "connectionFactory2", IConnectionFactoryDummy.class) .getConnection(); logger.info("Hemos obtenido 02: {}", con2); Assert.assertEquals("No está equilibrado", 2, test.intValue()); final IManagedDriverDummy con3 = this.applicationContext.getBean( "connectionFactory3", IConnectionFactoryDummy.class) .getConnection(); logger.info("Hemos obtenido 03: {}", con3); Assert.assertEquals("No está equilibrado", 3, test.intValue()); con3.close(); logger.info("cerrado 3"); con2.close(); logger.info("cerrado 2"); con1.close(); logger.info("cerrado 1"); Assert.assertEquals("No está equilibrado", 3, test.intValue()); if (logger.isInfoEnabled()) { final StringPrintStream ps = new StringPrintStream(); ps.println(); ps.println("/*-------------------------------------------------------+|"); ps.println("|| ||"); ps.println("|| Before commit ||"); ps.println("|| ||"); ps.println("|+-------------------------------------------------------*/"); logger.info("{}", ps); } txm.commit(); if (logger.isInfoEnabled()) { final StringPrintStream ps = new StringPrintStream(); ps.println(); ps.println("/*-------------------------------------------------------+|"); ps.println("|| ||"); ps.println("|| After commit ||"); ps.println("|| ||"); ps.println("|+-------------------------------------------------------*/"); logger.info("{}", ps); } Assert.assertEquals("No está equilibrado", 0, test.intValue()); } }
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package org.apache.lens.examples; import java.io.IOException; import java.sql.Connection; import java.sql.DriverManager; import java.sql.Statement; import java.text.SimpleDateFormat; import java.util.Date; import javax.xml.bind.JAXBException; import org.apache.lens.api.APIResult; import org.apache.lens.api.metastore.XPartition; import org.apache.lens.api.metastore.XPartitionList; import org.apache.lens.client.LensClientSingletonWrapper; import org.apache.lens.client.LensMetadataClient; public class PopulateSampleMetastore { private LensMetadataClient metaClient; private APIResult result; private int retCode = 0; private static final Date DATE = new Date(System.currentTimeMillis()); private static final SimpleDateFormat FORMAT = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss"); private static final String NOW_TIME = FORMAT.format(DATE); private static final String INSERT_QUERY = "INSERT INTO " + "mydb_sales_aggr_continuous_fact (order_time, delivery_time, customer_id, " + "product_id, promotion_id, customer_city_id, production_city_id, delivery_city_id, unit_sales, " + "store_sales, store_cost, max_line_item_price, max_line_item_discount) values " + "('" + NOW_TIME + "','" + NOW_TIME + "',2,2,1,2,2,2,1,8,2,10,2)"; public PopulateSampleMetastore() throws JAXBException { metaClient = new LensMetadataClient(LensClientSingletonWrapper.instance().getClient().getConnection()); } public void close() { LensClientSingletonWrapper.instance().getClient().closeConnection(); } public static void main(String[] args) throws Exception { PopulateSampleMetastore populate = null; try { populate = new PopulateSampleMetastore(); if (args.length > 0) { if (args[0].equals("-db")) { String dbName = args[1]; populate.metaClient.createDatabase(dbName, true); populate.metaClient.setDatabase(dbName); } } populate.populateAll(); } finally { if (populate != null) { populate.close(); } } if (populate.retCode != 0) { System.exit(populate.retCode); } } public void populateAll() throws Exception { populateDimTables(); populateFactTables(); } public void populateDimTables() throws JAXBException, IOException { createDimTablePartition("dim1-local-part.xml", "dim_table", "local"); createDimTablePartition("dim2-local-part.xml", "dim_table2", "local"); createDimTablePartition("dim4-local-part.xml", "dim_table4", "local"); createDimTablePartitions("product-local-parts.xml", "product_table", "local"); createDimTablePartition("city-local-part.xml", "city_table", "local"); createDimTablePartition("customer-local-part.xml", "customer_table", "local"); } private void createDimTablePartition(String fileName, String dimTable, String storage) throws JAXBException, IOException { XPartition partition = (XPartition) SampleMetastore.readFromXML(fileName); String partLocation = partition.getLocation(); if (!partLocation.startsWith("/")) { partition.setLocation("file://" + System.getProperty("lens.home") + "/" + partLocation); } result = metaClient.addPartitionToDimensionTable(dimTable, storage, partition); if (result.getStatus().equals(APIResult.Status.FAILED)) { System.err.println("Adding partition from:"+ fileName + " failed"); retCode = 1; } else { System.out.println("Added partition from:" + fileName); } } private void createContinuousFactData() throws Exception { Class.forName("org.hsqldb.jdbcDriver"); Connection con = DriverManager.getConnection( "jdbc:hsqldb:/tmp/db-storage.db", "SA", ""); con.setAutoCommit(true); Statement statement = con.createStatement(); try { statement.execute(INSERT_QUERY); } finally { statement.close(); con.close(); } } private void createDimTablePartitions(String fileName, String dimTable, String storage) throws JAXBException, IOException { XPartitionList partitionList = (XPartitionList) SampleMetastore.readFromXML(fileName); for (XPartition partition : partitionList.getPartition()) { String partLocation = partition.getLocation(); if (!partLocation.startsWith("/")) { partition.setLocation("file://" + System.getProperty("lens.home") + "/" + partLocation); } } result = metaClient.addPartitionsToDimensionTable(dimTable, storage, partitionList); if (result.getStatus().equals(APIResult.Status.FAILED)) { System.err.println("Adding partitions from:" + fileName + " failed"); retCode = 1; } else { System.out.println("Added partitions from:" + fileName); } } private void createFactPartition(String fileName, String fact, String storage) throws JAXBException, IOException { XPartition partition = (XPartition) SampleMetastore.readFromXML(fileName); String partLocation = partition.getLocation(); if (!partLocation.startsWith("/")) { partition.setLocation("file://" + System.getProperty("lens.home") + "/" + partLocation); } result = metaClient.addPartitionToFactTable(fact, storage, partition); if (result.getStatus().equals(APIResult.Status.FAILED)) { System.err.println("Adding partition from:" + fileName + " failed"); retCode = 1; } else { System.out.println("Added partition from:" + fileName); } } private void createFactPartitions(String fileName, String fact, String storage) throws JAXBException, IOException { XPartitionList partitionList = (XPartitionList) SampleMetastore.readFromXML(fileName); for (XPartition partition : partitionList.getPartition()) { String partLocation = partition.getLocation(); if (!partLocation.startsWith("/")) { partition.setLocation("file://" + System.getProperty("lens.home") + "/" + partLocation); } } result = metaClient.addPartitionsToFactTable(fact, storage, partitionList); if (result.getStatus().equals(APIResult.Status.FAILED)) { System.err.println("Adding partitions from:" + fileName + " failed"); retCode = 1; } else { System.out.println("Added partitions from:" + fileName); } } public void populateFactTables() throws Exception { createFactPartition("fact1-local-part1.xml", "fact1", "local"); createFactPartition("fact1-local-part2.xml", "fact1", "local"); createFactPartition("fact1-local-part3.xml", "fact1", "local"); createFactPartition("fact2-local-part1.xml", "fact2", "local"); createFactPartition("fact2-local-part2.xml", "fact2", "local"); createFactPartition("fact2-local-part3.xml", "fact2", "local"); createFactPartition("raw-local-part1.xml", "rawfact", "local"); createFactPartition("raw-local-part2.xml", "rawfact", "local"); createFactPartition("raw-local-part3.xml", "rawfact", "local"); createFactPartition("raw-local-part4.xml", "rawfact", "local"); createFactPartition("raw-local-part5.xml", "rawfact", "local"); createFactPartition("raw-local-part6.xml", "rawfact", "local"); createFactPartitions("sales-raw-local-parts.xml", "sales_raw_fact", "local"); createFactPartitions("sales-aggr-fact1-local-parts.xml", "sales_aggr_fact1", "local"); createFactPartitions("sales-aggr-fact2-local-parts.xml", "sales_aggr_fact2", "local"); createFactPartitions("sales-aggr-fact1-mydb-parts.xml", "sales_aggr_fact1", "mydb"); createFactPartitions("sales-aggr-fact2-mydb-parts.xml", "sales_aggr_fact2", "mydb"); createContinuousFactData(); } }
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require "rails_helper" RSpec.describe CacheKeys::Custom::Collections do context "index" do let(:collections) { instance_double(Collection) } it "uses CacheKeys::DecoratedActiveRecord" do expect_any_instance_of(CacheKeys::ActiveRecord).to receive(:generate) subject.index(collections: collections) end it "uses the correct data" do expect_any_instance_of(CacheKeys::ActiveRecord).to receive(:generate).with(record: collections) subject.index(collections: collections) end end context "settings" do let(:collection) { instance_double(Collection) } it "uses CacheKeys::ActiveRecord" do expect_any_instance_of(CacheKeys::ActiveRecord).to receive(:generate) subject.settings(collection: collection) end it "uses the correct data" do expect_any_instance_of(CacheKeys::ActiveRecord).to receive(:generate).with(record: collection) subject.settings(collection: collection) end end context "site_setup" do let(:collection) { instance_double(Collection) } it "uses CacheKeys::ActiveRecord" do expect_any_instance_of(CacheKeys::ActiveRecord).to receive(:generate) subject.site_setup(collection: collection) end it "uses the correct data" do expect_any_instance_of(CacheKeys::ActiveRecord).to receive(:generate).with(record: collection) subject.site_setup(collection: collection) end end end
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namespace base { class Pickle; class PickleIterator; } namespace net { // Structures related to Certificate Transparency (RFC6962). namespace ct { // Contains the data necessary to reconstruct the signed_entry of a // SignedCertificateTimestamp, from RFC 6962, Section 3.2. // // All the data necessary to validate a SignedCertificateTimestamp is present // within the SignedCertificateTimestamp, except for the signature_type, // entry_type, and the actual entry. The only supported signature_type at // present is certificate_timestamp. The entry_type is implicit from the // context in which it is received (those in the X.509 extension are // precert_entry, all others are x509_entry). The signed_entry itself is // reconstructed from the certificate being verified, or from the corresponding // precertificate. // // The SignedEntryData contains this reconstructed data, and can be used to // either generate or verify the signature in SCTs. struct NET_EXPORT SignedEntryData { // LogEntryType enum in RFC 6962, Section 3.1 enum Type { LOG_ENTRY_TYPE_X509 = 0, LOG_ENTRY_TYPE_PRECERT = 1 }; SignedEntryData(); ~SignedEntryData(); void Reset(); Type type; // Set if type == LOG_ENTRY_TYPE_X509 std::string leaf_certificate; // Set if type == LOG_ENTRY_TYPE_PRECERT SHA256HashValue issuer_key_hash; std::string tbs_certificate; }; // Helper structure to represent Digitally Signed data, as described in // Sections 4.7 and 7.4.1.4.1 of RFC 5246. struct NET_EXPORT DigitallySigned { enum HashAlgorithm { HASH_ALGO_NONE = 0, HASH_ALGO_MD5 = 1, HASH_ALGO_SHA1 = 2, HASH_ALGO_SHA224 = 3, HASH_ALGO_SHA256 = 4, HASH_ALGO_SHA384 = 5, HASH_ALGO_SHA512 = 6, }; enum SignatureAlgorithm { SIG_ALGO_ANONYMOUS = 0, SIG_ALGO_RSA = 1, SIG_ALGO_DSA = 2, SIG_ALGO_ECDSA = 3 }; DigitallySigned(); ~DigitallySigned(); // Returns true if |other_hash_algorithm| and |other_signature_algorithm| // match this DigitallySigned hash and signature algorithms. bool SignatureParametersMatch( HashAlgorithm other_hash_algorithm, SignatureAlgorithm other_signature_algorithm) const; HashAlgorithm hash_algorithm; SignatureAlgorithm signature_algorithm; // 'signature' field. std::string signature_data; }; // SignedCertificateTimestamp struct in RFC 6962, Section 3.2. struct NET_EXPORT SignedCertificateTimestamp : public base::RefCountedThreadSafe<SignedCertificateTimestamp> { // Predicate functor used in maps when SignedCertificateTimestamp is used as // the key. struct NET_EXPORT LessThan { bool operator()(const scoped_refptr<SignedCertificateTimestamp>& lhs, const scoped_refptr<SignedCertificateTimestamp>& rhs) const; }; // Version enum in RFC 6962, Section 3.2. enum Version { V1 = 0, }; // Source of the SCT - supplementary, not defined in CT RFC. // Note: The numeric values are used within histograms and should not change // or be re-assigned. enum Origin { SCT_EMBEDDED = 0, SCT_FROM_TLS_EXTENSION = 1, SCT_FROM_OCSP_RESPONSE = 2, SCT_ORIGIN_MAX, }; SignedCertificateTimestamp(); void Persist(base::Pickle* pickle); static scoped_refptr<SignedCertificateTimestamp> CreateFromPickle( base::PickleIterator* iter); Version version; std::string log_id; base::Time timestamp; std::string extensions; DigitallySigned signature; Origin origin; // The log description is not one of the SCT fields, but a user-readable // name defined alongside the log key. It should not participate // in equality checks as the log's description could change while // the SCT would be the same. std::string log_description; private: friend class base::RefCountedThreadSafe<SignedCertificateTimestamp>; ~SignedCertificateTimestamp(); DISALLOW_COPY_AND_ASSIGN(SignedCertificateTimestamp); }; using SCTList = std::vector<scoped_refptr<ct::SignedCertificateTimestamp>>; } // namespace ct } // namespace net #endif // NET_CERT_SIGNED_CERTIFICATE_TIMESTAMP_H_
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import pyaf.Bench.TS_datasets as tsds import tests.artificial.process_artificial_dataset as art art.process_dataset(N = 32 , FREQ = 'D', seed = 0, trendtype = "MovingMedian", cycle_length = 0, transform = "Difference", sigma = 0.0, exog_count = 20, ar_order = 0);
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package org.apache.asterix.metadata.cluster; import java.util.concurrent.atomic.AtomicInteger; import org.apache.asterix.common.api.IClusterEventsSubscriber; import org.apache.asterix.common.api.IClusterManagementWork; public abstract class AbstractClusterManagementWork implements IClusterManagementWork { protected final IClusterEventsSubscriber subscriber; protected final int workId; @Override public int getWorkId() { return workId; } public AbstractClusterManagementWork(IClusterEventsSubscriber subscriber) { this.subscriber = subscriber; this.workId = WorkIdGenerator.getNextWorkId(); } private static class WorkIdGenerator { private static AtomicInteger workId = new AtomicInteger(0); public static int getNextWorkId() { return workId.incrementAndGet(); } } @Override public IClusterEventsSubscriber getSourceSubscriber() { return subscriber; } }
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// Copyright Yahoo. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root. package com.yahoo.container.jdisc.component; import com.yahoo.component.AbstractComponent; import com.yahoo.component.Deconstructable; import com.yahoo.concurrent.ThreadFactoryFactory; import com.yahoo.container.di.ComponentDeconstructor; import com.yahoo.container.di.componentgraph.Provider; import com.yahoo.jdisc.SharedResource; import com.yahoo.yolean.UncheckedInterruptedException; import org.osgi.framework.Bundle; import org.osgi.framework.BundleException; import java.time.Duration; import java.util.ArrayList; import java.util.Collection; import java.util.List; import java.util.Random; import java.util.concurrent.ExecutorService; import java.util.concurrent.Executors; import java.util.concurrent.TimeUnit; import java.util.logging.Level; import java.util.logging.Logger; import static java.util.logging.Level.FINE; import static java.util.logging.Level.INFO; import static java.util.logging.Level.SEVERE; import static java.util.logging.Level.WARNING; /** * @author Tony Vaagenes * @author gv */ public class Deconstructor implements ComponentDeconstructor { private static final Logger log = Logger.getLogger(Deconstructor.class.getName()); private final ExecutorService executor = Executors.newFixedThreadPool(1, ThreadFactoryFactory.getThreadFactory("component-deconstructor")); // This must be smaller than the shutdownDeadlineExecutor delay in ConfiguredApplication private final Duration shutdownTimeout; public Deconstructor(Duration shutdownTimeout) { this.shutdownTimeout = shutdownTimeout; } public Deconstructor() { this(Duration.ofSeconds(45)); } @Override public void deconstruct(long generation, List<Object> components, Collection<Bundle> bundles) { Collection<Deconstructable> destructibleComponents = new ArrayList<>(); for (var component : components) { if (component instanceof AbstractComponent) { AbstractComponent abstractComponent = (AbstractComponent) component; if (abstractComponent.isDeconstructable()) { destructibleComponents.add(abstractComponent); } } else if (component instanceof Provider) { destructibleComponents.add((Deconstructable) component); } else if (component instanceof SharedResource) { // Release shared resources in same order as other components in case of usage without reference counting destructibleComponents.add(new SharedResourceReleaser(component)); } } if (!destructibleComponents.isEmpty() || !bundles.isEmpty()) { executor.execute(new DestructComponentTask(generation, destructibleComponents, bundles)); } } @Override public void shutdown() { executor.shutdown(); try { log.info("Waiting up to " + shutdownTimeout.toSeconds() + " seconds for all previous components graphs to deconstruct."); if (!executor.awaitTermination(shutdownTimeout.getSeconds(), TimeUnit.SECONDS)) { log.warning("Waiting for deconstruction timed out."); } } catch (InterruptedException e) { log.info("Interrupted while waiting for component deconstruction to finish."); throw new UncheckedInterruptedException(e, true); } } private static class SharedResourceReleaser implements Deconstructable { final SharedResource resource; private SharedResourceReleaser(Object resource) { this.resource = (SharedResource) resource; } @Override public void deconstruct() { resource.release(); } } private static class DestructComponentTask implements Runnable { private final Random random = new Random(System.nanoTime()); private final long generation; private final Collection<Deconstructable> components; private final Collection<Bundle> bundles; DestructComponentTask(long generation, Collection<Deconstructable> components, Collection<Bundle> bundles) { this.generation = generation; this.components = components; this.bundles = bundles; } /** * Returns a random delay between 0 and 10 minutes which will be different across identical containers invoking this at the same time. * Used to randomize restart to avoid simultaneous cluster restarts. */ private Duration getRandomizedShutdownDelay() { long seconds = (long) (random.nextDouble() * 60 * 10); return Duration.ofSeconds(seconds); } @Override public void run() { long start = System.currentTimeMillis(); log.info(String.format("Starting deconstruction of %d components and %d bundles from generation %d", components.size(), bundles.size(), generation)); for (var component : components) { log.log(FINE, () -> "Starting deconstruction of " + component); try { component.deconstruct(); log.log(FINE, () -> "Finished deconstructing of " + component); } catch (Exception | NoClassDefFoundError e) { // May get class not found due to it being already unloaded log.log(WARNING, "Exception thrown when deconstructing component " + component, e); } catch (Error e) { try { Duration shutdownDelay = getRandomizedShutdownDelay(); log.log(Level.SEVERE, "Error when deconstructing component " + component + ". Will sleep for " + shutdownDelay.getSeconds() + " seconds then restart", e); Thread.sleep(shutdownDelay.toMillis()); } catch (InterruptedException exception) { log.log(WARNING, "Randomized wait before dying disrupted. Dying now."); } com.yahoo.protect.Process.logAndDie("Shutting down due to error when deconstructing component " + component); } catch (Throwable e) { log.log(WARNING, "Non-error not exception throwable thrown when deconstructing component " + component, e); } } // It should now be safe to uninstall the old bundles. for (var bundle : bundles) { try { log.log(INFO, "Uninstalling bundle " + bundle); bundle.uninstall(); } catch (BundleException e) { log.log(SEVERE, "Could not uninstall bundle " + bundle); } } log.info(String.format("Completed deconstruction in %.3f seconds", (System.currentTimeMillis() - start) / 1000D)); // NOTE: It could be tempting to refresh packages here, but if active bundles were using any of // the removed ones, they would switch wiring in the middle of a generation's lifespan. // This would happen if the dependent active bundle has not been rebuilt with a new version // of its dependency(ies). } } }
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package version import ( "fmt" ) // Version is the current version of BFF. const Version = "0.4.0" // PrintVersion prints the version of BFF to standard output. func PrintVersion() { fmt.Println("BFF core version", Version) fmt.Println("Copyright (C) James Hall 2015.") }
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using namespace lldb; using namespace lldb_private; CompileUnit::CompileUnit (const lldb::ModuleSP &module_sp, void *user_data, const char *pathname, const lldb::user_id_t cu_sym_id, lldb::LanguageType language) : ModuleChild(module_sp), FileSpec (pathname, false), UserID(cu_sym_id), m_user_data (user_data), m_language (language), m_flags (0), m_functions (), m_support_files (), m_line_table_ap (), m_variables() { if (language != eLanguageTypeUnknown) m_flags.Set(flagsParsedLanguage); assert(module_sp); } CompileUnit::CompileUnit (const lldb::ModuleSP &module_sp, void *user_data, const FileSpec &fspec, const lldb::user_id_t cu_sym_id, lldb::LanguageType language) : ModuleChild(module_sp), FileSpec (fspec), UserID(cu_sym_id), m_user_data (user_data), m_language (language), m_flags (0), m_functions (), m_support_files (), m_line_table_ap (), m_variables() { if (language != eLanguageTypeUnknown) m_flags.Set(flagsParsedLanguage); assert(module_sp); } CompileUnit::~CompileUnit () { } void CompileUnit::CalculateSymbolContext(SymbolContext* sc) { sc->comp_unit = this; GetModule()->CalculateSymbolContext(sc); } ModuleSP CompileUnit::CalculateSymbolContextModule () { return GetModule(); } CompileUnit * CompileUnit::CalculateSymbolContextCompileUnit () { return this; } void CompileUnit::DumpSymbolContext(Stream *s) { GetModule()->DumpSymbolContext(s); s->Printf(", CompileUnit{0x%8.8" PRIx64 "}", GetID()); } void CompileUnit::GetDescription(Stream *s, lldb::DescriptionLevel level) const { Language language(m_language); *s << "id = " << (const UserID&)*this << ", file = \"" << (const FileSpec&)*this << "\", language = \"" << language << '"'; } //---------------------------------------------------------------------- // Dump the current contents of this object. No functions that cause on // demand parsing of functions, globals, statics are called, so this // is a good function to call to get an idea of the current contents of // the CompileUnit object. //---------------------------------------------------------------------- void CompileUnit::Dump(Stream *s, bool show_context) const { s->Printf("%p: ", this); s->Indent(); *s << "CompileUnit" << (const UserID&)*this << ", language = \"" << (const Language&)*this << "\", file = '" << (const FileSpec&)*this << "'\n"; // m_types.Dump(s); if (m_variables.get()) { s->IndentMore(); m_variables->Dump(s, show_context); s->IndentLess(); } if (!m_functions.empty()) { s->IndentMore(); std::vector<FunctionSP>::const_iterator pos; std::vector<FunctionSP>::const_iterator end = m_functions.end(); for (pos = m_functions.begin(); pos != end; ++pos) { (*pos)->Dump(s, show_context); } s->IndentLess(); s->EOL(); } } //---------------------------------------------------------------------- // Add a function to this compile unit //---------------------------------------------------------------------- void CompileUnit::AddFunction(FunctionSP& funcSP) { // TODO: order these by address m_functions.push_back(funcSP); } FunctionSP CompileUnit::GetFunctionAtIndex (size_t idx) { FunctionSP funcSP; if (idx < m_functions.size()) funcSP = m_functions[idx]; return funcSP; } //---------------------------------------------------------------------- // Find functions using the a Mangled::Tokens token list. This // function currently implements an interative approach designed to find // all instances of certain functions. It isn't designed to the the // quickest way to lookup functions as it will need to iterate through // all functions and see if they match, though it does provide a powerful // and context sensitive way to search for all functions with a certain // name, all functions in a namespace, or all functions of a template // type. See Mangled::Tokens::Parse() comments for more information. // // The function prototype will need to change to return a list of // results. It was originally used to help debug the Mangled class // and the Mangled::Tokens::MatchesQuery() function and it currently // will print out a list of matching results for the functions that // are currently in this compile unit. // // A FindFunctions method should be called prior to this that takes // a regular function name (const char * or ConstString as a parameter) // before resorting to this slower but more complete function. The // other FindFunctions method should be able to take advantage of any // accelerator tables available in the debug information (which is // parsed by the SymbolFile parser plug-ins and registered with each // Module). //---------------------------------------------------------------------- //void //CompileUnit::FindFunctions(const Mangled::Tokens& tokens) //{ // if (!m_functions.empty()) // { // Stream s(stdout); // std::vector<FunctionSP>::const_iterator pos; // std::vector<FunctionSP>::const_iterator end = m_functions.end(); // for (pos = m_functions.begin(); pos != end; ++pos) // { // const ConstString& demangled = (*pos)->Mangled().Demangled(); // if (demangled) // { // const Mangled::Tokens& func_tokens = (*pos)->Mangled().GetTokens(); // if (func_tokens.MatchesQuery (tokens)) // s << "demangled MATCH found: " << demangled << "\n"; // } // } // } //} FunctionSP CompileUnit::FindFunctionByUID (lldb::user_id_t func_uid) { FunctionSP funcSP; if (!m_functions.empty()) { std::vector<FunctionSP>::const_iterator pos; std::vector<FunctionSP>::const_iterator end = m_functions.end(); for (pos = m_functions.begin(); pos != end; ++pos) { if ((*pos)->GetID() == func_uid) { funcSP = *pos; break; } } } return funcSP; } lldb::LanguageType CompileUnit::GetLanguage() { if (m_language == eLanguageTypeUnknown) { if (m_flags.IsClear(flagsParsedLanguage)) { m_flags.Set(flagsParsedLanguage); SymbolVendor* symbol_vendor = GetModule()->GetSymbolVendor(); if (symbol_vendor) { SymbolContext sc; CalculateSymbolContext(&sc); m_language = symbol_vendor->ParseCompileUnitLanguage(sc); } } } return m_language; } LineTable* CompileUnit::GetLineTable() { if (m_line_table_ap.get() == NULL) { if (m_flags.IsClear(flagsParsedLineTable)) { m_flags.Set(flagsParsedLineTable); SymbolVendor* symbol_vendor = GetModule()->GetSymbolVendor(); if (symbol_vendor) { SymbolContext sc; CalculateSymbolContext(&sc); symbol_vendor->ParseCompileUnitLineTable(sc); } } } return m_line_table_ap.get(); } void CompileUnit::SetLineTable(LineTable* line_table) { if (line_table == NULL) m_flags.Clear(flagsParsedLineTable); else m_flags.Set(flagsParsedLineTable); m_line_table_ap.reset(line_table); } VariableListSP CompileUnit::GetVariableList(bool can_create) { if (m_variables.get() == NULL && can_create) { SymbolContext sc; CalculateSymbolContext(&sc); assert(sc.module_sp); sc.module_sp->GetSymbolVendor()->ParseVariablesForContext(sc); } return m_variables; } uint32_t CompileUnit::FindLineEntry (uint32_t start_idx, uint32_t line, const FileSpec* file_spec_ptr, bool exact, LineEntry *line_entry_ptr) { uint32_t file_idx = 0; if (file_spec_ptr) { file_idx = GetSupportFiles().FindFileIndex (1, *file_spec_ptr, true); if (file_idx == UINT32_MAX) return UINT32_MAX; } else { // All the line table entries actually point to the version of the Compile // Unit that is in the support files (the one at 0 was artifically added.) // So prefer the one further on in the support files if it exists... FileSpecList &support_files = GetSupportFiles(); const bool full = true; file_idx = support_files.FindFileIndex (1, support_files.GetFileSpecAtIndex(0), full); if (file_idx == UINT32_MAX) file_idx = 0; } LineTable *line_table = GetLineTable(); if (line_table) return line_table->FindLineEntryIndexByFileIndex (start_idx, file_idx, line, exact, line_entry_ptr); return UINT32_MAX; } uint32_t CompileUnit::ResolveSymbolContext ( const FileSpec& file_spec, uint32_t line, bool check_inlines, bool exact, uint32_t resolve_scope, SymbolContextList &sc_list ) { // First find all of the file indexes that match our "file_spec". If // "file_spec" has an empty directory, then only compare the basenames // when finding file indexes std::vector<uint32_t> file_indexes; const bool full_match = (bool)file_spec.GetDirectory(); bool file_spec_matches_cu_file_spec = FileSpec::Equal(file_spec, *this, full_match); // If we are not looking for inlined functions and our file spec doesn't // match then we are done... if (file_spec_matches_cu_file_spec == false && check_inlines == false) return 0; uint32_t file_idx = GetSupportFiles().FindFileIndex (1, file_spec, true); while (file_idx != UINT32_MAX) { file_indexes.push_back (file_idx); file_idx = GetSupportFiles().FindFileIndex (file_idx + 1, file_spec, true); } const size_t num_file_indexes = file_indexes.size(); if (num_file_indexes == 0) return 0; const uint32_t prev_size = sc_list.GetSize(); SymbolContext sc(GetModule()); sc.comp_unit = this; if (line != 0) { LineTable *line_table = sc.comp_unit->GetLineTable(); if (line_table != NULL) { uint32_t found_line; uint32_t line_idx; if (num_file_indexes == 1) { // We only have a single support file that matches, so use // the line table function that searches for a line entries // that match a single support file index LineEntry line_entry; line_idx = line_table->FindLineEntryIndexByFileIndex (0, file_indexes.front(), line, exact, &line_entry); // If "exact == true", then "found_line" will be the same // as "line". If "exact == false", the "found_line" will be the // closest line entry with a line number greater than "line" and // we will use this for our subsequent line exact matches below. found_line = line_entry.line; while (line_idx != UINT32_MAX) { // If they only asked for the line entry, then we're done, we can just copy that over. // But if they wanted more than just the line number, fill it in. if (resolve_scope == eSymbolContextLineEntry) { sc.line_entry = line_entry; } else { line_entry.range.GetBaseAddress().CalculateSymbolContext(&sc, resolve_scope); } sc_list.Append(sc); line_idx = line_table->FindLineEntryIndexByFileIndex (line_idx + 1, file_indexes.front(), found_line, true, &line_entry); } } else { // We found multiple support files that match "file_spec" so use // the line table function that searches for a line entries // that match a multiple support file indexes. LineEntry line_entry; line_idx = line_table->FindLineEntryIndexByFileIndex (0, file_indexes, line, exact, &line_entry); // If "exact == true", then "found_line" will be the same // as "line". If "exact == false", the "found_line" will be the // closest line entry with a line number greater than "line" and // we will use this for our subsequent line exact matches below. found_line = line_entry.line; while (line_idx != UINT32_MAX) { if (resolve_scope == eSymbolContextLineEntry) { sc.line_entry = line_entry; } else { line_entry.range.GetBaseAddress().CalculateSymbolContext(&sc, resolve_scope); } sc_list.Append(sc); line_idx = line_table->FindLineEntryIndexByFileIndex (line_idx + 1, file_indexes, found_line, true, &line_entry); } } } } else if (file_spec_matches_cu_file_spec && !check_inlines) { // only append the context if we aren't looking for inline call sites // by file and line and if the file spec matches that of the compile unit sc_list.Append(sc); } return sc_list.GetSize() - prev_size; } void CompileUnit::SetVariableList(VariableListSP &variables) { m_variables = variables; } FileSpecList& CompileUnit::GetSupportFiles () { if (m_support_files.GetSize() == 0) { if (m_flags.IsClear(flagsParsedSupportFiles)) { m_flags.Set(flagsParsedSupportFiles); SymbolVendor* symbol_vendor = GetModule()->GetSymbolVendor(); if (symbol_vendor) { SymbolContext sc; CalculateSymbolContext(&sc); symbol_vendor->ParseCompileUnitSupportFiles(sc, m_support_files); } } } return m_support_files; } void * CompileUnit::GetUserData () const { return m_user_data; }
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All Rights Reserved by <a href="#">Abdus</a></p> </div> </div> </div> </div> </div> </div> </div> </div> </footer> </div> <!-- LOGIN MODAL --> <div id="loginModal" tabindex="-1" class="modal fade" role="dialog"> <div class="modal-dialog"> <!-- Modal content--> <div class="modal-content"> <div class="modal-header"> <button type="button" class="close" data-dismiss="modal">&times;</button> <h4 class="modal-title">Log In to your Account</h4> </div> <div class="modal-body"> <form class="loginForm"> <div class="form-group"> <i class="fa fa-envelope" aria-hidden="true"></i> <input type="email" class="form-control" id="email" placeholder="Email"> </div> <div class="form-group"> <i class="fa fa-lock" aria-hidden="true"></i> <input type="password" class="form-control" id="pwd" placeholder="Password"> </div> <div class="form-group"> <button type="submit" class="btn btn-primary btn-block">Log In</button> </div> <div class="checkbox"> <label><input type="checkbox"> Remember me</label> <a href="#" class="pull-right link">Fogot Password?</a> </div> </form> </div> <div class="modal-footer"> <p>Don’t have an Account? <a href="#" class="link">Sign up</a></p> </div> </div> </div> </div> <!-- JAVASCRIPTS --> <script src="plugins/jquery/jquery.min.js"></script> <script src="plugins/jquery-ui/jquery-ui.min.js"></script> <script src="plugins/bootstrap/js/bootstrap.min.js"></script> <script src="plugins/smoothscroll/SmoothScroll.min.js"></script> <script src="plugins/waypoints/waypoints.min.js"></script> <script src="plugins/counter-up/jquery.counterup.min.js"></script> <script src="plugins/datepicker/bootstrap-datepicker.min.js"></script> <script src="plugins/selectbox/jquery.selectbox-0.1.3.min.js"></script> <script src="plugins/owl-carousel/owl.carousel.min.js"></script> <script src="plugins/isotope/isotope.min.js"></script> <script src="plugins/fancybox/jquery.fancybox.pack.js"></script> <script src="plugins/isotope/isotope-triger.min.js"></script> <script src="https://maps.googleapis.com/maps/api/js?key=AIzaSyBEDfNcQRmKQEyulDN8nGWjLYPm8s4YB58"></script> <script src="plugins/map/js/rich-marker.js"></script> <script src="plugins/map/js/infobox_packed.js"></script> <script src="js/single-map.js"></script> <script src="js/map.js"></script> <script src="js/custom.js"></script> </body> </html>
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<?php use NDM\Bundle\TryCatch\ApiBundle\TryCatchApiBundle; use Nelmio\ApiDocBundle\NelmioApiDocBundle; use RaulFraile\Bundle\LadybugBundle\RaulFraileLadybugBundle; use FOS\RestApiExplorerBundle\FOSRestApiExplorerBundle; use JMS\SerializerBundle\JMSSerializerBundle; use FOS\RestBundle\FOSRestBundle; use Symfony\Component\HttpKernel\Kernel; use Symfony\Component\Config\Loader\LoaderInterface; class AppKernel extends Kernel { public function registerBundles() { $bundles = array( new Symfony\Bundle\FrameworkBundle\FrameworkBundle(), new Symfony\Bundle\SecurityBundle\SecurityBundle(), new Symfony\Bundle\TwigBundle\TwigBundle(), new Symfony\Bundle\MonologBundle\MonologBundle(), new Symfony\Bundle\SwiftmailerBundle\SwiftmailerBundle(), new Symfony\Bundle\AsseticBundle\AsseticBundle(), new Doctrine\Bundle\DoctrineBundle\DoctrineBundle(), new Sensio\Bundle\FrameworkExtraBundle\SensioFrameworkExtraBundle(), new JMS\AopBundle\JMSAopBundle(), new JMS\DiExtraBundle\JMSDiExtraBundle($this), new JMS\SecurityExtraBundle\JMSSecurityExtraBundle(), new FOSRestBundle(), new JMSSerializerBundle($this), new RaulFraileLadybugBundle(), new NelmioApiDocBundle(), new TryCatchApiBundle(), new NDM\Bundle\TryCatch\DashboardBundle\TryCatchDashboardBundle(), ); if (in_array($this->getEnvironment(), array('dev', 'test'))) { $bundles[] = new Symfony\Bundle\WebProfilerBundle\WebProfilerBundle(); $bundles[] = new Sensio\Bundle\DistributionBundle\SensioDistributionBundle(); $bundles[] = new Sensio\Bundle\GeneratorBundle\SensioGeneratorBundle(); $bundles[] = new Knp\Bundle\MarkdownBundle\KnpMarkdownBundle(); } return $bundles; } public function registerContainerConfiguration(LoaderInterface $loader) { $loader->load(__DIR__.'/config/config_'.$this->getEnvironment().'.yml'); } }
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import { select } from 'd3-selection' import { extent, max } from 'd3-array' import { scaleLinear, scaleSqrt, scalePow, scaleOrdinal } from 'd3-scale' import { axisLeft } from 'd3-axis' import { interpolateHcl } from 'd3-interpolate' import { rgb } from 'd3-color' import { line } from 'd3-shape' import { default as tip } from 'd3-tip' export default function foodwebstatic() { //---------------------------- // Default parameters //---------------------------- var paddingLeft = 50, paddingRight = 10, paddingTop = 10, paddingBottom = 10, tllim = [NaN, NaN], rlim = [1, 50], blim = [NaN, NaN], totwidth = 960, totheight = 600, colfun = NaN, lwmax = 100, wmax = NaN, pedge = 1/3; //---------------------------- // Main plotting routine //---------------------------- function chart(selection) { selection.each(function(data, i) { // Add SVG canvas var svg = select(this).append("svg") .attr("width", totwidth) .attr("height", totheight); // Draw rectangle in axis plotting area, for reference svg.append("rect") .attr("class", "fwaxis") .attr("x", paddingLeft) .attr("y", paddingTop) .attr("width", totwidth - paddingLeft - paddingRight) .attr("height", totheight - paddingTop - paddingBottom) .attr("fill", "none"); // Extract data var nodedata = data.nodes[0] var flxdata = data.links1[0] var grpdata = data.links2[0] // Scales var tllimdefault = extent(nodedata, function(d) {return d.TL}); if (isNaN(tllim[0])) { tllim[0] = tllimdefault[0] } if (isNaN(tllim[1])) { tllim[1] = tllimdefault[1] } var blimdefault = extent(nodedata, function(d) {return d.B}); if (isNaN(blim[0])) { blim[0] = blimdefault[0] } if (isNaN(blim[1])) { blim[1] = blimdefault[1] } var tl2y = scaleLinear() .domain([tllim[0], tllim[1]]) .range([totheight-paddingBottom, paddingTop]); var yAxis = axisLeft(tl2y); var b2r = scaleSqrt() .domain(blim) .range(rlim) .clamp(true); if (isNaN(wmax)) { wmax = max(flxdata, function(d) {return d.Weight}); } var weight2lw = scalePow() .exponent(pedge) .domain([0,wmax]) .range([0,lwmax]); // var xfac = (totheight-paddingTop-paddingBottom)/(tllim[1]-tllim[0]) // Color scale: If nodes have a cval property, use that with a // continuous color scale (by default, blue-pink-yellow one on the // domain of 0-1). Otherwise, use node type for color. Flux lines // without a cval property match the value of their source node. var coltype = scaleOrdinal() .domain([0,1,2,3]) .range(["#b3cde3", "#ccebc5", "#fbb4ae", "#decbe4"]) .unknown("#ffffff"); var colval = scaleLinear() .domain([0,1]) .interpolate(interpolateHcl) .range([rgb("#007AFF"), rgb('#FFF500')]); if ('cval' in nodedata[0]) { if (typeof colfun === "number" & isNaN(colfun)) { colfun = colval; } } else { for (var ii = 0; ii < nodedata.length; ii++) { nodedata[ii].cval = nodedata[ii].type; } if (typeof colfun === "number" & isNaN(colfun)) { colfun = coltype; } } if (!('cval' in flxdata[0])) { for (ii = 0; ii < flxdata.length; ii++) { for (jj = 0; jj < nodedata.length; jj++) { if (flxdata[ii].source == nodedata[jj].id) { flxdata[ii].cval = nodedata[jj].cval; } } } } // Format line data as needed for line var linefun = line() .x(function(d) { return d.x; }) .y(function(d) { return d.y; }); for(var ii = 0; ii < flxdata.length; ii++ ) { flxdata[ii].xy = []; if ('xpath' in flxdata[0]) { for (var jj =0; jj < flxdata[ii].xpath.length; jj++) { flxdata[ii].xy.push({x: flxdata[ii].xpath[jj], y: flxdata[ii].ypath[jj]}); } } else { for (var kk = 0; kk < nodedata.length; kk++) { if (flxdata[ii].source == nodedata[kk].id | flxdata[ii].target == nodedata[kk].id) { flxdata[ii].xy.push({x: nodedata[kk].x, y: nodedata[kk].y}); } } } } // Add axis svg.append("g") .attr("class", "y-axis") .attr("transform", "translate(" + (paddingLeft) + ", 0)") .call(yAxis); // Initialize tooltip var mytip = tip() .attr("class", "d3-tip") .offset([-10, 0]) .html(function(d) {return "<strong>" + d.id + "</strong><br><br>" + "B: " + d.B + "<br>" + "TL: " + d.TL }); svg.call(mytip); // Plot links var flink = svg.append("g") .attr("class", "flinks") .selectAll("path").data(flxdata).enter().append("path") .attr("fill", "none") .attr("stroke", function(d) { return colfun(d.cval); }) .attr("stroke-width", function(d) {return weight2lw(d.Weight); }) .attr("d", function(d) { return linefun(d.xy); }) .attr("opacity", 0.3); // Plot nodes, including hover behavior var node = svg.append("g") .attr("class", "nodes") .selectAll("circle").data(nodedata).enter().append("circle") .attr("class", "nodecircle") .attr("r", function(d) {return b2r(d.B); }) .style("fill", function(d) { return colfun(d.cval); }) .style("stroke", "white") .style("stroke-width", 0.5) .attr("cx", function(d) { return d.x; }) .attr("cy", function(d) { return d.y; }) .on("mouseover", function (d) { node .style("fill", "gray") .style("opacity", 0.3); select(this) .style("fill", function(d) { return colfun(d.cval); }) .style("opacity", 1); flink .style("stroke", function(o) { if (o.source == d.id){ return "blue"; } else if (o.target == d.id) { return "red"; } else { return "gray"; } }) .style("opacity", function(o) { return (o.source==d.id | o.target == d.id ? 1 : 0.1); }); mytip.show(d); }) .on("mouseout", function (d) { flink .style("stroke", function(o) { return colfun(o.cval); }) .style("opacity", 0.3); node .style("opacity", 1) .style("fill", function(o) { return colfun(o.cval); }); mytip.hide(d); }); }); // end selection.each } // end chart //---------------------------- // Fill in user-set variables //---------------------------- chart.paddingLeft = function(value) { if (!arguments.length) return paddingLeft; paddingLeft = value; return chart; }; chart.paddingRight = function(value) { if (!arguments.length) return paddingRight; paddingRight = value; return chart; }; chart.paddingTop = function(value) { if (!arguments.length) return paddingTop; paddingTop = value; return chart; }; chart.paddingBottom = function(value) { if (!arguments.length) return paddingBottom; paddingBottom = value; return chart; }; chart.tllim = function(value) { if (!arguments.length) return tllim; tllim = value; return chart; }; chart.rlim = function(value) { if (!arguments.length) return rlim; rlim = value; return chart; }; chart.blim = function(value) { if (!arguments.length) return blim; blim = value; return chart; }; chart.totwidth = function(value) { if (!arguments.length) return totwidth; totwidth = value; return chart; }; chart.totheight = function(value) { if (!arguments.length) return totheight; totheight = value; return chart; }; chart.colfun = function(value) { if (!arguments.length) return colfun; colfun = value; return chart; }; chart.lwmax = function(value) { if (!arguments.length) return lwmax; lwmax = value; return chart; }; chart.wmax = function(value) { if (!arguments.length) return wmax; wmax = value; return chart; }; chart.pedge = function(value) { if (!arguments.length) return pedge; pedge = value; return chart; }; return chart; } // end foodwebstatic
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exports.config = { directConnect: true, // Capabilities to be passed to the webdriver instance. capabilities: { 'browserName': 'chrome' }, // Spec patterns are relative to the current working directly when // protractor is called. specs: ['tests/e2e/example.js'], // Options to be passed to Jasmine-node. jasmineNodeOpts: { showColors: true, defaultTimeoutInterval: 30000 } };
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using WeihanLi.Common.Helpers; namespace WeihanLi.Common; /// <summary> /// A singleton disposable that does nothing when disposed. /// </summary> public sealed class NullDisposable : IDisposable #if ValueTaskSupport , IAsyncDisposable #endif { private NullDisposable() { } public void Dispose() { } #if ValueTaskSupport public ValueTask DisposeAsync() => #if NET6_0_OR_GREATER ValueTask.CompletedTask #else TaskHelper.CompletedValueTask #endif ; #endif /// <summary> /// Gets the instance of <see cref="NullDisposable"/>. /// </summary> public static NullDisposable Instance { get; } = new(); } public sealed class DisposableAction : IDisposable { public static readonly DisposableAction Empty = new(null); private Action? _disposeAction; public DisposableAction(Action? disposeAction) { _disposeAction = disposeAction; } public void Dispose() { Interlocked.Exchange(ref _disposeAction, null)?.Invoke(); } }
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<?xml version="1.0" encoding="utf-8" standalone="no"?> <application xmlns="http://ns.adobe.com/air/application/2.6"> <!-- Adobe AIR Application Descriptor File Template. Specifies parameters for identifying, installing, and launching AIR applications. xmlns - The Adobe AIR namespace: http://ns.adobe.com/air/application/2.6 The last segment of the namespace specifies the version of the AIR runtime required for this application to run. minimumPatchLevel - The minimum patch level of the AIR runtime required to run the application. Optional. --> <!-- A universally unique application identifier. Must be unique across all AIR applications. Using a reverse DNS-style name as the id is recommended. (Eg. com.example.ExampleApplication.) Required. --> <id>FMApp</id> <!-- Used as the filename for the application. Required. --> <filename>FMApp</filename> <!-- The name that is displayed in the AIR application installer. May have multiple values for each language. See samples or xsd schema file. Optional. --> <name>FMApp</name> <!-- A string value of the format <0-999>.<0-999>.<0-999> that represents application version which can be used to check for application upgrade. Values can also be 1-part or 2-part. It is not necessary to have a 3-part value. An updated version of application must have a versionNumber value higher than the previous version. Required for namespace >= 2.5 . --> <versionNumber>1.0.0</versionNumber> <!-- A string value (such as "v1", "2.5", or "Alpha 1") that represents the version of the application, as it should be shown to users. Optional. --> <!-- <versionLabel>1.0</versionLabel> --> <!-- Description, displayed in the AIR application installer. May have multiple values for each language. See samples or xsd schema file. Optional. --> <!-- <description></description> --> <!-- Copyright information. Optional --> <!-- <copyright></copyright> --> <!-- Publisher ID. Used if you're updating an application created prior to 1.5.3 --> <!-- <publisherID></publisherID> --> <!-- Settings for the application's initial window. Required. --> <initialWindow> <!-- The main SWF or HTML file of the application. Required. --> <!-- Note: In Flash Builder, the SWF reference is set automatically. --> <content>[This value will be overwritten by Flash Builder in the output app.xml]</content> <!-- The title of the main window. Optional. --> <!-- <title></title> --> <!-- The type of system chrome to use (either "standard" or "none"). Optional. Default standard. --> <!-- <systemChrome></systemChrome> --> <!-- Whether the window is transparent. Only applicable when systemChrome is none. Optional. Default false. --> <!-- <transparent></transparent> --> <!-- Whether the window is initially visible. Optional. Default false. --> <!-- <visible></visible> --> <!-- Whether the user can minimize the window. Optional. Default true. --> <!-- <minimizable></minimizable> --> <!-- Whether the user can maximize the window. Optional. Default true. --> <!-- <maximizable></maximizable> --> <!-- Whether the user can resize the window. Optional. Default true. --> <!-- <resizable></resizable> --> <!-- The window's initial width in pixels. Optional. --> <!-- <width></width> --> <!-- The window's initial height in pixels. Optional. --> <!-- <height></height> --> <!-- The window's initial x position. Optional. --> <!-- <x></x> --> <!-- The window's initial y position. Optional. --> <!-- <y></y> --> <!-- The window's minimum size, specified as a width/height pair in pixels, such as "400 200". Optional. --> <!-- <minSize></minSize> --> <!-- The window's initial maximum size, specified as a width/height pair in pixels, such as "1600 1200". Optional. --> <!-- <maxSize></maxSize> --> <!-- The initial aspect ratio of the app when launched (either "portrait" or "landscape"). Optional. Mobile only. Default is the natural orientation of the device --> <!-- <aspectRatio></aspectRatio> --> <!-- Whether the app will begin auto-orienting on launch. Optional. Mobile only. Default false --> <!-- <autoOrients></autoOrients> --> <!-- Whether the app launches in full screen. Optional. Mobile only. Default false --> <!-- <fullScreen></fullScreen> --> <!-- The render mode for the app (either auto, cpu, or gpu). Optional. Mobile only. Default auto --> <!-- <renderMode></renderMode> --> <!-- Whether or not to pan when a soft keyboard is raised or lowered (either "pan" or "none"). Optional. Defaults "pan." --> <!-- <softKeyboardBehavior></softKeyboardBehavior> --> <autoOrients>true</autoOrients> <fullScreen>false</fullScreen> <visible>true</visible> <softKeyboardBehavior>none</softKeyboardBehavior> </initialWindow> <!-- We recommend omitting the supportedProfiles element, --> <!-- which in turn permits your application to be deployed to all --> <!-- devices supported by AIR. If you wish to restrict deployment --> <!-- (i.e., to only mobile devices) then add this element and list --> <!-- only the profiles which your application does support. --> <!-- <supportedProfiles>desktop extendedDesktop mobileDevice extendedMobileDevice</supportedProfiles> --> <!-- The subpath of the standard default installation location to use. Optional. --> <!-- <installFolder></installFolder> --> <!-- The subpath of the Programs menu to use. (Ignored on operating systems without a Programs menu.) Optional. --> <!-- <programMenuFolder></programMenuFolder> --> <!-- The icon the system uses for the application. For at least one resolution, specify the path to a PNG file included in the AIR package. Optional. --> <!-- <icon> <image16x16></image16x16> <image32x32></image32x32> <image36x36></image36x36> <image48x48></image48x48> <image72x72></image72x72> <image114x114></image114x114> <image128x128></image128x128> </icon> --> <!-- Whether the application handles the update when a user double-clicks an update version of the AIR file (true), or the default AIR application installer handles the update (false). Optional. Default false. --> <!-- <customUpdateUI></customUpdateUI> --> <!-- Whether the application can be launched when the user clicks a link in a web browser. Optional. Default false. --> <!-- <allowBrowserInvocation></allowBrowserInvocation> --> <!-- Listing of file types for which the application can register. Optional. --> <!-- <fileTypes> --> <!-- Defines one file type. Optional. --> <!-- <fileType> --> <!-- The name that the system displays for the registered file type. Required. --> <!-- <name></name> --> <!-- The extension to register. Required. --> <!-- <extension></extension> --> <!-- The description of the file type. Optional. --> <!-- <description></description> --> <!-- The MIME content type. --> <!-- <contentType></contentType> --> <!-- The icon to display for the file type. Optional. --> <!-- <icon> <image16x16></image16x16> <image32x32></image32x32> <image48x48></image48x48> <image128x128></image128x128> </icon> --> <!-- </fileType> --> <!-- </fileTypes> --> <!-- iOS specific capabilities --> <!-- <iPhone> --> <!-- A list of plist key/value pairs to be added to the application Info.plist --> <!-- <InfoAdditions> <![CDATA[ <key>UIDeviceFamily</key> <array> <string>1</string> <string>2</string> </array> <key>UIStatusBarStyle</key> <string>UIStatusBarStyleBlackOpaque</string> <key>UIRequiresPersistentWiFi</key> <string>YES</string> ]]> </InfoAdditions> --> <!-- <requestedDisplayResolution></requestedDisplayResolution> --> <!-- </iPhone> --> <!-- Specify Android specific tags that get passed to AndroidManifest.xml file. --> <!--<android> <manifestAdditions> <![CDATA[ <manifest android:installLocation="auto"> <uses-permission android:name="android.permission.INTERNET"/> <uses-permission android:name="android.permission.WRITE_EXTERNAL_STORAGE"/> <uses-permission android:name="android.permission.ACCESS_FINE_LOCATION"/> <uses-configuration android:reqFiveWayNav="true"/> <supports-screens android:normalScreens="true"/> <uses-feature android:required="true" android:name="android.hardware.touchscreen.multitouch"/> <application android:enabled="true"> <activity android:excludeFromRecents="false"> <intent-filter> <action android:name="android.intent.action.MAIN"/> <category android:name="android.intent.category.LAUNCHER"/> </intent-filter> </activity> </application> </manifest> ]]> </manifestAdditions> </android> --> <!-- End of the schema for adding the android specific tags in AndroidManifest.xml file --> <android> <manifestAdditions><![CDATA[ <manifest android:installLocation="auto"> <!--See the Adobe AIR documentation for more information about setting Google Android permissions--> <!--Removing the permission android.permission.INTERNET will have the side effect of preventing you from debugging your application on your device--> <uses-permission android:name="android.permission.INTERNET"/> <!--<uses-permission android:name="android.permission.WRITE_EXTERNAL_STORAGE"/>--> <!--<uses-permission android:name="android.permission.READ_PHONE_STATE"/>--> <!--<uses-permission android:name="android.permission.ACCESS_FINE_LOCATION"/>--> <!--The DISABLE_KEYGUARD and WAKE_LOCK permissions should be toggled together in order to access AIR's SystemIdleMode APIs--> <!--<uses-permission android:name="android.permission.DISABLE_KEYGUARD"/>--> <!--<uses-permission android:name="android.permission.WAKE_LOCK"/>--> <!--<uses-permission android:name="android.permission.CAMERA"/>--> <!--<uses-permission android:name="android.permission.RECORD_AUDIO"/>--> <!--The ACCESS_NETWORK_STATE and ACCESS_WIFI_STATE permissions should be toggled together in order to use AIR's NetworkInfo APIs--> <!--<uses-permission android:name="android.permission.ACCESS_NETWORK_STATE"/>--> <!--<uses-permission android:name="android.permission.ACCESS_WIFI_STATE"/>--> </manifest> ]]></manifestAdditions> </android> </application>
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DOCUMENTATION = """ author: David Lundgren lookup: vars_files options: lookup_vars_paths: type: list default: [] ini: - key: lookup_vars_paths section: defaults yaml: key: defaults.lookup_vars_paths """ import os from ansible import utils from ansible import constants as C from ansible.plugins.lookup import LookupBase # ansible 2.4 try: from ansible.plugins import get_plugin_class from ansible.parsing.plugin_docs import read_docstring # load the definitions dstring = read_docstring(__file__.replace('.pyc', '.py'), verbose = False, ignore_errors = False) if dstring.get('doc', False): if 'options' in dstring['doc'] and isinstance(dstring['doc']['options'], dict): C.config.initialize_plugin_configuration_definitions('lookup', 'vars_files', dstring['doc']['options']) except: None class LookupModule(LookupBase): def run(self, terms, variables=None, **kwargs): ret = [] paths = self.get_paths(variables) for term in terms: for path in paths: path = os.path.abspath(os.path.join(path, "vars", term)) if os.path.exists(path): ret.append(path) break return ret def get_paths(self, vars): paths = [] basedir = self.get_basedir(vars) try: # Ansible 2.4 lookupPaths = C.config.get_config_value('lookup_vars_paths', None, 'lookup', 'vars_files') except AttributeError: # Ansible 2.3 lookupPaths = C.get_config(C.p, C.DEFAULTS, 'lookup_vars_paths', None, [], value_type='list') except TypeError: # Ansible 2.2.x and below lookupPaths = C.get_config(C.p, C.DEFAULTS, 'lookup_vars_paths', None, [], islist=True) for path in lookupPaths: path = utils.path.unfrackpath(path) if os.path.exists(path): paths.append(path) if '_original_file' in vars: paths.append(self._loader.path_dwim_relative(basedir, '', vars['_original_file'])) if 'playbook_dir' in vars: paths.append(vars['playbook_dir']) paths.append(self._loader.path_dwim(basedir)) unq = [] [unq.append(i) for i in paths if not unq.count(i)] return unq
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<resources> <string name="app_name">EleganceInterpolator</string> </resources>
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package com.betaseries.betaseries.authentification; import android.content.Context; import com.betaseries.betaseries.BuildConfig; import com.betaseries.betaseries.authentification.webservice.AuthentificationService; import javax.inject.Singleton; import dagger.Module; import dagger.Provides; import retrofit.RequestInterceptor; import retrofit.RestAdapter; import retrofit.android.AndroidLog; /** * Created by florentchampigny on 02/08/15. */ @Module public class AuthentificationModule { @Singleton @Provides public AuthentificationService provideAuthentificationService(){ return new RestAdapter.Builder() .setEndpoint(BuildConfig.URL_BETASERIES) .setLogLevel(RestAdapter.LogLevel.FULL) .setLog(new AndroidLog("retrofit")) .setRequestInterceptor(request -> { request.addHeader("X-BetaSeries-Key", BuildConfig.API_KEY); request.addHeader("X-BetaSeries-Version", "2.4"); request.addHeader("Accept", "application/json"); }) .build() .create(AuthentificationService.class); } @Singleton @Provides public AuthentificationManager provideAuthentificationManager(AuthentificationService authentificationService, Context context){ return new AuthentificationManager(authentificationService, context); } }
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using MarsRovers.Instructions; using MarsRovers.Terrain; using NUnit.Framework; namespace MarsRovers.Test.InstructionTests { [TestFixture] public class PlateauInfoTest { [Test] public void CorrectPlateauSizeTest() { var instructionSet = new InstructionSet(); instructionSet.Add("5 3"); Plateau plateau = instructionSet.GetPlateau(); Assert.AreEqual(5, plateau.WestToEastLength); Assert.AreEqual(3, plateau.SouthToNorthLength); } [Test] [ExpectedException(typeof (InvalidPlateauInfoInstructionException))] public void InvalidPlateauWestToEastLengthShouldThrowException() { var instructionSet = new InstructionSet(); instructionSet.Add("A 55"); instructionSet.GetPlateau(); } [Test] [ExpectedException(typeof(InvalidPlateauInfoInstructionException))] public void InvalidPlateauSouthToNorthLengthShouldThrowException() { var instructionSet = new InstructionSet(); instructionSet.Add("55 A"); instructionSet.GetPlateau(); } [Test] [ExpectedException(typeof (MissingPlateauInfoInstructionException))] public void NoPlateauInfoShouldThrowException() { var instructionSet = new InstructionSet(); instructionSet.GetPlateau(); } [Test] [ExpectedException(typeof (InvalidPlateauInfoInstructionException))] public void PlateauSizeMissWidthOrLengthShouldThrowException() { var instructionSet = new InstructionSet(); instructionSet.Add("55"); instructionSet.GetPlateau(); } [Test] [ExpectedException(typeof (InvalidPlateauInfoInstructionException))] public void PlateauWidthOrLengthIsNegativeShouldThrowException() { var instructionSet = new InstructionSet(); instructionSet.Add("5 -1"); instructionSet.GetPlateau(); } } }
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<?php // запрет прямого доступа defined('_LINDEX') or die('STOP in file ' . __FILE__); $mainframe = MainFrame::getInstance(); require_once ($mainframe->getPath('toolbar_html')); $task = LSef::getTask(); switch($task){ case 'component_config': TOOLBAR_config::_SAVE_EXT_CONFIG(); break; default: TOOLBAR_config::_DEFAULT(); break; }
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package org.eclipse.emf.cdo.spi.common.admin; /** * Symbolic protocol constants commonly used in CDO administration. * * @author Eike Stepper * @since 4.1 * @noextend This interface is not intended to be extended by clients. * @noimplement This interface is not intended to be implemented by clients. */ public interface CDOAdminProtocolConstants { public static final String PROTOCOL_NAME = "cdo-admin"; //$NON-NLS-1$ // ////////////////////////////////////////////////////////////////////// // Signal IDs public static final short SIGNAL_QUERY_REPOSITORIES = 1; public static final short SIGNAL_CREATE_REPOSITORY = 2; public static final short SIGNAL_DELETE_REPOSITORY = 3; public static final short SIGNAL_REPOSITORY_ADDED = 4; public static final short SIGNAL_REPOSITORY_REMOVED = 5; public static final short SIGNAL_REPOSITORY_TYPE_CHANGED = 6; public static final short SIGNAL_REPOSITORY_STATE_CHANGED = 7; public static final short SIGNAL_REPOSITORY_REPLICATION_PROGRESSED = 8; }
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layout: error_403 css_filename: pulse.css ---
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% Commands
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<?xml version="1.0" encoding="utf-8"?> <selector xmlns:android="http://schemas.android.com/apk/res/android"> <item android:state_selected="true" android:drawable="@drawable/btn_manual_load_pressed" /> <item android:state_pressed="true" android:drawable="@drawable/btn_manual_load_pressed" /> <item android:state_focused="true" android:drawable="@drawable/btn_manual_load_pressed" /> <item android:drawable="@drawable/btn_manual_load_normal" /> </selector>
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/** * Created by jacob on 7/1/17. */ export interface IReading { readingId: number, lightValue: number, lightRatio: number, readingTime: Date, kwhValue: number, meterId: number }
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package org.apache.flex.compiler.definitions.metadata; import org.apache.flex.compiler.common.IMetaInfo; import org.apache.flex.compiler.common.ISourceLocation; import org.apache.flex.compiler.definitions.IDefinition; import org.apache.flex.compiler.tree.metadata.IMetaTagNode; /** * One IMetaTag corresponds to a single metadata annoation (such as * <code>[Event(name="click", type="flash.events.MouseEvent")]) * that applies to a given class, interface, variable, or method. */ public interface IMetaTag extends IMetaInfo, ISourceLocation { // TODO Eliminate this. static final String SINGLE_VALUE = "single"; /** * The special metadata name that indicates source location of a definition. */ static final String GO_TO_DEFINITION_HELP = "__go_to_definition_help"; static final String GO_TO_DEFINITION_HELP_POS = "pos"; /** * Gets the definition to which this metadata annotation is attached. */ IDefinition getDecoratedDefinition(); /** * If the metadata annotation specifies a single keyless value, this method * returns that value. Otherwise, it returns <code>null</code>. * * @return The keyless value. */ String getValue(); /** * Gets the {@code IMetaTagNode} that produced this {@code IMetaTag}. */ IMetaTagNode getTagNode(); }
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from django.test import TestCase from django.contrib.contenttypes.models import ContentType from wagtail.wagtailadmin import widgets from wagtail.wagtailcore.models import Page from wagtail.tests.testapp.models import SimplePage, EventPage class TestAdminPageChooserWidget(TestCase): def setUp(self): self.root_page = Page.objects.get(id=2) # Add child page self.child_page = SimplePage( title="foobarbaz", slug="foobarbaz", ) self.root_page.add_child(instance=self.child_page) def test_not_hidden(self): widget = widgets.AdminPageChooser() self.assertFalse(widget.is_hidden) def test_render_html(self): widget = widgets.AdminPageChooser() html = widget.render_html('test', None, {}) self.assertIn("<input name=\"test\" type=\"hidden\" />", html) def test_render_js_init(self): widget = widgets.AdminPageChooser() js_init = widget.render_js_init('test-id', 'test', None) self.assertEqual(js_init, "createPageChooser(\"test-id\", [\"wagtailcore.page\"], null, false);") def test_render_html_with_value(self): widget = widgets.AdminPageChooser() html = widget.render_html('test', self.child_page, {}) self.assertIn("<input name=\"test\" type=\"hidden\" value=\"%d\" />" % self.child_page.id, html) def test_render_js_init_with_value(self): widget = widgets.AdminPageChooser() js_init = widget.render_js_init('test-id', 'test', self.child_page) self.assertEqual( js_init, "createPageChooser(\"test-id\", [\"wagtailcore.page\"], %d, false);" % self.root_page.id ) # def test_render_html_init_with_content_type omitted as HTML does not # change when selecting a content type def test_render_js_init_with_content_type(self): content_type = ContentType.objects.get_for_model(SimplePage) widget = widgets.AdminPageChooser(content_type=content_type) js_init = widget.render_js_init('test-id', 'test', None) self.assertEqual(js_init, "createPageChooser(\"test-id\", [\"tests.simplepage\"], null, false);") def test_render_js_init_with_multiple_content_types(self): content_types = [ # Not using get_for_models as we need deterministic ordering ContentType.objects.get_for_model(SimplePage), ContentType.objects.get_for_model(EventPage), ] widget = widgets.AdminPageChooser(content_type=content_types) js_init = widget.render_js_init('test-id', 'test', None) self.assertEqual( js_init, "createPageChooser(\"test-id\", [\"tests.simplepage\", \"tests.eventpage\"], null, false);" ) def test_render_js_init_with_can_choose_root(self): widget = widgets.AdminPageChooser(can_choose_root=True) js_init = widget.render_js_init('test-id', 'test', self.child_page) self.assertEqual( js_init, "createPageChooser(\"test-id\", [\"wagtailcore.page\"], %d, true);" % self.root_page.id )
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package markdown import ( "github.com/imdario/mergo" ) // Config is the configuration for this response engine type Config struct { MarkdownSanitize bool } // DefaultConfig returns the default configuration for this response engine func DefaultConfig() Config { return Config{ MarkdownSanitize: false, } } // Merge merges the default with the given config and returns the result func (c Config) Merge(cfg []Config) (config Config) { if len(cfg) > 0 { config = cfg[0] mergo.Merge(&config, c) } else { _default := c config = _default } return } // MergeSingle merges the default with the given config and returns the result func (c Config) MergeSingle(cfg Config) (config Config) { config = cfg mergo.Merge(&config, c) return }
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{% extends "wagboot/_base.html" %} {% load wagtailcore_tags %} {% block bodyclass %}clear-page{% endblock %} {% block content %} <div class="{{ settings.wagboot.WebsiteSettings.container_class|default:"container" }}"> {{ page.body|richtext }} </div> {% endblock %}
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<?php namespace Sco\Admin\Form\Elements; use Illuminate\Http\UploadedFile; use Sco\Admin\Facades\Admin; use Sco\Admin\Traits\UploadStorageTrait; use Validator; /** * Class File * * @package Sco\Admin\Form\Elements */ class File extends BaseFile { /** * @var string */ protected $type = 'file'; protected $cast = 'json'; /** * @var bool */ protected $multiSelect = false; /** * @var bool */ protected $showFileList = true; /** * @var int */ protected $fileUploadsLimit = 0; /** * @return bool */ public function isMultiSelect() { return $this->multiSelect; } /** * @return $this */ public function enableMultiSelect() { $this->multiSelect = true; return $this; } /** * @return bool */ public function isShowFileList() { return $this->showFileList; } /** * Disable file list * * @return $this */ public function disableFileList() { $this->showFileList = false; return $this; } /** * @return \Illuminate\Config\Repository|mixed */ protected function getDefaultExtensions() { return config('admin.upload.extensions.file'); } /** * @return int */ public function getFileUploadsLimit() { return $this->fileUploadsLimit; } /** * The maximum number of files that can be uploaded. * * @param int $value * * @return $this */ public function setFileUploadsLimit(int $value) { $this->fileUploadsLimit = $value; return $this; } /** * @return array|mixed|static */ public function getValue() { $value = parent::getValue(); if (empty($value)) { return []; } return collect($value)->filter(function ($item) { return $this->existsFile($item); })->map(function ($item) { return $this->getFileInfo($item); }); } protected function mutateValueAsPath() { $this->setMutator(function ($value) { if (empty($value) || ! is_array($value)) { $value = []; } $paths = collect($value)->pluck('path'); if ($this->isJsonCastable()) { return $this->castValueAsJson($paths); } if ($this->isCommaCastable()) { return $this->castValueAsCommaSeparated($paths); } throw new \InvalidArgumentException(sprintf( '%s value is invalid', get_class($this) )); }); } /** * @return array */ public function toArray() { return parent::toArray() + [ 'showFileList' => $this->isShowFileList(), 'multiSelect' => $this->isMultiSelect(), 'fileUploadsLimit' => $this->getFileUploadsLimit(), ]; } }
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package net.hamnaberg.funclite; import java.util.function.Function; public final class Functions { private Functions() { } public static <A> Function<A, String> asString() { return Object::toString; } }
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<?php // // Pre-requisites: // * Prior to running this script, you must setup the following environment variables: // * RAX_USERNAME: Your Rackspace Cloud Account Username, and // * RAX_API_KEY: Your Rackspace Cloud Account API Key // require __DIR__ . '/../../vendor/autoload.php'; use OpenCloud\Rackspace; // 1. Instantiate a Rackspace client. $client = new Rackspace(Rackspace::US_IDENTITY_ENDPOINT, array( 'username' => getenv('RAX_USERNAME'), 'apiKey' => getenv('RAX_API_KEY') )); // 2. Obtain an Object Store service object from the client. $region = 'DFW'; $objectStoreService = $client->objectStoreService(null, $region); // 3. Get the account. $account = $objectStoreService->getAccount(); // 4. Set the temporary URL secret to "ssshhhh" $account->setTempUrlSecret("ssshhhh");
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all # opt-in all rules by default rule 'MD003', :style => :atx # Header style written as non-closing pound marks. e.g. ## Section title rule 'MD004', :style => :asterisk # Unordered list style as asterisk, rather than hyphen or plus sign rule 'MD029', :style => :ordered # Ordered list item prefix is incremental, rather than all ones exclude_rule 'MD013' # not limiting line length exclude_rule 'MD007' # not limiting unordered list indentation, tab, 2 or 4 spaces are all fine
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require 'set' module Earthquake module Input def input_filters @input_filters ||= [] end def input_filter(&block) input_filters << block end def commands @commands ||= [] end def command_names @command_names ||= Set.new end def completions @completions ||= [] end def completion(&block) completions << block end def command_aliases @command_aliases ||= {} end def alias_command(name, target) name = name.is_a?(Symbol) ? ":#{name}" : name.to_s target = target.is_a?(Symbol) ? ":#{target}" : target.to_s command_aliases[name] = target end def input(text) return if text.empty? input_filters.each { |f| text = f.call(text) } if command = command(text) command[:block].call(command[:pattern].match(text)) elsif !text.empty? puts "Command not found".c(43) end rescue Exception => e error e end def command(pattern, options = {}, &block) if block if pattern.is_a?(String) || pattern.is_a?(Symbol) command_name = ":#{pattern}" command_names << command_name if block.arity > 0 pattern = %r|^#{command_name}\s+(.*)$| else pattern = %r|^#{command_name}$| end end command_names << ":#{options[:as]}" if options[:as] commands.delete_if { |_| _[:pattern] == pattern } commands << {:pattern => pattern, :block => block} else commands.detect {|c| c[:pattern] =~ pattern} end end def confirm(message, type = config[:confirm_type]) s = case type when :y ask(message.u.c(:notice), "[Yn] ") when :n ask(message.u.c(:notice), "[yN] ") else raise "type must be :y or :n" end s = type.to_s if s.empty? if m = s.match(/^[yn]$/i) return m[0].downcase == 'y' else confirm(message, type) end end def ask(message, prompt) puts message (Readline.readline(prompt) || "").chomp end def async_e(&block) async { handle_api_error(&block) } end def handle_api_error(&block) result = block.call if result["error"] error result["error"] end end end init do commands.clear command_names.clear completions.clear input_filters.clear Readline.basic_word_break_characters = " \t\n\"\\'`$><=;|&{(@" Readline.completion_proc = lambda do |text| completions.inject([]) do |results, completion| begin results | (completion.call(text) || []) rescue Exception => e error e results end end end completion do |text| regexp = /^#{Regexp.quote(text)}/ if text.start_with?(?:) && Readline.line_buffer.strip == text (command_names + command_aliases.keys).grep(regexp) else history = Readline::HISTORY.reverse_each.take(config[:history_size]) | @tweets_for_completion history.inject([]){ |r, line| r | line.split.grep(regexp) } end end @tweets_for_completion ||= [] output do |item| next unless item["text"] @tweets_for_completion << [item["user"]["screen_name"], item["text"]].join(" ") @tweets_for_completion.shift if @tweets_for_completion.size > config[:history_size] end input_filter do |text| if text =~ %r|^(:\w+)| if target = command_aliases[$1] text = text.sub(%r|^:\w+|, target) end text = text.gsub(/\$\w+/) { |var| var2id(var) || var } end text end end extend Input end
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