input stringlengths 140 705 | output stringlengths 142 705 |
|---|---|
public void METHOD_1 ( ) { VAR_1 . METHOD_2 ( VAR_2 , VAR_3 , TYPE_1 . METHOD_3 ( FLOAT_1 ) ) ; boolean fail = false ; try { VAR_1 . METHOD_2 ( VAR_2 , VAR_3 , TYPE_1 . METHOD_3 ( FLOAT_2 ) ) ; } catch ( final TYPE_2 VAR_4 ) { fail = true ; } TYPE_3 . assertTrue ( fail ) ; } | public void METHOD_1 ( ) { VAR_1 . METHOD_2 ( VAR_3 , VAR_2 , TYPE_1 . METHOD_3 ( FLOAT_1 ) ) ; boolean fail = false ; try { VAR_1 . METHOD_2 ( VAR_3 , VAR_2 , TYPE_1 . METHOD_3 ( FLOAT_2 ) ) ; } catch ( final TYPE_2 VAR_4 ) { fail = true ; } TYPE_3 . assertTrue ( fail ) ; } |
public TYPE_1 list ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , int VAR_3 ) { VAR_4 . info ( VAR_3 ) ; TYPE_3 VAR_5 = ( ( TYPE_3 ) ( VAR_2 . METHOD_1 ( STRING_1 ) ) ) ; TYPE_4 < TYPE_5 > VAR_6 = VAR_7 . METHOD_2 ( VAR_5 . getId ( ) , INT_1 , VAR_3 ) ; VAR_1 . METHOD_3 ( STRING_2 ) ; VAR_1 . METHOD_4 ( STRING_3 , VAR_6 ) ; return VAR_1 ; } | public TYPE_1 list ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , int VAR_3 ) { TYPE_3 VAR_5 = ( ( TYPE_3 ) ( VAR_2 . METHOD_1 ( STRING_1 ) ) ) ; TYPE_4 < TYPE_5 > VAR_6 = VAR_7 . METHOD_2 ( VAR_5 . getId ( ) , INT_1 , VAR_3 ) ; VAR_1 . METHOD_3 ( STRING_2 ) ; VAR_1 . METHOD_4 ( STRING_3 , VAR_6 ) ; return VAR_1 ; } |
private static void METHOD_1 ( java.lang.String filename ) { try { java.io.BufferedReader VAR_1 = new java.io.BufferedReader ( new java.io.FileReader ( filename ) ) ; java.lang.String VAR_2 = VAR_1 . METHOD_2 ( ) ; for ( java.lang.String index : VAR_2 . split ( STRING_1 ) ) { VAR_3 . add ( java.lang.Integer.parseInt ( index ) ) ; } } catch ( java.lang.Exception VAR_4 ) { VAR_4 . METHOD_3 ( ) ; } } | private static void METHOD_1 ( java.lang.String filename ) { try { java.io.BufferedReader VAR_1 = new java.io.BufferedReader ( new java.io.FileReader ( filename ) ) ; java.lang.String VAR_2 = VAR_1 . METHOD_2 ( ) ; java.lang.Integer i = 0 ; for ( java.lang.String index : VAR_2 . split ( STRING_1 ) ) { VAR_3 . put ( java.lang.Integer.parseInt ( index ) , i ) ; i ++ ; } } catch ( java.lang.Exception VAR_4 ) { VAR_4 . METHOD_3 ( ) ; } } |
public void METHOD_1 ( int VAR_1 , int VAR_2 , java.lang.String title , java.lang.String VAR_3 ) { while ( ( VAR_4 . size ( ) ) < ( VAR_1 - 1 ) ) { VAR_4 . add ( new TYPE_1 ( ( ( VAR_4 . size ( ) ) + 1 ) ) ) ; } TYPE_1 VAR_5 = VAR_4 . get ( ( VAR_1 - 1 ) ) ; VAR_5 . METHOD_1 ( VAR_2 , title , VAR_3 ) ; } | public void METHOD_1 ( int VAR_1 , int VAR_2 , java.lang.String title , java.lang.String VAR_3 ) { while ( ( VAR_4 . size ( ) ) < VAR_1 ) { VAR_4 . add ( new TYPE_1 ( VAR_1 ) ) ; } TYPE_1 VAR_5 = VAR_4 . get ( ( VAR_1 - 1 ) ) ; VAR_5 . METHOD_1 ( VAR_2 , title , VAR_3 ) ; } |
public void METHOD_1 ( java.lang.String VAR_1 ) { if ( TYPE_1 . METHOD_2 ( VAR_1 ) ) { this . VAR_1 = VAR_1 ; TYPE_2 . METHOD_3 ( VAR_2 , VAR_1 ) ; VAR_3 . info ( STRING_1 , VAR_1 ) ; } if ( TYPE_1 . METHOD_4 ( this . VAR_4 ) ) { throw new TYPE_3 ( STRING_2 ) ; } } | public void METHOD_1 ( java.lang.String VAR_1 ) { if ( TYPE_1 . METHOD_2 ( VAR_1 ) ) { this . VAR_1 = VAR_1 ; TYPE_2 . METHOD_3 ( VAR_2 , VAR_1 ) ; VAR_3 . info ( STRING_1 , VAR_1 ) ; } if ( TYPE_1 . METHOD_4 ( this . VAR_1 ) ) { throw new TYPE_3 ( STRING_2 ) ; } } |
static TYPE_1 METHOD_1 ( TYPE_2 VAR_1 , TYPE_1 VAR_2 , TYPE_1 VAR_3 ) throws java.io.IOException { TYPE_1 VAR_4 = VAR_3 . METHOD_2 ( ) ; TYPE_1 VAR_5 = VAR_2 . METHOD_3 ( VAR_4 ) ; java.util.List < java.lang.String > VAR_6 = TYPE_3 . METHOD_4 ( ( ( VAR_5 . METHOD_5 ( ) ) + 1 ) ) ; VAR_6 . add ( VAR_7 ) ; for ( TYPE_1 VAR_8 : VAR_5 ) { VAR_6 . add ( VAR_8 . toString ( ) ) ; } return TYPE_4 . METHOD_6 ( VAR_1 , VAR_6 ) ; } | static TYPE_1 METHOD_1 ( TYPE_2 VAR_1 , TYPE_1 VAR_2 , TYPE_1 VAR_3 ) throws java.io.IOException { TYPE_1 VAR_4 = VAR_3 . METHOD_2 ( ) ; TYPE_1 VAR_5 = VAR_2 . METHOD_2 ( ) . METHOD_3 ( VAR_4 ) ; java.util.List < java.lang.String > VAR_6 = TYPE_3 . METHOD_4 ( ( ( VAR_5 . METHOD_5 ( ) ) + 1 ) ) ; VAR_6 . add ( VAR_7 ) ; for ( TYPE_1 VAR_8 : VAR_5 ) { VAR_6 . add ( VAR_8 . toString ( ) ) ; } return TYPE_4 . METHOD_6 ( VAR_1 , VAR_6 ) ; } |
public void METHOD_1 ( ) { VAR_1 = new TYPE_1 ( ) ; VAR_1 . METHOD_2 ( VAR_2 class ) ; VAR_1 . METHOD_3 ( new TYPE_2 ( ) ) ; VAR_1 . METHOD_3 ( new TYPE_3 ( ) ) ; VAR_1 . METHOD_3 ( new TYPE_4 ( ) ) ; VAR_1 . METHOD_3 ( new TYPE_5 ( VAR_1 ) ) ; VAR_1 . METHOD_4 ( VAR_3 class ) ; } | public void METHOD_1 ( ) { VAR_1 = new TYPE_1 ( ) ; VAR_1 . METHOD_2 ( VAR_2 class ) ; VAR_1 . METHOD_3 ( new TYPE_2 ( ) ) ; VAR_1 . METHOD_3 ( new TYPE_3 ( ) ) ; VAR_1 . METHOD_3 ( new TYPE_4 ( ) ) ; VAR_1 . METHOD_3 ( new TYPE_5 ( ) ) ; VAR_1 . METHOD_4 ( VAR_3 class ) ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 response ) { TYPE_3 . METHOD_2 ( STRING_1 , VAR_1 . toString ( ) ) ; TYPE_4 VAR_2 = null ; try { VAR_2 = new TYPE_4 ( VAR_1 . getString ( "name" ) , VAR_1 . getString ( "id" ) , VAR_1 . getString ( STRING_2 ) ) ; } catch ( TYPE_5 VAR_3 ) { VAR_3 . METHOD_3 ( ) ; } VAR_4 = VAR_2 ; } | public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 response ) { TYPE_3 . METHOD_2 ( STRING_1 , VAR_1 . toString ( ) ) ; TYPE_4 VAR_2 = null ; try { VAR_2 = new TYPE_4 ( VAR_1 . getString ( "name" ) , VAR_1 . getString ( "id" ) ) ; } catch ( TYPE_5 VAR_3 ) { VAR_3 . METHOD_3 ( ) ; } VAR_4 = VAR_2 ; } |
public void METHOD_1 ( ) { this . VAR_1 . METHOD_2 ( VAR_2 ) ; TYPE_1 c = VAR_1 . get ( 0 ) ; if ( c instanceof TYPE_2 ) { this . VAR_3 = true ; } METHOD_3 ( ) ; this . VAR_2 . METHOD_4 ( ) ; } | public boolean METHOD_1 ( ) { if ( ( this . VAR_2 . size ( ) ) == 0 ) return false ; this . VAR_1 . METHOD_2 ( VAR_2 ) ; TYPE_1 c = VAR_1 . get ( 0 ) ; if ( c instanceof TYPE_2 ) { this . VAR_3 = true ; } METHOD_3 ( ) ; this . VAR_2 . METHOD_4 ( ) ; return true ; } |
public java.lang.String METHOD_1 ( ) { if ( VAR_1 ) { return VAR_2 . toString ( ) ; } else { java.lang.String VAR_3 = STRING_1 ; for ( TYPE_1 < ? > VAR_4 : VAR_5 ) { VAR_3 . METHOD_2 ( VAR_4 . toString ( ) ) ; } return VAR_3 ; } } | public java.lang.String METHOD_1 ( ) { if ( VAR_1 ) { return VAR_2 . toString ( ) ; } else { java.lang.String VAR_3 = STRING_1 ; for ( TYPE_1 < ? > VAR_4 : VAR_5 ) { VAR_3 = VAR_3 . METHOD_2 ( VAR_4 . toString ( ) ) ; } return VAR_3 ; } } |
public java.util.List < TYPE_1 > METHOD_1 ( TYPE_2 VAR_1 ) { TYPE_3 VAR_2 = null ; try { VAR_2 = VAR_1 . METHOD_2 ( VAR_3 . METHOD_3 ( ) ) ; return METHOD_4 ( VAR_2 , VAR_1 ) ; } catch ( TYPE_4 VAR_4 ) { METHOD_5 ( VAR_4 ) ; throw new TYPE_5 ( VAR_5 , VAR_4 ) ; } finally { METHOD_6 ( VAR_2 ) ; } } | public java.util.List < TYPE_1 > METHOD_1 ( TYPE_2 VAR_1 ) { try ( TYPE_3 VAR_2 = VAR_1 . METHOD_2 ( VAR_3 . METHOD_3 ( ) ) ) { return METHOD_4 ( VAR_2 , VAR_1 ) ; } catch ( TYPE_4 VAR_4 ) { METHOD_5 ( VAR_4 ) ; throw new TYPE_5 ( VAR_5 , VAR_4 ) ; } } |
private boolean METHOD_1 ( ) { TYPE_1 VAR_1 ; VAR_1 = VAR_2 ; if ( METHOD_2 ( ) ) { VAR_2 = VAR_1 ; if ( METHOD_3 ( ) ) { VAR_2 = VAR_1 ; if ( METHOD_4 ( ) ) { return true ; } } } return false ; } | private boolean METHOD_1 ( ) { TYPE_1 VAR_1 ; VAR_1 = VAR_2 ; if ( METHOD_2 ( ) ) { VAR_2 = VAR_1 ; if ( METHOD_3 ( ) ) { VAR_2 = VAR_1 ; if ( METHOD_4 ( ) ) return true ; } } return false ; } |
public int METHOD_1 ( int p ) { position = p ; java.lang.System.out.println ( STRING_1 ) ; java.lang.System.out.println ( STRING_2 ) ; java.lang.System.out.println ( STRING_3 ) ; VAR_1 = VAR_2 . METHOD_2 ( ) ; switch ( VAR_1 ) { case 1 : java.lang.System.out.println ( STRING_4 ) ; position += VAR_3 ; break ; case INT_1 : java.lang.System.out.println ( STRING_5 ) ; position -= INT_2 ; break ; default : java.lang.System.out.println ( STRING_6 ) ; position = 0 ; break ; } VAR_2 . METHOD_3 ( ) ; return position ; } | public int METHOD_1 ( int p ) { position = p ; java.lang.System.out.println ( STRING_1 ) ; java.lang.System.out.println ( STRING_2 ) ; java.lang.System.out.println ( STRING_3 ) ; VAR_1 = VAR_2 . METHOD_2 ( ) ; switch ( VAR_1 ) { case 1 : java.lang.System.out.println ( STRING_4 ) ; position += VAR_3 ; break ; case INT_1 : java.lang.System.out.println ( STRING_5 ) ; position -= INT_2 ; break ; default : java.lang.System.out.println ( STRING_6 ) ; position = - 1 ; break ; } return position ; } |
public boolean METHOD_1 ( ) { if ( ( ( VAR_1 ) && ( ( VAR_2 ) == INT_1 ) ) || ( ( ! ( VAR_1 ) ) && ( ( VAR_2 ) == INT_2 ) ) ) return false ; if ( ! ( VAR_1 ) ) { if ( ! ( VAR_3 ) ) { VAR_3 = true ; return true ; } else VAR_3 = false ; } ( VAR_2 ) ++ ; return true ; } | public boolean METHOD_1 ( ) { if ( ( ( VAR_1 ) && ( ( VAR_2 ) == INT_1 ) ) || ( ( ! ( VAR_1 ) ) && ( ( VAR_2 ) == INT_2 ) ) ) return false ; ( VAR_2 ) ++ ; return true ; } |
private void METHOD_1 ( final TYPE_1 VAR_1 , final TYPE_2 VAR_2 ) { final TYPE_3 VAR_3 = VAR_1 . METHOD_2 ( false ) ; if ( VAR_3 != null ) { VAR_3 . METHOD_3 ( VAR_4 , VAR_2 ) ; VAR_5 . put ( VAR_2 . METHOD_4 ( ) , new TYPE_4 < TYPE_3 > ( VAR_3 ) ) ; } } | private void METHOD_1 ( final TYPE_1 VAR_1 , final TYPE_2 VAR_2 ) { final TYPE_3 VAR_3 = VAR_1 . METHOD_2 ( true ) ; if ( VAR_3 != null ) { VAR_3 . METHOD_3 ( VAR_4 , VAR_2 ) ; VAR_5 . put ( VAR_2 . METHOD_4 ( ) , new TYPE_4 < TYPE_3 > ( VAR_3 ) ) ; } } |
public boolean execute ( java.lang.String VAR_1 , TYPE_1 args , TYPE_2 VAR_2 ) throws TYPE_3 { if ( VAR_1 . equals ( STRING_1 ) ) { METHOD_1 ( ) ; } if ( VAR_1 . equals ( STRING_2 ) ) { METHOD_2 ( ) ; VAR_2 . METHOD_3 ( STRING_3 ) ; return true ; } else if ( VAR_1 . equals ( STRING_4 ) ) { METHOD_4 ( ) ; VAR_2 . METHOD_3 ( STRING_5 ) ; return true ; } VAR_2 . error ( STRING_6 ) ; return false ; } | public boolean execute ( java.lang.String VAR_1 , TYPE_1 args , TYPE_2 VAR_2 ) throws TYPE_3 { if ( VAR_1 . equals ( STRING_2 ) ) { METHOD_2 ( VAR_2 ) ; return true ; } else if ( VAR_1 . equals ( STRING_4 ) ) { METHOD_4 ( ) ; VAR_2 . METHOD_3 ( STRING_5 ) ; return true ; } VAR_2 . error ( STRING_6 ) ; return false ; } |
public TYPE_1 METHOD_1 ( int VAR_1 , int VAR_2 ) { TYPE_2 VAR_3 = VAR_4 [ VAR_2 ] [ VAR_1 ] ; float VAR_5 = ( VAR_6 ) / INT_1 ; return new TYPE_1 ( ( ( VAR_3 . x ) - VAR_5 ) , ( ( VAR_3 . y ) - VAR_5 ) , ( ( VAR_3 . x ) + VAR_5 ) , ( ( VAR_3 . y ) + VAR_5 ) ) ; } | public TYPE_1 METHOD_1 ( int VAR_1 , int VAR_2 ) { TYPE_2 VAR_3 = VAR_4 [ VAR_2 ] [ VAR_1 ] ; float VAR_5 = ( VAR_6 ) / INT_1 ; return new TYPE_1 ( ( ( VAR_3 . x ) - VAR_5 ) , ( ( VAR_3 . y ) - VAR_5 ) , VAR_6 , VAR_6 ) ; } |
public void METHOD_1 ( ) { super . METHOD_1 ( ) ; METHOD_2 ( ) ; METHOD_3 ( ) ; VAR_1 . setText ( VAR_2 . METHOD_4 ( ) ) ; VAR_3 . setText ( VAR_2 . METHOD_5 ( ) . METHOD_6 ( ) ) ; METHOD_7 ( ) ; } | public void METHOD_1 ( ) { METHOD_2 ( ) ; METHOD_3 ( ) ; VAR_1 . setText ( VAR_2 . METHOD_4 ( ) ) ; VAR_3 . setText ( VAR_2 . METHOD_5 ( ) . METHOD_6 ( ) ) ; METHOD_7 ( ) ; super . METHOD_1 ( ) ; } |
public boolean METHOD_1 ( java.lang.String query ) { boolean result = false ; if ( ( query != null ) && ( METHOD_2 ( ) ) ) { try { VAR_1 = STRING_1 ; VAR_2 = STRING_2 ; VAR_3 . METHOD_3 ( query ) ; result = true ; } catch ( TYPE_1 VAR_4 ) { java.lang.System.out.println ( VAR_4 ) ; result = false ; } } return result ; } | public boolean METHOD_1 ( java.lang.String query ) { boolean result = false ; if ( ( query != null ) && ( METHOD_2 ( ) ) ) { try { VAR_3 . METHOD_3 ( query ) ; result = true ; } catch ( TYPE_1 VAR_4 ) { java.lang.System.out.println ( VAR_4 ) ; result = false ; } } return result ; } |
public void METHOD_1 ( ) { for ( int i = 0 ; i < INT_1 ; i ++ ) { if ( ( VAR_1 ) == 1 ) { VAR_2 . METHOD_2 ( VAR_3 , VAR_4 ) ; } else { byte [ ] data = new byte [ ] { VAR_5 , VAR_6 , VAR_7 , VAR_8 } ; VAR_2 . METHOD_3 ( data ) ; } } } | public void METHOD_1 ( ) { if ( ( VAR_2 ) != null ) { for ( int i = 0 ; i < INT_1 ; i ++ ) { if ( ( VAR_1 ) == 1 ) { VAR_2 . METHOD_2 ( VAR_3 , VAR_4 ) ; } else { byte [ ] data = new byte [ ] { VAR_5 , VAR_6 , VAR_7 , VAR_8 } ; VAR_2 . METHOD_3 ( data ) ; } } } } |
private void METHOD_1 ( ) { TYPE_1 . METHOD_2 ( VAR_1 ) ; for ( int i = 0 ; i < INT_1 ; i ++ ) { VAR_1 [ i ] = TYPE_2 . METHOD_3 ( ) ; ( VAR_2 ) ++ ; } while ( ! ( VAR_3 ) ) { METHOD_4 ( ) ; } VAR_4 = VAR_5 ; } | private void METHOD_1 ( ) { TYPE_1 . METHOD_2 ( VAR_1 ) ; VAR_2 = 0 ; for ( int i = 0 ; i < INT_1 ; i ++ ) { VAR_1 [ i ] = TYPE_2 . METHOD_3 ( ) ; ( VAR_2 ) ++ ; } while ( ! ( VAR_3 ) ) { METHOD_4 ( ) ; } VAR_4 = VAR_5 ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , int VAR_2 , int VAR_3 ) { super . METHOD_1 ( VAR_1 , VAR_2 , VAR_3 ) ; if ( VAR_3 > 0 ) { VAR_4 = VAR_5 ; TYPE_2 . i ( STRING_1 , STRING_2 ) ; TYPE_2 . i ( STRING_1 , ( STRING_3 + VAR_3 ) ) ; } else { VAR_4 = VAR_6 ; TYPE_2 . i ( STRING_1 , STRING_4 ) ; TYPE_2 . i ( STRING_1 , ( STRING_3 + VAR_3 ) ) ; } } | public void METHOD_1 ( TYPE_1 VAR_1 , int VAR_2 , int VAR_3 ) { super . METHOD_1 ( VAR_1 , VAR_2 , VAR_3 ) ; if ( VAR_3 > 0 ) { VAR_4 = VAR_6 ; TYPE_2 . i ( STRING_1 , STRING_4 ) ; TYPE_2 . i ( STRING_1 , ( STRING_3 + VAR_3 ) ) ; } else { VAR_4 = VAR_5 ; TYPE_2 . i ( STRING_1 , STRING_2 ) ; TYPE_2 . i ( STRING_1 , ( STRING_3 + VAR_3 ) ) ; } } |
public java.util.List < TYPE_1 > METHOD_1 ( java.lang.String VAR_1 ) throws TYPE_2 { TYPE_3 info = this . VAR_2 . METHOD_2 ( VAR_1 ) ; java.util.List < TYPE_1 > VAR_3 = new java.util.ArrayList < > ( ) ; int id = 0 ; for ( TYPE_4 VAR_4 : info . METHOD_3 ( ) . METHOD_4 ( ) ) { TYPE_1 item = new TYPE_1 ( ( id ++ ) , VAR_4 ) ; VAR_3 . add ( item ) ; } return VAR_3 ; } | public java.util.List < TYPE_1 > METHOD_1 ( java.lang.String VAR_1 ) throws TYPE_2 { TYPE_3 info = this . VAR_2 . METHOD_2 ( VAR_1 ) ; java.util.List < TYPE_1 > VAR_3 = new java.util.ArrayList < > ( ) ; int id = 0 ; if ( ( info . METHOD_3 ( ) ) != null ) { for ( TYPE_4 VAR_4 : info . METHOD_3 ( ) . METHOD_4 ( ) ) { TYPE_1 item = new TYPE_1 ( ( id ++ ) , VAR_4 ) ; VAR_3 . add ( item ) ; } } return VAR_3 ; } |
protected void METHOD_1 ( java.lang.CharSequence VAR_1 , TYPE_1 VAR_2 ) { if ( ( VAR_2 . count ) > 0 ) { METHOD_2 ( ) ; METHOD_3 ( ( ( java.util.List < TYPE_2 > ) ( VAR_2 . values ) ) ) ; METHOD_4 ( ) ; } else { METHOD_5 ( ) ; } } | protected void METHOD_1 ( java.lang.CharSequence VAR_1 , TYPE_1 VAR_2 ) { if ( ( VAR_2 . count ) > 0 ) { METHOD_2 ( ) ; METHOD_3 ( ( ( java.util.List < TYPE_2 > ) ( VAR_2 . values ) ) ) ; METHOD_4 ( ) ; } else { METHOD_2 ( ) ; METHOD_5 ( ) ; } } |
public void METHOD_1 ( ) { try { java.util.Set < TYPE_1 > output ; output = VAR_1 . METHOD_2 ( VAR_2 . METHOD_3 ( ) ) ; METHOD_4 ( output ) ; } catch ( TYPE_2 VAR_3 ) { VAR_4 . error ( STRING_1 , VAR_3 ) ; VAR_5 . METHOD_5 ( ) ; VAR_3 . METHOD_6 ( ) ; TYPE_3 . show ( VAR_3 ) ; } } | public void METHOD_1 ( ) { try { java.util.Set < TYPE_1 > output ; output = VAR_1 . METHOD_2 ( VAR_2 . METHOD_3 ( ) ) ; METHOD_4 ( output ) ; } catch ( TYPE_2 VAR_3 ) { VAR_4 . error ( STRING_1 , VAR_3 ) ; VAR_5 . METHOD_5 ( VAR_3 ) ; VAR_3 . METHOD_6 ( ) ; TYPE_3 . show ( VAR_3 ) ; } } |
private boolean METHOD_1 ( java.lang.Class [ ] VAR_1 , TYPE_1 [ ] VAR_2 ) { int i = 0 ; for ( java.lang.Class VAR_3 : VAR_1 ) { try { if ( ! ( TYPE_2 . METHOD_2 ( VAR_3 ) . equals ( VAR_2 [ ( i ++ ) ] ) ) ) { return false ; } } catch ( TYPE_3 VAR_4 ) { throw new TYPE_4 ( VAR_4 ) ; } } return true ; } | private boolean METHOD_1 ( java.lang.Class [ ] VAR_1 , TYPE_1 [ ] VAR_2 ) { int i = 0 ; if ( ( VAR_1 . length ) != ( VAR_2 . length ) ) { return false ; } for ( java.lang.Class VAR_3 : VAR_1 ) { try { if ( ! ( TYPE_2 . METHOD_2 ( VAR_3 ) . equals ( VAR_2 [ ( i ++ ) ] ) ) ) { return false ; } } catch ( TYPE_3 VAR_4 ) { throw new TYPE_4 ( VAR_4 ) ; } } return true ; } |
public boolean METHOD_1 ( TYPE_1 item ) { switch ( item . METHOD_2 ( ) ) { case VAR_1 : { break ; } case VAR_2 : { break ; } case VAR_3 : { break ; } case VAR_4 : { android.content.Intent i = new android.content.Intent ( this , VAR_5 class ) ; METHOD_3 ( i ) ; break ; } } return false ; } | public boolean METHOD_1 ( TYPE_1 item ) { switch ( item . METHOD_2 ( ) ) { case VAR_1 : { break ; } case VAR_2 : { android.content.Intent i = new android.content.Intent ( this , VAR_5 class ) ; METHOD_3 ( i ) ; break ; } case VAR_3 : { break ; } case VAR_4 : { android.content.Intent i = new android.content.Intent ( this , VAR_5 class ) ; METHOD_3 ( i ) ; break ; } } return false ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , TYPE_3 listener ) throws java.io.IOException , TYPE_4 { TYPE_5 VAR_3 = VAR_1 . METHOD_2 ( VAR_4 class ) ; if ( VAR_3 != null ) { for ( TYPE_6 p : VAR_3 . METHOD_3 ( ) ) { VAR_2 . put ( p . getName ( ) , java.lang.String . METHOD_4 ( p . getValue ( ) ) ) ; } } } | public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , TYPE_3 listener ) throws java.io.IOException , TYPE_4 { TYPE_5 VAR_3 = VAR_1 . METHOD_2 ( VAR_4 class ) ; if ( VAR_3 != null ) { for ( TYPE_6 p : VAR_3 . METHOD_3 ( ) ) { VAR_2 . put ( p . getName ( ) , java.lang.String . METHOD_4 ( p . getValue ( ) ) ) ; } } super . METHOD_1 ( VAR_1 , VAR_2 , listener ) ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , java.util.List < TYPE_1 > VAR_2 ) { int VAR_3 = this . METHOD_2 ( VAR_1 , VAR_2 , ( - 1 ) ) ; for ( int i = ( VAR_2 . size ( ) ) - 1 ; i >= 0 ; i -- ) { this . remove ( ( ( VAR_3 + i ) + 1 ) ) ; } } | public void METHOD_1 ( TYPE_1 VAR_1 , java.util.List < TYPE_1 > VAR_2 ) { int VAR_3 = this . METHOD_2 ( VAR_1 , VAR_2 . size ( ) , VAR_2 , ( - 1 ) ) ; for ( int i = ( VAR_2 . size ( ) ) - 1 ; i >= 0 ; i -- ) { this . remove ( ( ( VAR_3 + i ) + 1 ) ) ; } } |
public java.util.List < TYPE_1 > execute ( ) { VAR_1 . METHOD_1 ( ) ; VAR_1 . METHOD_2 ( data ) ; java.util.List < TYPE_1 > result = new java.util.ArrayList < > ( ) ; result . add ( new TYPE_1 ( VAR_2 , VAR_1 . METHOD_3 ( VAR_3 ) ) ) ; return result ; } | public java.util.List < TYPE_1 > execute ( ) { VAR_1 . METHOD_1 ( ) ; if ( ( VAR_1 . METHOD_3 ( VAR_3 ) ) == null ) { VAR_1 . METHOD_2 ( data ) ; } java.util.List < TYPE_1 > result = new java.util.ArrayList < > ( ) ; result . add ( new TYPE_1 ( VAR_2 , VAR_1 . METHOD_3 ( VAR_3 ) ) ) ; return result ; } |
public void METHOD_1 ( int [ ] VAR_1 , int [ ] VAR_2 , double VAR_3 ) { double VAR_4 = METHOD_2 ( VAR_1 , VAR_2 ) ; if ( ( VAR_4 - VAR_3 ) >= FLOAT_1 ) { java.lang.System.out.print ( TYPE_1 . toString ( VAR_1 ) ) ; java.lang.System.out.println ( TYPE_1 . toString ( VAR_2 ) ) ; java.lang.System.out.println ( ( ( ( STRING_1 + VAR_4 ) + STRING_2 ) + VAR_3 ) ) ; } } | public void METHOD_1 ( int [ ] VAR_1 , int [ ] VAR_2 , double VAR_3 ) { double VAR_4 = METHOD_2 ( VAR_1 , VAR_2 ) ; if ( ( ( VAR_4 - VAR_3 ) >= FLOAT_1 ) || ( ( VAR_4 - VAR_3 ) >= FLOAT_1 ) ) { java.lang.System.out.print ( TYPE_1 . toString ( VAR_1 ) ) ; java.lang.System.out.println ( TYPE_1 . toString ( VAR_2 ) ) ; java.lang.System.out.println ( ( ( ( STRING_1 + VAR_4 ) + STRING_2 ) + VAR_3 ) ) ; } } |
protected < TYPE_1 extends TYPE_2 > void METHOD_1 ( TYPE_3 < TYPE_1 > VAR_1 , TYPE_4 < ? super TYPE_1 > VAR_2 ) { if ( ( ( VAR_3 ) != null ) && ( ( VAR_4 ) != null ) ) { VAR_1 . METHOD_2 ( VAR_2 , VAR_3 , VAR_4 ) ; } else { VAR_1 . METHOD_2 ( VAR_2 ) ; } } | protected final < TYPE_1 extends TYPE_2 > void METHOD_1 ( TYPE_3 < TYPE_1 > VAR_1 , TYPE_4 < ? super TYPE_1 > VAR_2 ) { if ( ( ( VAR_3 ) != null ) && ( ( VAR_4 ) != null ) ) { VAR_1 . METHOD_2 ( VAR_2 , VAR_3 , VAR_4 ) ; } else { VAR_1 . METHOD_2 ( VAR_2 ) ; } } |
private static java.lang.String METHOD_1 ( java.util.Collection < TYPE_1 > VAR_1 , java.util.Collection < TYPE_1 > VAR_2 ) { java.lang.String title ; java.lang.String VAR_3 = TYPE_2 . METHOD_2 ( STRING_1 , VAR_2 . size ( ) ) ; if ( VAR_1 . isEmpty ( ) ) { title = STRING_2 + VAR_3 ; } else if ( VAR_2 . isEmpty ( ) ) { title = ( STRING_3 + VAR_3 ) + STRING_4 ; } else { title = STRING_5 ; } return title ; } | private static java.lang.String METHOD_1 ( java.util.Collection < TYPE_1 > VAR_1 , java.util.Collection < TYPE_1 > VAR_2 ) { java.lang.String title ; if ( VAR_1 . isEmpty ( ) ) { title = STRING_2 + ( TYPE_2 . METHOD_2 ( STRING_1 , VAR_2 . size ( ) ) ) ; } else if ( VAR_2 . isEmpty ( ) ) { title = ( STRING_3 + ( TYPE_2 . METHOD_2 ( STRING_1 , VAR_1 . size ( ) ) ) ) + STRING_4 ; } else { title = STRING_5 ; } return title ; } |
public boolean equals ( java.lang.Object VAR_1 ) { if ( VAR_1 == null ) throw new TYPE_1 ( STRING_1 ) ; if ( ( this ) == VAR_1 ) return true ; if ( ! ( VAR_1 instanceof TYPE_2 ) ) return false ; if ( ( compareTo ( VAR_1 ) ) == 0 ) return true ; return false ; } | public boolean equals ( java.lang.Object VAR_1 ) { if ( VAR_1 . equals ( null ) ) throw new java.lang.NullPointerException ( STRING_1 ) ; if ( ( this ) == VAR_1 ) return true ; if ( ! ( VAR_1 instanceof TYPE_2 ) ) return false ; if ( ( compareTo ( VAR_1 ) ) == 0 ) return true ; return false ; } |
public void METHOD_1 ( ) { TYPE_1 VAR_1 = new TYPE_1 ( STRING_1 ) ; VAR_1 . METHOD_2 ( TYPE_2 . METHOD_3 ( STRING_2 ) ) ; java.lang.String VAR_2 = VAR_1 . format ( java.util.Calendar.getInstance ( TYPE_2 . METHOD_3 ( STRING_2 ) ) . getTime ( ) ) ; java.lang.String VAR_3 = TYPE_3 . METHOD_4 ( ) ; TYPE_4 . assertEquals ( VAR_2 , VAR_3 ) ; } | public void METHOD_1 ( ) { TYPE_1 VAR_1 = new TYPE_1 ( STRING_1 ) ; VAR_1 . METHOD_2 ( TYPE_2 . METHOD_3 ( STRING_2 ) ) ; java.util.Calendar time = java.util.Calendar.getInstance ( TYPE_2 . METHOD_3 ( STRING_2 ) ) ; java.lang.String VAR_2 = VAR_1 . format ( time . getTime ( ) ) ; java.lang.String VAR_3 = TYPE_3 . METHOD_4 ( time ) ; TYPE_4 . assertEquals ( VAR_2 , VAR_3 ) ; } |
public void METHOD_1 ( TYPE_1 < TYPE_2 > VAR_1 ) { TYPE_3 . METHOD_2 ( VAR_2 , ( STRING_1 + ( VAR_1 . METHOD_3 ( ) ) ) ) ; METHOD_4 ( ) ; if ( ! ( VAR_1 . METHOD_3 ( ) ) ) { TYPE_4 . METHOD_5 ( this , VAR_3 , VAR_4 ) . show ( ) ; } METHOD_6 ( ) ; } | public void METHOD_1 ( TYPE_1 < TYPE_2 > VAR_1 ) { TYPE_3 . METHOD_2 ( VAR_2 , ( STRING_1 + ( VAR_1 . METHOD_3 ( ) ) ) ) ; if ( VAR_1 . METHOD_3 ( ) ) { METHOD_4 ( ) ; } else { TYPE_4 . METHOD_5 ( this , VAR_3 , VAR_4 ) . show ( ) ; } METHOD_6 ( ) ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , TYPE_3 target , TYPE_4 VAR_3 ) throws java.io.IOException , TYPE_5 { java.lang.System.out.println ( STRING_1 ) ; if ( ! ( VAR_3 instanceof TYPE_6 ) ) { throw new TYPE_5 ( ( STRING_2 + ( VAR_3 . getClass ( ) ) ) ) ; } METHOD_1 ( VAR_1 , VAR_2 , target . METHOD_2 ( ) , VAR_3 ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , TYPE_3 target , TYPE_4 VAR_3 ) throws java.io.IOException , TYPE_5 { if ( ! ( VAR_3 instanceof TYPE_6 ) ) { throw new TYPE_5 ( ( STRING_2 + ( VAR_3 . getClass ( ) ) ) ) ; } METHOD_1 ( VAR_1 , VAR_2 , target . METHOD_2 ( ) , VAR_3 ) ; } |
public TYPE_1 handle ( TYPE_2 VAR_1 ) { TYPE_3 VAR_2 = TYPE_3 . METHOD_1 ( ) ; VAR_2 . METHOD_2 ( VAR_3 , false ) ; try { return VAR_2 . METHOD_3 ( VAR_1 . METHOD_4 ( ) . METHOD_5 ( ) , VAR_4 ) ; } catch ( TYPE_4 VAR_5 ) { throw new TYPE_5 ( STRING_1 , VAR_5 ) ; } catch ( java.io.IOException VAR_5 ) { throw new TYPE_6 ( STRING_2 , VAR_5 ) ; } } | public TYPE_1 handle ( TYPE_2 VAR_1 ) { TYPE_3 VAR_2 = TYPE_3 . METHOD_1 ( ) ; try { return VAR_2 . METHOD_3 ( VAR_1 . METHOD_4 ( ) . METHOD_5 ( ) , VAR_4 ) ; } catch ( TYPE_4 VAR_5 ) { throw new TYPE_5 ( STRING_1 , VAR_5 ) ; } catch ( java.io.IOException VAR_5 ) { throw new TYPE_6 ( STRING_2 , VAR_5 ) ; } } |
public static void METHOD_1 ( TYPE_1 VAR_1 ) { for ( int i = 0 ; i < ( VAR_1 . METHOD_2 ( ) ) ; i ++ ) { for ( int j = 0 ; j < ( VAR_1 . METHOD_3 ( ) ) ; j ++ ) { if ( VAR_1 . METHOD_4 ( j , i ) . equals ( STRING_1 ) ) { VAR_1 . METHOD_5 ( STRING_2 , j , i ) ; } } } } | public static void METHOD_1 ( TYPE_1 VAR_1 ) { for ( int i = 0 ; i < ( VAR_1 . METHOD_2 ( ) ) ; i ++ ) { for ( int j = 0 ; j < ( VAR_1 . METHOD_3 ( ) ) ; j ++ ) { if ( ( VAR_1 . METHOD_4 ( j , i ) ) != null ) { if ( VAR_1 . METHOD_4 ( j , i ) . equals ( STRING_1 ) ) { VAR_1 . METHOD_5 ( STRING_2 , j , i ) ; } } } } } |
private byte [ ] METHOD_1 ( TYPE_1 buffer ) { buffer . METHOD_2 ( ) ; byte [ ] data = new byte [ ( buffer . METHOD_3 ( ) ) - ( buffer . position ( ) ) ] ; for ( int i = 0 ; i < ( data . length ) ; i ++ ) { data [ i ] = buffer . get ( i ) ; } return data ; } | private byte [ ] METHOD_1 ( TYPE_1 buffer ) { byte [ ] data = new byte [ ( buffer . METHOD_3 ( ) ) - ( buffer . position ( ) ) ] ; for ( int i = 0 ; i < ( data . length ) ; i ++ ) { data [ i ] = buffer . get ( ) ; } return data ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , int VAR_2 , int VAR_3 ) { try { VAR_1 . METHOD_2 ( ( ( ( ( STRING_1 + ( VAR_4 ) ) + STRING_2 ) + ( VAR_5 ) ) + STRING_3 ) ) ; METHOD_3 ( VAR_1 ) ; } catch ( java.lang.Exception VAR_6 ) { VAR_6 . METHOD_4 ( ) ; } } | public void METHOD_1 ( TYPE_1 VAR_1 , int VAR_2 , int VAR_3 ) { try { VAR_1 . METHOD_2 ( ( ( ( ( STRING_1 + ( VAR_4 ) ) + STRING_2 ) + ( VAR_5 ) ) + STRING_3 ) ) ; } catch ( java.lang.Exception VAR_6 ) { METHOD_3 ( VAR_1 ) ; VAR_6 . METHOD_4 ( ) ; } } |
public static void METHOD_1 ( android.view.View view ) { VAR_1 = ( ( TYPE_1 ) ( view . METHOD_2 ( VAR_2 ) ) ) ; VAR_1 . METHOD_3 ( VAR_3 ) ; VAR_1 = ( ( TYPE_1 ) ( view . METHOD_2 ( VAR_4 ) ) ) ; VAR_1 . METHOD_3 ( VAR_5 ) ; TYPE_2 n = ( ( TYPE_2 ) ( view . METHOD_2 ( VAR_6 ) ) ) ; n . METHOD_4 ( true ) ; } | public static void METHOD_1 ( android.view.View view ) { VAR_1 = ( ( TYPE_1 ) ( view . METHOD_2 ( VAR_2 ) ) ) ; VAR_1 . METHOD_3 ( VAR_3 ) ; VAR_1 = ( ( TYPE_1 ) ( view . METHOD_2 ( VAR_4 ) ) ) ; VAR_1 . METHOD_3 ( VAR_5 ) ; } |
public TYPE_1 METHOD_1 ( ) { java.lang.String output = STRING_1 ; java.lang.String VAR_1 = STRING_2 ; TYPE_2 c = new TYPE_2 ( ) ; TYPE_3 VAR_2 = new TYPE_3 ( ) ; for ( java.lang.String VAR_3 : VAR_2 . METHOD_2 ( ) ) { if ( ( c . METHOD_3 ( VAR_3 ) ) < 0 ) return TYPE_1 . status ( INT_1 ) . METHOD_4 ( ( VAR_1 + VAR_3 ) ) . build ( ) ; } return TYPE_1 . status ( INT_1 ) . METHOD_4 ( output ) . build ( ) ; } | public TYPE_1 METHOD_1 ( ) { java.lang.String output = STRING_1 ; java.lang.String VAR_1 = STRING_2 ; TYPE_2 c = new TYPE_2 ( ) ; TYPE_3 VAR_2 = new TYPE_3 ( ) ; for ( java.lang.String VAR_3 : VAR_2 . METHOD_2 ( ) ) { if ( ( c . METHOD_3 ( VAR_3 ) ) < 0 ) java.lang.System.out.println ( TYPE_1 . status ( INT_1 ) . METHOD_4 ( ( VAR_1 + VAR_3 ) ) . build ( ) ) ; } return TYPE_1 . status ( INT_1 ) . METHOD_4 ( output ) . build ( ) ; } |
protected boolean METHOD_1 ( TYPE_1 VAR_1 ) { boolean VAR_2 ; TYPE_2 . METHOD_2 ( VAR_3 ) ; TYPE_3 < TYPE_1 > VAR_4 = TYPE_3 . METHOD_3 ( VAR_5 class ) . METHOD_4 ( VAR_6 class , VAR_1 . METHOD_5 ( ) ) . METHOD_6 ( ) ; VAR_2 = TYPE_4 . METHOD_7 ( VAR_4 , VAR_1 , VAR_7 ) ; TYPE_2 . METHOD_8 ( VAR_3 ) ; return VAR_2 ; } | protected boolean METHOD_1 ( TYPE_1 VAR_1 ) { boolean VAR_2 ; TYPE_2 . METHOD_2 ( VAR_3 ) ; TYPE_3 < TYPE_1 > VAR_4 = TYPE_3 . METHOD_3 ( VAR_5 class ) . METHOD_4 ( VAR_6 class , VAR_1 . METHOD_5 ( ) ) . build ( ) ; VAR_2 = TYPE_4 . METHOD_7 ( VAR_4 , VAR_1 , VAR_7 ) ; TYPE_2 . METHOD_8 ( VAR_3 ) ; return VAR_2 ; } |
public void update ( TYPE_1 VAR_1 ) { int VAR_2 = VAR_1 . METHOD_1 ( ) ; for ( int j = 0 ; j < VAR_2 ; j ++ ) { int VAR_3 = VAR_1 . METHOD_2 ( j ) ; int VAR_4 = VAR_5 . METHOD_3 ( VAR_3 ) ; TYPE_2 VAR_6 = VAR_5 . METHOD_4 ( VAR_4 ) ; int VAR_7 = VAR_5 . METHOD_5 ( VAR_3 ) ; VAR_6 . update ( VAR_7 , 1 ) ; } VAR_8 += 1 ; } | public void update ( TYPE_1 VAR_1 ) { int VAR_2 = VAR_1 . METHOD_1 ( ) ; for ( int j = 0 ; j < VAR_2 ; j ++ ) { int VAR_3 = VAR_1 . METHOD_2 ( j ) ; int VAR_4 = VAR_5 . METHOD_3 ( VAR_3 ) ; TYPE_2 VAR_6 = VAR_5 . METHOD_4 ( VAR_4 ) ; int VAR_7 = VAR_5 . METHOD_5 ( VAR_3 ) ; VAR_6 . update ( VAR_7 , ( ( VAR_8 ) + 1 ) ) ; } VAR_8 += 1 ; } |
public void METHOD_1 ( int VAR_1 , int VAR_2 ) { VAR_3 = ( VAR_4 [ ( -- VAR_1 ) ] [ VAR_2 ] ) ^ ( VAR_5 ) ; VAR_6 = ( VAR_4 [ ( -- VAR_1 ) ] [ ( VAR_2 ++ ) ] ) ^ ( VAR_7 ) ; } | public void METHOD_1 ( int VAR_1 , int VAR_2 ) { VAR_3 = ( VAR_4 [ ( -- VAR_1 ) ] [ VAR_2 ] ) ^ ( VAR_5 ) ; VAR_6 = ( VAR_4 [ ( -- VAR_1 ) ] [ ( ++ VAR_2 ) ] ) ^ ( VAR_7 ) ; } |
public void METHOD_1 ( ) { double [ ] values = new double [ ] { FLOAT_1 , FLOAT_2 , INT_1 , INT_2 , FLOAT_3 } ; TYPE_1 VAR_1 = new TYPE_1 ( ) ; VAR_1 . METHOD_2 ( values , INT_3 , INT_4 ) ; TYPE_2 . assertEquals ( FLOAT_4 , VAR_1 . getValue ( ) , 0 ) ; TYPE_2 . assertEquals ( INT_3 , VAR_1 . METHOD_3 ( ) , 0 ) ; } | public void METHOD_1 ( ) { double [ ] values = new double [ ] { FLOAT_1 , FLOAT_2 , INT_1 , INT_2 , FLOAT_3 } ; TYPE_1 VAR_1 = new TYPE_1 ( ) ; VAR_1 . METHOD_2 ( values , INT_3 , INT_3 ) ; TYPE_2 . assertEquals ( FLOAT_4 , VAR_1 . getValue ( ) , 0 ) ; TYPE_2 . assertEquals ( INT_3 , VAR_1 . METHOD_3 ( ) , 0 ) ; } |
private static void METHOD_1 ( java.lang.Throwable t , java.lang.String substring ) { java.lang.String msg = TYPE_1 . METHOD_2 ( t ) ; TYPE_2 . assertTrue ( ( ( ( STRING_1 + substring ) + STRING_2 ) + msg ) , msg . contains ( substring ) ) ; TYPE_3 . info ( STRING_3 , t ) ; } | private static void METHOD_1 ( java.lang.Throwable t , java.lang.String substring ) { java.lang.String msg = TYPE_1 . METHOD_2 ( t ) ; assertTrue ( ( ( ( STRING_1 + substring ) + STRING_2 ) + msg ) , msg . contains ( substring ) ) ; TYPE_3 . info ( STRING_3 , t ) ; } |
public void METHOD_1 ( ) { TYPE_1 VAR_1 = METHOD_2 ( STRING_1 ) ; METHOD_3 ( VAR_1 , 0 , 1 , 0 ) ; METHOD_4 ( VAR_1 , 0 , 1 , 0 ) ; TYPE_2 < TYPE_3 > VAR_2 = VAR_1 . METHOD_5 ( ) . METHOD_6 ( ) . METHOD_7 ( ) ; assertTrue ( VAR_2 . METHOD_8 ( ) ) ; assertEquals ( VAR_1 . METHOD_9 ( ) , VAR_2 . get ( ) . METHOD_10 ( ) ) ; } | public void METHOD_1 ( ) { TYPE_1 VAR_1 = METHOD_2 ( STRING_1 ) ; METHOD_3 ( VAR_1 , 0 , 1 , 0 ) ; METHOD_4 ( VAR_1 , 0 , 0 , 0 ) ; TYPE_2 < TYPE_3 > VAR_2 = VAR_1 . METHOD_5 ( ) . METHOD_6 ( ) . METHOD_7 ( ) ; assertTrue ( VAR_2 . METHOD_8 ( ) ) ; assertEquals ( VAR_1 . METHOD_9 ( ) , VAR_2 . get ( ) . METHOD_10 ( ) ) ; } |
public void METHOD_1 ( TYPE_1 VAR_1 ) { TYPE_2 . assertNotNull ( VAR_1 ) ; TYPE_2 . assertNotNull ( VAR_2 . METHOD_2 ( ) ) ; java.util.Map < java.lang.String , TYPE_3 > VAR_3 = TYPE_4 . METHOD_3 ( VAR_1 . data ) . data ; TYPE_2 . assertNotNull ( VAR_3 ) ; VAR_2 . METHOD_2 ( ) . METHOD_4 ( new TYPE_5 ( TYPE_6 . get ( ) , TYPE_7 . METHOD_5 ( VAR_3 ) ) ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 ) { TYPE_2 . assertNotNull ( VAR_2 . METHOD_2 ( ) ) ; java.util.Map < java.lang.String , TYPE_3 > VAR_3 = TYPE_4 . METHOD_3 ( VAR_1 . data ) . data ; TYPE_2 . assertNotNull ( VAR_3 ) ; VAR_2 . METHOD_2 ( ) . METHOD_4 ( new TYPE_5 ( TYPE_6 . get ( ) , TYPE_7 . METHOD_5 ( VAR_3 ) ) ) ; } |
public static void METHOD_1 ( java.util.Scanner VAR_1 ) { java.lang.System.out.println ( ( STRING_1 + STRING_2 ) ) ; java.lang.System.out.println ( STRING_3 ) ; java.lang.String string = VAR_1 . METHOD_2 ( ) ; java.lang.String VAR_2 = STRING_4 ; java.lang.String [ ] VAR_3 = string . split ( STRING_5 ) ; for ( java.lang.String VAR_4 : VAR_3 ) { if ( ( VAR_2 . length ( ) ) < ( VAR_4 . length ( ) ) ) { VAR_2 = VAR_4 ; } } java.lang.System.out.println ( ( STRING_6 + VAR_2 ) ) ; } | public static void METHOD_1 ( java.util.Scanner VAR_1 ) { java.lang.System.out.println ( ( STRING_1 + STRING_2 ) ) ; java.lang.System.out.println ( STRING_3 ) ; VAR_1 . METHOD_2 ( ) ; java.lang.String string = VAR_1 . METHOD_2 ( ) ; java.lang.String VAR_2 = STRING_4 ; java.lang.String [ ] VAR_3 = string . split ( STRING_5 ) ; for ( java.lang.String VAR_4 : VAR_3 ) { if ( ( VAR_2 . length ( ) ) < ( VAR_4 . length ( ) ) ) { VAR_2 = VAR_4 ; } } java.lang.System.out.println ( ( STRING_6 + VAR_2 ) ) ; } |
public void METHOD_1 ( ) { java.lang.String name = STRING_1 ; java.util.Date VAR_1 = new java.util.Date ( INT_1 ) ; java.util.Date VAR_2 = new java.util.Date ( INT_2 ) ; TYPE_1 VAR_3 = new TYPE_1 ( name , VAR_1 , VAR_2 ) ; VAR_3 . METHOD_2 ( true ) ; TYPE_2 VAR_4 = TYPE_2 . METHOD_3 ( ) ; VAR_4 . METHOD_4 ( VAR_3 ) ; VAR_4 . METHOD_5 ( 0 ) ; assertEquals ( STRING_2 , VAR_4 . METHOD_6 ( ) , 0 ) ; } | public void METHOD_1 ( ) { TYPE_2 VAR_4 = TYPE_2 . METHOD_3 ( ) ; java.lang.String name = STRING_1 ; java.util.Date VAR_1 = new java.util.Date ( INT_1 ) ; java.util.Date VAR_2 = new java.util.Date ( INT_2 ) ; TYPE_1 VAR_3 = new TYPE_1 ( name , VAR_1 , VAR_2 ) ; VAR_3 . METHOD_2 ( true ) ; VAR_4 . METHOD_5 ( 0 ) ; assertEquals ( STRING_2 , 0 , VAR_4 . METHOD_6 ( ) ) ; } |
public boolean METHOD_1 ( java.lang.String VAR_1 ) { if ( VAR_1 == null ) { this . errors . add ( STRING_1 ) ; return false ; } this . VAR_2 . put ( ( ( VAR_3 ) + STRING_2 ) , VAR_1 ) ; if ( ! ( VAR_1 . METHOD_2 ( VAR_4 ) ) ) { this . errors . add ( STRING_3 ) ; return false ; } return true ; } | public boolean METHOD_1 ( java.lang.String VAR_1 ) { if ( VAR_1 == null ) { this . errors . add ( STRING_1 ) ; return false ; } if ( ! ( VAR_1 . isEmpty ( ) ) ) { this . VAR_2 . put ( ( ( VAR_3 ) + STRING_2 ) , VAR_1 ) ; if ( ! ( VAR_1 . METHOD_2 ( VAR_4 ) ) ) { this . errors . add ( STRING_3 ) ; return false ; } } return true ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 ) { VAR_3 . METHOD_2 ( VAR_1 , VAR_2 ) ; for ( TYPE_2 VAR_4 : VAR_2 . METHOD_3 ( ) ) { if ( METHOD_4 ( VAR_4 ) ) { this . METHOD_5 ( VAR_4 ) ; } else if ( ( ! ( VAR_3 . METHOD_6 ( VAR_4 ) ) ) && ( VAR_3 . METHOD_7 ( VAR_4 ) ) ) { this . METHOD_8 ( VAR_4 ) ; } } VAR_5 . remove ( VAR_2 ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 ) { VAR_3 . METHOD_2 ( VAR_1 , VAR_2 ) ; for ( TYPE_2 VAR_4 : VAR_2 . METHOD_3 ( ) ) { if ( METHOD_4 ( VAR_4 ) ) { this . METHOD_5 ( VAR_4 ) ; } else if ( ! ( VAR_3 . METHOD_6 ( VAR_4 ) ) ) { this . METHOD_8 ( VAR_4 ) ; } } VAR_5 . remove ( VAR_2 ) ; } |
public void METHOD_1 ( ) { TYPE_1 . METHOD_2 ( STRING_1 , STRING_2 ) ; VAR_1 = new TYPE_2 ( context , VAR_2 , VAR_3 , VAR_4 , ( - 1 ) ) ; VAR_1 . METHOD_3 ( this ) ; VAR_1 . METHOD_4 ( 0 , ( ( int ) ( ( VAR_2 ) / INT_1 ) ) ) ; VAR_1 . METHOD_5 ( ) ; VAR_5 = ( VAR_6 ) | ( VAR_7 ) ; VAR_8 = INT_2 ; } | public void METHOD_1 ( ) { TYPE_1 . METHOD_2 ( STRING_1 , STRING_2 ) ; VAR_1 = new TYPE_2 ( context , VAR_2 , VAR_3 , VAR_4 , ( - 1 ) ) ; VAR_1 . METHOD_4 ( 0 , ( ( int ) ( ( VAR_2 ) / INT_1 ) ) ) ; VAR_5 = ( VAR_6 ) | ( VAR_7 ) ; } |
public void METHOD_1 ( java.util.List < TYPE_1 > list , TYPE_2 VAR_1 ) { VAR_2 . METHOD_2 ( ) ; if ( VAR_3 . METHOD_3 ( ) ) { VAR_3 . METHOD_4 ( false ) ; } if ( VAR_1 == null ) { METHOD_5 ( list ) ; } else { TYPE_3 . METHOD_6 ( STRING_1 , STRING_2 ) ; } } | public void METHOD_1 ( java.util.List < TYPE_1 > list , TYPE_2 VAR_1 ) { if ( VAR_3 . METHOD_3 ( ) ) { VAR_3 . METHOD_4 ( false ) ; } if ( VAR_1 == null ) { METHOD_5 ( list ) ; } else { TYPE_3 . METHOD_6 ( STRING_1 , STRING_2 ) ; } } |
private static void METHOD_1 ( TYPE_1 ... VAR_1 ) { TYPE_2 VAR_2 = new TYPE_2 ( STRING_1 ) ; TYPE_3 VAR_3 = new TYPE_3 ( ) ; VAR_2 . add ( VAR_3 ) ; VAR_2 . METHOD_2 ( INT_1 , INT_1 ) ; VAR_2 . METHOD_3 ( ) ; VAR_2 . METHOD_4 ( true ) ; } | private static void METHOD_1 ( ) { TYPE_2 VAR_2 = new TYPE_2 ( STRING_1 ) ; TYPE_3 VAR_3 = new TYPE_3 ( ) ; VAR_2 . add ( VAR_3 ) ; VAR_2 . METHOD_2 ( INT_1 , INT_1 ) ; VAR_2 . METHOD_3 ( ) ; VAR_2 . METHOD_4 ( true ) ; } |
public boolean METHOD_1 ( TYPE_1 a ) { try { for ( TYPE_1 n : nodes ) { if ( ( ( ( nodes . size ( ) ) > 1 ) && ( a . METHOD_2 ( ) . METHOD_3 ( n . METHOD_2 ( ) ) ) ) && ( n != a ) ) nodes . remove ( n ) ; return true ; } return false ; } catch ( java.lang.NullPointerException VAR_1 ) { return false ; } } | public boolean METHOD_1 ( TYPE_1 a ) { try { for ( TYPE_1 n : nodes ) { if ( ( ( ( nodes . size ( ) ) > 1 ) && ( n . METHOD_2 ( ) . METHOD_3 ( a . METHOD_2 ( ) ) ) ) && ( n != a ) ) nodes . remove ( n ) ; return true ; } return false ; } catch ( java.lang.NullPointerException VAR_1 ) { return false ; } } |
private boolean METHOD_1 ( java.lang.String ... VAR_1 ) { for ( java.lang.String text : VAR_1 ) { if ( text == null ) continue ; java.util.List < TYPE_1 > nodes = this . VAR_2 . METHOD_2 ( text ) ; if ( ! ( nodes . isEmpty ( ) ) ) return true ; } return false ; } | private boolean METHOD_1 ( java.lang.String ... VAR_1 ) { java.util.List < TYPE_1 > nodes ; for ( java.lang.String text : VAR_1 ) { if ( text == null ) continue ; nodes = this . VAR_2 . METHOD_2 ( text ) ; if ( ( nodes != null ) && ( ! ( nodes . isEmpty ( ) ) ) ) return true ; } return false ; } |
public java.util.HashMap < java.lang.String , java.lang.String > METHOD_1 ( TYPE_1 [ ] VAR_1 ) throws java.lang.Exception { java.util.HashMap < java.lang.String , java.lang.String > values = new java.util.HashMap < java.lang.String , java.lang.String > ( ) ; for ( TYPE_1 VAR_2 : VAR_1 ) values . put ( VAR_2 . METHOD_2 ( ) , VAR_2 . METHOD_3 ( ) ) ; return values ; } | public java.util.HashMap < java.lang.String , java.lang.String > METHOD_1 ( TYPE_1 [ ] VAR_1 ) throws java.lang.Exception { java.util.HashMap < java.lang.String , java.lang.String > values = new java.util.HashMap < java.lang.String , java.lang.String > ( ) ; for ( TYPE_1 VAR_2 : VAR_1 ) values . put ( VAR_2 . METHOD_3 ( ) , VAR_2 . METHOD_2 ( ) ) ; return values ; } |
public static TYPE_1 METHOD_1 ( ) { java.util.List < TYPE_2 > VAR_1 = VAR_2 . METHOD_2 ( ) . METHOD_3 ( TYPE_3 . METHOD_4 ( STRING_1 , 0 ) , TYPE_3 . METHOD_4 ( STRING_1 , INT_1 ) ) . METHOD_5 ( ) ; return METHOD_6 ( VAR_3 . METHOD_7 ( VAR_1 ) ) ; } | public static TYPE_1 METHOD_1 ( ) { java.util.List < TYPE_2 > VAR_1 = VAR_2 . METHOD_2 ( ) . METHOD_3 ( TYPE_3 . METHOD_4 ( STRING_1 , 0 ) , TYPE_3 . METHOD_4 ( STRING_1 , INT_1 ) ) . METHOD_5 ( ) ; return METHOD_6 ( VAR_3 . METHOD_7 ( VAR_1 , null ) ) ; } |
public boolean METHOD_1 ( TYPE_1 TYPE_2 ) { switch ( this ) { case VAR_1 : return TYPE_2 . METHOD_2 ( ) ; case VAR_2 : return TYPE_2 . METHOD_3 ( ) ; case VAR_3 : return TYPE_2 . METHOD_4 ( ) ; case VAR_4 : return TYPE_2 . METHOD_5 ( ) ; case VAR_5 : return TYPE_2 . METHOD_6 ( ) ; case VAR_6 : return TYPE_2 . METHOD_7 ( ) ; case VAR_7 : return TYPE_2 . METHOD_8 ( ) ; case VAR_8 : return TYPE_2 . METHOD_9 ( ) ; } return false ; } | public boolean METHOD_1 ( TYPE_1 TYPE_2 ) { switch ( this ) { case VAR_2 : return TYPE_2 . METHOD_3 ( ) ; case VAR_1 : return TYPE_2 . METHOD_2 ( ) ; case VAR_3 : return TYPE_2 . METHOD_4 ( ) ; case VAR_4 : return TYPE_2 . METHOD_5 ( ) ; case VAR_5 : return TYPE_2 . METHOD_6 ( ) ; case VAR_6 : return TYPE_2 . METHOD_7 ( ) ; case VAR_7 : return TYPE_2 . METHOD_8 ( ) ; case VAR_8 : return TYPE_2 . METHOD_9 ( ) ; } return false ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 response , TYPE_3 VAR_2 ) throws java.io.IOException , TYPE_4 { TYPE_5 VAR_3 = ( ( TYPE_5 ) ( VAR_1 ) ) ; TYPE_6 VAR_4 = VAR_3 . METHOD_2 ( ) ; if ( ( VAR_4 == null ) || ( ( VAR_4 . METHOD_3 ( VAR_5 ) ) == null ) ) { ( ( TYPE_7 ) ( response ) ) . METHOD_4 ( ( ( VAR_3 . METHOD_5 ( ) ) + STRING_1 ) ) ; } VAR_2 . METHOD_1 ( VAR_1 , response ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 response , TYPE_3 VAR_2 ) throws java.io.IOException , TYPE_4 { TYPE_5 VAR_3 = ( ( TYPE_5 ) ( VAR_1 ) ) ; TYPE_6 VAR_4 = VAR_3 . METHOD_2 ( ) ; if ( ( VAR_4 == null ) || ( ( VAR_4 . METHOD_3 ( VAR_5 ) ) == null ) ) { ( ( TYPE_7 ) ( response ) ) . METHOD_4 ( ( ( VAR_3 . METHOD_5 ( ) ) + STRING_1 ) ) ; } else { VAR_2 . METHOD_1 ( VAR_1 , response ) ; } } |
public java.lang.String format ( TYPE_1 < java.lang.Long , java.util.ArrayList < java.lang.String > > value ) { java.lang.String VAR_1 = ( STRING_1 + ( VAR_2 ) ) + STRING_2 ; boolean first = true ; for ( java.lang.String VAR_3 : VAR_4 ) { if ( first ) { first = false ; VAR_1 += ( STRING_3 + VAR_3 ) + STRING_3 ; } VAR_1 += ( STRING_4 + VAR_3 ) + STRING_3 ; } VAR_1 += STRING_5 ; return VAR_1 ; } | public java.lang.String format ( TYPE_1 < java.lang.Long , java.util.ArrayList < java.lang.String > > value ) { java.lang.String VAR_1 = ( STRING_1 + ( VAR_2 ) ) + STRING_2 ; boolean first = true ; for ( java.lang.String VAR_3 : VAR_4 ) { if ( first ) { first = false ; VAR_1 += ( STRING_3 + VAR_3 ) + STRING_3 ; } else { VAR_1 += ( STRING_4 + VAR_3 ) + STRING_3 ; } } VAR_1 += STRING_5 ; return VAR_1 ; } |
protected TYPE_1 METHOD_1 ( TYPE_2 VAR_1 ) { try { final java.util.Set < TYPE_3 > VAR_2 = new java.util.HashSet < TYPE_3 > ( ) ; new TYPE_4 ( ) . METHOD_2 ( VAR_3 , VAR_2 , true ) ; TYPE_5 . METHOD_3 ( new TYPE_6 ( ) { public void METHOD_1 ( ) { VAR_4 . METHOD_4 ( VAR_5 . METHOD_5 ( ) . METHOD_6 ( ) , VAR_2 ) ; } } ) ; } catch ( TYPE_7 VAR_6 ) { TYPE_8 . METHOD_7 ( VAR_7 class , VAR_8 , VAR_6 ) ; } return VAR_9 ; } | protected TYPE_1 METHOD_1 ( TYPE_2 VAR_1 ) { try { final java.util.Set < TYPE_3 > VAR_2 = new java.util.HashSet < TYPE_3 > ( ) ; new TYPE_4 ( ) . METHOD_2 ( VAR_3 , VAR_2 , true ) ; VAR_4 . METHOD_4 ( VAR_5 . METHOD_5 ( ) . METHOD_6 ( ) , VAR_2 ) ; } catch ( TYPE_7 VAR_6 ) { TYPE_8 . METHOD_7 ( VAR_7 class , VAR_8 , VAR_6 ) ; } return VAR_9 ; } |
public int METHOD_1 ( TYPE_1 VAR_1 ) { java.lang.System.out.println ( STRING_1 ) ; if ( VAR_1 . METHOD_2 ( VAR_2 ) ) { return VAR_3 ; } else if ( VAR_1 . METHOD_2 ( VAR_4 ) ) { return VAR_5 ; } else { return ( VAR_1 . METHOD_3 ( VAR_2 ) ) - ( VAR_1 . METHOD_3 ( VAR_4 ) ) ; } } | public int METHOD_1 ( TYPE_1 VAR_1 ) { if ( VAR_1 . METHOD_2 ( VAR_2 ) ) { return VAR_3 ; } else if ( VAR_1 . METHOD_2 ( VAR_4 ) ) { return VAR_5 ; } else { return ( VAR_1 . METHOD_3 ( VAR_2 ) ) - ( VAR_1 . METHOD_3 ( VAR_4 ) ) ; } } |
private void init ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , TYPE_3 VAR_3 ) { VAR_4 = new TYPE_4 ( getActivity ( ) . METHOD_1 ( ) , VAR_5 . METHOD_2 ( ) , VAR_1 , VAR_2 , VAR_6 , VAR_3 ) ; VAR_7 . METHOD_3 ( VAR_4 ) ; getActivity ( ) . METHOD_4 ( VAR_1 . METHOD_5 ( ) ) ; ( ( TYPE_5 ) ( getActivity ( ) ) ) . METHOD_6 ( VAR_8 ) ; ( ( TYPE_5 ) ( getActivity ( ) ) ) . METHOD_7 ( ) . METHOD_8 ( true ) ; } | private void init ( TYPE_1 VAR_1 ) { getActivity ( ) . METHOD_4 ( VAR_1 . METHOD_5 ( ) ) ; ( ( TYPE_5 ) ( getActivity ( ) ) ) . METHOD_6 ( VAR_8 ) ; ( ( TYPE_5 ) ( getActivity ( ) ) ) . METHOD_7 ( ) . METHOD_8 ( true ) ; } |
private TYPE_1 METHOD_1 ( byte [ ] buffer , TYPE_2 < java.lang.String > VAR_1 ) throws java.io.IOException { TYPE_1 VAR_2 = new TYPE_1 ( ) ; VAR_2 . METHOD_1 ( buffer , TYPE_3 , VAR_1 ) ; java.lang.String VAR_3 = VAR_2 . get ( VAR_4 ) ; if ( ! ( TYPE_3 . METHOD_2 ( VAR_3 ) ) ) { VAR_2 . METHOD_3 ( ) ; VAR_2 . METHOD_1 ( buffer , VAR_5 ) ; } return VAR_2 ; } | private TYPE_1 METHOD_1 ( byte [ ] buffer , TYPE_2 < java.lang.String > VAR_1 ) throws java.io.IOException { TYPE_1 VAR_2 = new TYPE_1 ( ) ; VAR_2 . METHOD_1 ( buffer , TYPE_3 , VAR_1 ) ; java.lang.String VAR_3 = VAR_2 . get ( VAR_4 ) ; if ( ! ( TYPE_3 . METHOD_2 ( VAR_3 ) ) ) { VAR_2 . METHOD_3 ( ) ; VAR_2 . METHOD_1 ( buffer , VAR_5 , VAR_1 ) ; } return VAR_2 ; } |
public TYPE_1 METHOD_1 ( ) throws TYPE_2 { if ( ( array [ index ] ) == null ) { throw new TYPE_2 ( ) ; } TYPE_1 item = array [ index ] ; array [ index ] = null ; if ( ( index ) == 0 ) { index = ( array . length ) - 1 ; } else { index = ( index ) - 1 ; } return item ; } | public TYPE_1 METHOD_1 ( ) throws TYPE_2 { if ( ( ( index ) == ( - 1 ) ) || ( ( array [ index ] ) == null ) ) { throw new TYPE_2 ( ) ; } TYPE_1 item = array [ index ] ; array [ index ] = null ; if ( ( index ) == 0 ) { index = ( array . length ) - 1 ; } else { index = ( index ) - 1 ; } return item ; } |
public TYPE_1 METHOD_1 ( java.util.List < java.lang.String > VAR_1 ) { java.util.Map < java.lang.String , java.lang.Object > VAR_2 = new java.util.HashMap < java.lang.String , java.lang.Object > ( ) ; VAR_2 . put ( STRING_1 , STRING_2 ) ; VAR_2 . put ( STRING_3 , VAR_3 ) ; java.util.ArrayList VAR_4 = ( ( java.util.ArrayList ) ( VAR_5 . METHOD_2 ( VAR_1 , null ) ) ) ; return TYPE_1 . status ( INT_1 ) . type ( VAR_6 ) . METHOD_3 ( VAR_4 . toString ( ) ) . build ( ) ; } | public TYPE_1 METHOD_1 ( java.util.List < java.lang.String > VAR_1 ) { java.lang.String VAR_4 = ( ( java.lang.String ) ( VAR_5 . METHOD_2 ( VAR_1 , null ) ) ) ; return TYPE_1 . status ( INT_1 ) . type ( VAR_6 ) . METHOD_3 ( VAR_4 ) . build ( ) ; } |
private static void METHOD_1 ( ) { try { VAR_1 = TYPE_1 . METHOD_2 ( ( ( VAR_2 ) + ( VAR_3 ) ) , VAR_4 , VAR_5 ) ; } catch ( TYPE_2 VAR_6 ) { VAR_7 . METHOD_3 ( VAR_8 , ( STRING_1 + VAR_6 ) ) ; } try { VAR_9 = VAR_1 . METHOD_4 ( ) ; } catch ( TYPE_2 VAR_6 ) { VAR_7 . METHOD_3 ( VAR_8 , ( STRING_1 + VAR_6 ) ) ; } } | private static void METHOD_1 ( ) { try { VAR_1 = TYPE_1 . METHOD_2 ( ( ( VAR_2 ) + ( VAR_3 ) ) , VAR_4 , VAR_5 ) ; VAR_9 = VAR_1 . METHOD_4 ( ) ; } catch ( TYPE_2 VAR_6 ) { VAR_7 . METHOD_3 ( VAR_8 , ( STRING_1 + VAR_6 ) ) ; } } |
private void METHOD_1 ( float start , float end ) { if ( VAR_1 ) { TYPE_1 VAR_2 = TYPE_1 . METHOD_2 ( this , VAR_3 , start , end ) ; VAR_2 . METHOD_3 ( new TYPE_2 ( ) ) ; VAR_2 . METHOD_4 ( INT_1 ) ; VAR_2 . start ( ) ; } } | private void METHOD_1 ( float start , float end ) { TYPE_1 VAR_2 = TYPE_1 . METHOD_2 ( this , VAR_3 , start , end ) ; VAR_2 . METHOD_3 ( new TYPE_2 ( ) ) ; VAR_2 . METHOD_4 ( INT_1 ) ; VAR_2 . start ( ) ; } |
private void METHOD_1 ( java.util.LinkedList < TYPE_1 > VAR_1 ) throws TYPE_2 , java.lang.Exception { for ( TYPE_1 VAR_2 : VAR_1 ) { if ( ( VAR_2 . METHOD_2 ( ) ) != null ) VAR_2 . METHOD_3 ( ) ; VAR_2 . METHOD_4 ( ) ; METHOD_5 ( VAR_2 ) ; } } | private void METHOD_1 ( java.util.LinkedList < TYPE_1 > VAR_1 ) throws TYPE_2 , java.lang.Exception { for ( TYPE_1 VAR_2 : VAR_1 ) { if ( ( VAR_2 . METHOD_2 ( ) ) != null ) { synchronized ( VAR_2 ) { VAR_2 . METHOD_3 ( ) ; } } VAR_2 . METHOD_4 ( ) ; METHOD_5 ( VAR_2 ) ; } } |
private void METHOD_1 ( java.lang.String VAR_1 ) { TYPE_1 . i ( VAR_2 , ( STRING_1 + VAR_1 ) ) ; TYPE_2 VAR_3 = context . METHOD_2 ( ) . METHOD_3 ( ) ; TYPE_3 VAR_4 = TYPE_3 . METHOD_4 ( type ) ; VAR_4 . METHOD_5 ( VAR_1 ) ; VAR_3 . replace ( VAR_5 , VAR_4 , STRING_2 ) ; VAR_3 . METHOD_6 ( VAR_6 , VAR_7 , VAR_6 , VAR_7 ) ; VAR_3 . METHOD_7 ( STRING_3 ) ; VAR_3 . commit ( ) ; } | private void METHOD_1 ( java.lang.String VAR_1 ) { TYPE_1 . i ( VAR_2 , ( STRING_1 + VAR_1 ) ) ; TYPE_2 VAR_3 = context . METHOD_2 ( ) . METHOD_3 ( ) ; TYPE_3 VAR_4 = TYPE_3 . METHOD_4 ( type ) ; VAR_4 . METHOD_5 ( VAR_1 ) ; VAR_3 . replace ( VAR_5 , VAR_4 , STRING_2 ) ; VAR_3 . METHOD_6 ( VAR_6 , VAR_7 , VAR_7 , VAR_6 ) ; VAR_3 . METHOD_7 ( STRING_3 ) ; VAR_3 . commit ( ) ; } |
private void METHOD_1 ( TYPE_1 VAR_1 , int VAR_2 ) { java.lang.String VAR_3 = STRING_1 ; for ( int i = 0 ; i < VAR_2 ; i ++ ) { int VAR_4 = METHOD_2 ( names . size ( ) ) ; int VAR_5 = METHOD_3 ( ) ; VAR_3 = names . get ( VAR_4 ) . get ( VAR_5 ) ; VAR_1 . METHOD_4 ( VAR_3 ) ; names . remove ( VAR_4 ) ; } } | private void METHOD_1 ( TYPE_1 VAR_1 , int VAR_2 ) { java.lang.String VAR_3 = STRING_1 ; for ( int i = 0 ; i < VAR_2 ; i ++ ) { int VAR_4 = METHOD_2 ( names . size ( ) ) ; VAR_3 = names . get ( VAR_4 ) . get ( 0 ) ; VAR_1 . METHOD_4 ( VAR_3 ) ; names . remove ( VAR_4 ) ; } } |
public void METHOD_1 ( ) throws TYPE_1 { VAR_1 = TYPE_2 . METHOD_2 ( context ) ; if ( VAR_1 . METHOD_3 ( ) ) { VAR_1 = ( ( TYPE_2 ) ( TYPE_3 . METHOD_4 ( VAR_2 ) ) ) ; VAR_1 . METHOD_5 ( VAR_2 ) ; } else { VAR_2 = VAR_1 . METHOD_6 ( ) ; } } | public void METHOD_1 ( ) throws TYPE_1 { VAR_1 = TYPE_2 . METHOD_2 ( context ) ; if ( VAR_1 . METHOD_3 ( ) ) { VAR_2 = TYPE_3 . METHOD_4 ( VAR_2 ) ; VAR_1 . METHOD_5 ( VAR_2 ) ; } else { VAR_2 = VAR_1 . METHOD_6 ( ) ; } } |
public void METHOD_1 ( android.view.View VAR_1 ) { switch ( VAR_1 . getId ( ) ) { case VAR_2 : VAR_3 . METHOD_2 ( 1 ) ; VAR_4 . METHOD_3 ( java.lang.String . METHOD_4 ( VAR_3 . getId ( ) ) ) . setValue ( VAR_3 ) ; METHOD_5 ( ) ; break ; case VAR_5 : VAR_3 . METHOD_2 ( INT_1 ) ; VAR_4 . METHOD_3 ( java.lang.String . METHOD_4 ( VAR_3 . getId ( ) ) ) . setValue ( VAR_3 ) ; METHOD_5 ( ) ; break ; } } | public void METHOD_1 ( android.view.View VAR_1 ) { switch ( VAR_1 . getId ( ) ) { case VAR_2 : VAR_3 . METHOD_2 ( 1 ) ; break ; case VAR_5 : VAR_3 . METHOD_2 ( INT_1 ) ; break ; } VAR_4 . METHOD_3 ( java.lang.String . METHOD_4 ( VAR_3 . getId ( ) ) ) . setValue ( VAR_3 ) ; METHOD_5 ( ) ; } |
public boolean METHOD_1 ( int VAR_1 , int VAR_2 ) { if ( VAR_1 > INT_1 ) VAR_1 = INT_1 ; if ( VAR_1 < 0 ) VAR_1 = 0 ; int VAR_3 = INT_2 - ( INT_3 * VAR_1 ) ; int VAR_4 = VAR_2 > > VAR_3 ; if ( VAR_4 > 0 ) { return false ; } return true ; } | public boolean METHOD_1 ( int VAR_1 , int VAR_2 ) { if ( VAR_1 <= 0 ) return true ; else if ( VAR_1 > INT_1 ) VAR_1 = INT_1 ; int VAR_3 = INT_2 - ( INT_3 * VAR_1 ) ; int VAR_4 = VAR_2 > > VAR_3 ; if ( VAR_4 != 0 ) { return false ; } return true ; } |
protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( VAR_2 ) ; if ( VAR_1 == null ) { METHOD_3 ( ) . METHOD_4 ( ) ; VAR_3 = ( ( TYPE_2 ) ( METHOD_5 ( VAR_4 ) ) ) ; VAR_3 . METHOD_6 ( new TYPE_3 ( METHOD_7 ( ) , this ) ) ; VAR_5 = ( ( TYPE_4 ) ( METHOD_5 ( VAR_6 ) ) ) ; VAR_5 . METHOD_8 ( true ) ; VAR_5 . METHOD_9 ( VAR_3 ) ; } } | protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( VAR_2 ) ; METHOD_3 ( ) . METHOD_4 ( ) ; VAR_3 = ( ( TYPE_2 ) ( METHOD_5 ( VAR_4 ) ) ) ; VAR_3 . METHOD_6 ( new TYPE_3 ( METHOD_7 ( ) , this ) ) ; VAR_5 = ( ( TYPE_4 ) ( METHOD_5 ( VAR_6 ) ) ) ; VAR_5 . METHOD_8 ( true ) ; VAR_5 . METHOD_9 ( VAR_3 ) ; } |
private void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 value ) { for ( int VAR_2 = VAR_3 . METHOD_2 ( 0 ) ; 0 <= VAR_2 ; VAR_2 = VAR_3 . METHOD_2 ( ( VAR_2 + 1 ) ) ) { if ( ! ( value . METHOD_3 ( VAR_2 ) ) ) { if ( ( TYPE_3 . equals ( VAR_4 ) ) || ( METHOD_4 ( VAR_2 ) ) ) { VAR_1 . METHOD_5 ( VAR_2 , value ) ; } } } } | private void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 value ) { for ( int VAR_2 = VAR_3 . METHOD_2 ( 0 ) ; 0 <= VAR_2 ; VAR_2 = VAR_3 . METHOD_2 ( ( VAR_2 + 1 ) ) ) { if ( ! ( value . METHOD_3 ( VAR_2 ) ) ) { if ( ( TYPE_3 . equals ( VAR_4 ) ) || ( ( null == ( value . getValue ( ) ) ) || ( METHOD_4 ( VAR_2 ) ) ) ) { VAR_1 . METHOD_5 ( VAR_2 , value ) ; } } } } |
protected void METHOD_1 ( ) { TYPE_1 VAR_1 = new TYPE_1 ( ) ; long [ ] VAR_2 = VAR_1 . METHOD_2 ( ) ; for ( int i = 0 ; i < INT_1 ; i ++ ) { if ( ( VAR_3 . METHOD_3 ( ) . METHOD_4 ( ) ) > ( VAR_2 [ i ] ) ) { METHOD_5 ( VAR_1 , i ) ; } } } | protected void METHOD_1 ( ) { TYPE_1 VAR_1 = new TYPE_1 ( ) ; long [ ] VAR_2 = VAR_1 . METHOD_2 ( ) ; for ( int i = 0 ; i < INT_1 ; i ++ ) { if ( ( VAR_3 . METHOD_3 ( ) . METHOD_4 ( ) ) > ( VAR_2 [ i ] ) ) { METHOD_5 ( VAR_1 , i ) ; break ; } } } |
protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; if ( ( VAR_2 ) != null ) { VAR_2 . METHOD_2 ( ( ( TYPE_2 ) ( VAR_1 ) ) , 0 , 0 , METHOD_3 ( ) , ( ( METHOD_4 ( ) ) - INT_1 ) ) ; } if ( ( VAR_3 ) != null ) { VAR_3 . METHOD_5 ( VAR_1 , this ) ; } } | protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; if ( ( VAR_2 ) != null ) { VAR_2 . METHOD_2 ( ( ( TYPE_2 ) ( VAR_1 ) ) , 0 , 0 , METHOD_3 ( ) , METHOD_4 ( ) ) ; } if ( ( VAR_3 ) != null ) { VAR_3 . METHOD_5 ( VAR_1 , this ) ; } } |
public void METHOD_1 ( boolean VAR_1 ) { for ( TYPE_1 context : VAR_2 ) { context . METHOD_1 ( true ) ; } if ( VAR_1 ) { VAR_3 . METHOD_2 ( VAR_4 ) ; } VAR_3 . METHOD_3 ( VAR_4 ) ; VAR_5 . METHOD_4 ( ) ; } | public void METHOD_1 ( boolean VAR_1 ) { for ( TYPE_1 context : VAR_2 ) { context . METHOD_1 ( true ) ; } if ( VAR_1 ) { if ( ( VAR_3 ) != null ) { VAR_3 . METHOD_2 ( VAR_4 ) ; } } if ( ( VAR_3 ) != null ) { VAR_3 . METHOD_3 ( VAR_4 ) ; } if ( ( VAR_5 ) != null ) { VAR_5 . METHOD_4 ( ) ; } } |
public void METHOD_1 ( TYPE_1 event ) { TYPE_2 msg = new TYPE_2 ( ) ; msg . METHOD_2 ( VAR_1 ) ; msg . METHOD_3 ( STRING_1 ) ; msg . METHOD_4 ( STRING_2 ) ; TYPE_3 . METHOD_5 ( ) . METHOD_6 ( null , msg ) ; } | public void METHOD_1 ( TYPE_1 event ) { TYPE_2 msg = new TYPE_2 ( ) ; msg . METHOD_2 ( VAR_1 ) ; msg . METHOD_4 ( STRING_1 ) ; msg . METHOD_3 ( STRING_2 ) ; TYPE_3 . METHOD_5 ( ) . METHOD_6 ( null , msg ) ; } |
public void METHOD_1 ( ) { if ( ( TYPE_1 . METHOD_2 ( ) . METHOD_3 ( ) ) == ( VAR_1 ) ) TYPE_2 . METHOD_4 ( new TYPE_3 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_4 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_5 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_6 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_7 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_8 ( ) ) ; } | public void METHOD_1 ( ) { TYPE_2 . METHOD_4 ( new TYPE_3 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_4 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_5 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_6 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_7 ( ) ) ; TYPE_2 . METHOD_4 ( new TYPE_8 ( ) ) ; } |
private void METHOD_1 ( TYPE_1 VAR_1 ) { TYPE_2 VAR_2 = VAR_1 . METHOD_2 ( STRING_1 ) ; for ( int i = 0 ; i < ( VAR_2 . size ( ) ) ; i ++ ) { TYPE_1 VAR_3 = VAR_2 . get ( i ) ; VAR_4 . put ( VAR_3 . METHOD_3 ( "id" ) . getValue ( ) , VAR_3 ) ; METHOD_1 ( VAR_3 ) ; } } | private void METHOD_1 ( TYPE_1 VAR_1 ) { TYPE_2 VAR_2 = VAR_1 . METHOD_2 ( STRING_1 ) ; for ( int i = 0 ; i < ( VAR_2 . size ( ) ) ; i ++ ) { TYPE_1 VAR_3 = VAR_2 . get ( i ) ; VAR_2 . put ( VAR_3 . METHOD_3 ( "id" ) . getValue ( ) , VAR_3 ) ; METHOD_1 ( VAR_3 ) ; } } |
public void METHOD_1 ( TYPE_1 VAR_1 ) { VAR_2 . info ( STRING_1 ) ; TYPE_2 VAR_3 = new TYPE_2 ( ) ; VAR_4 . METHOD_2 ( ) . METHOD_3 ( VAR_5 . METHOD_4 ( ) ) . METHOD_5 ( VAR_3 ) ; VAR_6 . METHOD_6 ( VAR_3 ) ; super . METHOD_1 ( VAR_1 ) ; } | public void METHOD_1 ( TYPE_1 VAR_1 ) { TYPE_2 VAR_3 = new TYPE_2 ( ) ; VAR_4 . METHOD_2 ( ) . METHOD_3 ( VAR_5 . METHOD_4 ( ) ) . METHOD_5 ( VAR_3 ) ; VAR_6 . METHOD_6 ( VAR_3 ) ; super . METHOD_1 ( VAR_1 ) ; } |
public void METHOD_1 ( ) throws java.io.IOException { java.lang.String VAR_1 = TYPE_1 . METHOD_2 ( VAR_2 . getText ( ) ) ; if ( VAR_1 != null ) { TYPE_2 VAR_3 = TYPE_2 . METHOD_3 ( VAR_1 ) ; VAR_4 . METHOD_4 ( VAR_3 ) ; } else { java.lang.System.out.println ( STRING_1 ) ; } return ; } | public void METHOD_1 ( ) throws java.io.IOException { java.lang.String VAR_1 = TYPE_1 . METHOD_2 ( VAR_2 . getText ( ) ) ; if ( VAR_1 != null ) { TYPE_2 VAR_3 = TYPE_2 . METHOD_3 ( VAR_1 ) ; VAR_4 . METHOD_4 ( VAR_3 ) ; } else { java.lang.System.out.println ( STRING_1 ) ; } } |
private static int METHOD_1 ( ) { final long VAR_1 = TYPE_1 . METHOD_2 ( ) . METHOD_3 ( ) ; final long VAR_2 = TYPE_1 . METHOD_2 ( ) . METHOD_4 ( ) ; final long VAR_3 = TYPE_1 . METHOD_2 ( ) . METHOD_5 ( ) ; return ( ( int ) ( ( VAR_2 + ( VAR_1 - VAR_3 ) ) / INT_1 ) ) ; } | private static long METHOD_1 ( ) { final long VAR_1 = TYPE_1 . METHOD_2 ( ) . METHOD_3 ( ) ; final long VAR_2 = TYPE_1 . METHOD_2 ( ) . METHOD_4 ( ) ; final long VAR_3 = TYPE_1 . METHOD_2 ( ) . METHOD_5 ( ) ; return ( VAR_2 > > 1 ) + ( ( VAR_1 - VAR_3 ) > > 1 ) ; } |
public int METHOD_1 ( android.content.Intent intent , int VAR_1 , int VAR_2 ) { if ( ( TYPE_1 . METHOD_2 ( ) . METHOD_3 ( ) ) != null ) { if ( ( VAR_3 ) == null ) { VAR_3 = new TYPE_2 ( this ) ; METHOD_4 ( ) ; VAR_4 = intent . METHOD_5 ( VAR_5 ) ; } } return VAR_6 ; } | public int METHOD_1 ( android.content.Intent intent , int VAR_1 , int VAR_2 ) { if ( ( TYPE_1 . METHOD_2 ( ) . METHOD_3 ( ) ) != null ) { if ( ( VAR_3 ) == null ) { VAR_3 = new TYPE_2 ( this ) ; METHOD_4 ( ) ; } } return VAR_6 ; } |
public synchronized TYPE_1 METHOD_1 ( ) { if ( ( VAR_1 ) == null ) { return null ; } TYPE_1 VAR_2 = VAR_1 ; TYPE_1 VAR_3 = null ; TYPE_1 VAR_4 = VAR_1 . METHOD_2 ( ) ; if ( VAR_4 == null ) { VAR_1 = null ; return VAR_2 ; } while ( ( VAR_4 = VAR_2 . METHOD_2 ( ) ) != null ) { VAR_3 = VAR_2 ; VAR_2 = VAR_4 ; } VAR_3 . METHOD_3 ( null ) ; return VAR_2 ; } | public synchronized TYPE_1 METHOD_1 ( ) { if ( ( VAR_1 ) == null ) { return null ; } TYPE_1 VAR_2 = VAR_1 ; TYPE_1 VAR_3 = null ; TYPE_1 VAR_4 = VAR_1 . METHOD_2 ( ) ; if ( VAR_4 == null ) { VAR_1 = null ; ( length ) -- ; return VAR_2 ; } while ( ( VAR_4 = VAR_2 . METHOD_2 ( ) ) != null ) { VAR_3 = VAR_2 ; VAR_2 = VAR_4 ; } VAR_3 . METHOD_3 ( null ) ; ( length ) -- ; return VAR_2 ; } |
private void METHOD_1 ( ) { VAR_1 . METHOD_2 ( VAR_2 ) . METHOD_3 ( VAR_3 , VAR_1 . METHOD_4 ( VAR_2 , VAR_4 , 0 ) ) . METHOD_3 ( VAR_5 , VAR_1 . METHOD_4 ( VAR_2 , VAR_6 , 0 ) ) . METHOD_5 ( VAR_7 , VAR_1 . getString ( VAR_2 , VAR_8 , STRING_1 ) ) . commit ( ) ; } | public void METHOD_1 ( ) { VAR_1 . METHOD_2 ( VAR_2 ) . METHOD_3 ( VAR_3 , VAR_1 . METHOD_4 ( VAR_2 , VAR_4 , 0 ) ) . METHOD_3 ( VAR_5 , VAR_1 . METHOD_4 ( VAR_2 , VAR_6 , 0 ) ) . METHOD_5 ( VAR_7 , VAR_1 . getString ( VAR_2 , VAR_8 , STRING_1 ) ) . commit ( ) ; } |
public void METHOD_1 ( java.util.Scanner args ) { final java.lang.String name = ( args . METHOD_2 ( ) ) ? args . METHOD_3 ( ) . trim ( ) : STRING_1 ; if ( ( name . length ( ) ) > 0 ) { final TYPE_1 VAR_1 = METHOD_4 ( name ) ; if ( VAR_1 == null ) { VAR_2 . format ( STRING_2 , name ) ; } else { VAR_3 . METHOD_5 ( METHOD_6 ( VAR_1 ) ) ; } } else { java.lang.System.out.println ( STRING_3 ) ; } } | public void METHOD_1 ( java.util.List < java.lang.String > args ) { final java.lang.String name = args . get ( 0 ) ; args . remove ( 0 ) ; if ( ( name . length ( ) ) > 0 ) { final TYPE_1 VAR_1 = METHOD_4 ( name ) ; if ( VAR_1 == null ) { VAR_2 . format ( STRING_2 , name ) ; } else { VAR_3 . METHOD_5 ( METHOD_6 ( VAR_1 ) ) ; } } else { java.lang.System.out.println ( STRING_3 ) ; } } |
void METHOD_1 ( ) { double [ ] VAR_1 = new double [ ] { FLOAT_1 , FLOAT_2 , FLOAT_3 , FLOAT_4 } ; VAR_2 . METHOD_2 ( new java.lang.String [ ] { STRING_1 } , true ) ; TYPE_1 . METHOD_3 ( new java.lang.String [ ] { STRING_2 , STRING_3 } , VAR_2 . METHOD_4 ( ) ) ; TYPE_1 . METHOD_3 ( new int [ ] { INT_1 , INT_1 } , VAR_2 . METHOD_5 ( ) ) ; TYPE_1 . METHOD_3 ( VAR_1 , VAR_2 . METHOD_6 ( ) , VAR_3 ) ; } | void METHOD_1 ( ) { double [ ] VAR_1 = new double [ ] { FLOAT_1 , FLOAT_2 , FLOAT_3 , FLOAT_4 } ; VAR_2 . METHOD_2 ( new java.lang.String [ ] { STRING_1 } , true ) ; TYPE_1 . METHOD_3 ( new java.lang.String [ ] { STRING_2 , STRING_3 } , VAR_2 . METHOD_4 ( ) ) ; TYPE_1 . METHOD_3 ( new int [ ] { INT_1 , INT_1 } , VAR_2 . METHOD_5 ( ) ) ; TYPE_1 . METHOD_3 ( VAR_1 , VAR_2 . values , VAR_3 ) ; } |
public void METHOD_1 ( ) { TYPE_1 VAR_1 = new TYPE_1 ( ) . put ( STRING_1 , INT_1 ) . put ( "name" , STRING_2 ) . put ( STRING_3 , INT_2 ) . put ( STRING_4 , STRING_5 ) . put ( STRING_6 , INT_3 ) ; VAR_1 . remove ( STRING_6 ) ; VAR_1 . remove ( STRING_7 ) ; TYPE_2 . assertEquals ( ( STRING_8 + STRING_9 ) , VAR_1 . toString ( ) ) ; } | public void METHOD_1 ( ) { TYPE_1 VAR_1 = new TYPE_1 ( ) . put ( STRING_1 , INT_1 ) . put ( "name" , STRING_2 ) . put ( STRING_3 , INT_2 ) . put ( STRING_4 , STRING_5 ) . put ( STRING_6 , INT_3 ) ; VAR_1 . remove ( STRING_6 ) ; VAR_1 . remove ( STRING_7 ) ; assertEquals ( ( STRING_8 + STRING_9 ) , VAR_1 . toString ( ) ) ; } |
public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , TYPE_3 VAR_3 ) { if ( METHOD_2 ( ) ) { TYPE_4 VAR_4 = new TYPE_4 ( ) ; VAR_4 . METHOD_3 ( VAR_2 . getContext ( ) , VAR_2 , VAR_3 , new TYPE_5 ( ) { public void METHOD_4 ( ) { TYPE_6 . METHOD_5 ( VAR_1 ) ; } public void METHOD_6 ( ) { TYPE_6 . METHOD_5 ( VAR_1 ) ; } } ) ; } } | public void METHOD_1 ( TYPE_1 VAR_1 , TYPE_2 VAR_2 , TYPE_3 VAR_3 ) { TYPE_4 VAR_4 = new TYPE_4 ( ) ; VAR_4 . METHOD_3 ( VAR_2 . getContext ( ) , VAR_2 , VAR_3 , new TYPE_5 ( ) { public void METHOD_4 ( ) { TYPE_6 . METHOD_5 ( VAR_1 ) ; } public void METHOD_6 ( ) { TYPE_6 . METHOD_5 ( VAR_1 ) ; } } ) ; } |
public int METHOD_1 ( ) { switch ( size ) { case 1 : return 0 ; case INT_1 : return INT_2 ; case INT_3 : return INT_4 ; case INT_2 : return INT_5 ; case INT_6 : return INT_7 ; case INT_8 : return INT_9 ; case INT_10 : return INT_11 ; case INT_4 : return INT_12 ; case INT_13 : return INT_14 ; case INT_15 : return INT_14 ; default : return STRING_1 ; } } | public int METHOD_1 ( ) { switch ( size ) { case 1 : return 0 ; case INT_1 : return INT_2 ; case INT_3 : return INT_4 ; case INT_2 : return INT_5 ; case INT_6 : return INT_7 ; case INT_8 : return INT_9 ; case INT_10 : return INT_11 ; case INT_4 : return INT_12 ; case INT_13 : return INT_14 ; case INT_15 : return INT_14 ; default : return 0 ; } } |
protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( ) . METHOD_3 ( VAR_2 ) ; METHOD_4 ( VAR_3 ) ; VAR_4 = new TYPE_2 ( this ) ; VAR_5 = new TYPE_3 ( this ) ; VAR_5 . METHOD_5 ( ) ; VAR_5 . METHOD_6 ( ) . METHOD_7 ( ) . METHOD_8 ( INT_1 ) ; TYPE_4 . METHOD_9 ( this , VAR_4 ) ; } | protected void METHOD_1 ( TYPE_1 VAR_1 ) { super . METHOD_1 ( VAR_1 ) ; METHOD_2 ( ) . METHOD_3 ( VAR_2 ) ; METHOD_4 ( VAR_3 ) ; VAR_4 = new TYPE_2 ( this ) ; VAR_5 = new TYPE_3 ( this ) ; VAR_5 . METHOD_5 ( ) ; TYPE_4 . METHOD_9 ( this , VAR_4 ) ; } |
public void METHOD_1 ( ) { TYPE_1 VAR_1 = METHOD_2 ( VAR_2 class ) ; TYPE_2 VAR_3 = new TYPE_2 ( ) ; VAR_3 . METHOD_3 ( VAR_4 ) ; TYPE_3 VAR_5 = TYPE_3 . METHOD_4 ( VAR_6 , VAR_3 , VAR_7 . METHOD_5 ( ) ) ; VAR_8 . update ( VAR_5 , VAR_1 ) ; METHOD_6 ( VAR_9 , METHOD_7 ( ) ) . add ( VAR_10 < TYPE_2 > METHOD_8 ( ) ) ; METHOD_6 ( VAR_11 ) . METHOD_9 ( VAR_4 , VAR_12 , null ) ; } | public void METHOD_1 ( ) { TYPE_2 VAR_3 = new TYPE_2 ( ) ; VAR_3 . METHOD_3 ( VAR_4 ) ; TYPE_3 VAR_5 = TYPE_3 . METHOD_4 ( VAR_6 , VAR_3 , VAR_7 . METHOD_5 ( ) ) ; VAR_8 . update ( VAR_5 , VAR_1 ) ; METHOD_6 ( VAR_9 , METHOD_7 ( ) ) . add ( VAR_10 < TYPE_2 > METHOD_8 ( ) ) ; METHOD_6 ( VAR_11 ) . METHOD_9 ( VAR_4 , VAR_12 , null ) ; } |
public void METHOD_1 ( TYPE_1 VAR_1 ) { for ( int VAR_2 = 0 ; VAR_2 < ( VAR_3 . length ) ; VAR_2 ++ ) { if ( ( VAR_1 . METHOD_2 ( ) ) == ( VAR_4 [ VAR_2 ] ) ) { VAR_3 [ VAR_2 ] . METHOD_3 ( VAR_5 ) ; java.lang.System.out.println ( STRING_1 ) ; } } } | public void METHOD_1 ( TYPE_1 VAR_1 ) { for ( int VAR_2 = 0 ; VAR_2 < ( VAR_3 . length ) ; VAR_2 ++ ) { if ( ( VAR_1 . METHOD_2 ( ) ) == ( VAR_4 [ VAR_2 ] ) ) { VAR_3 [ VAR_2 ] . METHOD_3 ( VAR_5 ) ; } } } |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.