code stringlengths 73 34.1k | label stringclasses 1 value |
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public Where<T, ID> raw(String rawStatement, ArgumentHolder... args) {
for (ArgumentHolder arg : args) {
String columnName = arg.getColumnName();
if (columnName == null) {
if (arg.getSqlType() == null) {
throw new IllegalArgumentException("Either the column name or SqlType must be set on each argument");
}
} else {
arg.setMetaInfo(findColumnFieldType(columnName));
}
}
addClause(new Raw(rawStatement, args));
return this;
} | java |
public Where<T, ID> rawComparison(String columnName, String rawOperator, Object value) throws SQLException {
addClause(new SimpleComparison(columnName, findColumnFieldType(columnName), value, rawOperator));
return this;
} | java |
public Where<T, ID> reset() {
for (int i = 0; i < clauseStackLevel; i++) {
// help with gc
clauseStack[i] = null;
}
clauseStackLevel = 0;
return this;
} | java |
public String getStatement() throws SQLException {
StringBuilder sb = new StringBuilder();
appendSql(null, sb, new ArrayList<ArgumentHolder>());
return sb.toString();
} | java |
public int execute(DatabaseConnection databaseConnection, T data, ID newId, ObjectCache objectCache)
throws SQLException {
try {
// the arguments are the new-id and old-id
Object[] args = new Object[] { convertIdToFieldObject(newId), extractIdToFieldObject(data) };
int rowC = databaseConnection.update(statement, args, argFieldTypes);
if (rowC > 0) {
if (objectCache != null) {
Object oldId = idField.extractJavaFieldValue(data);
T obj = objectCache.updateId(clazz, oldId, newId);
if (obj != null && obj != data) {
// if our cached value is not the data that will be updated then we need to update it specially
idField.assignField(connectionSource, obj, newId, false, objectCache);
}
}
// adjust the object to assign the new id
idField.assignField(connectionSource, data, newId, false, objectCache);
}
logger.debug("updating-id with statement '{}' and {} args, changed {} rows", statement, args.length, rowC);
if (args.length > 0) {
// need to do the cast otherwise we only print the first object in args
logger.trace("updating-id arguments: {}", (Object) args);
}
return rowC;
} catch (SQLException e) {
throw SqlExceptionUtil.create("Unable to run update-id stmt on object " + data + ": " + statement, e);
}
} | java |
public static DatabaseFieldConfig fromReader(BufferedReader reader) throws SQLException {
DatabaseFieldConfig config = new DatabaseFieldConfig();
boolean anything = false;
while (true) {
String line;
try {
line = reader.readLine();
} catch (IOException e) {
throw SqlExceptionUtil.create("Could not read DatabaseFieldConfig from stream", e);
}
if (line == null) {
break;
}
// we do this so we can support multiple class configs per file
if (line.equals(CONFIG_FILE_END_MARKER)) {
break;
}
// skip empty lines or comments
if (line.length() == 0 || line.startsWith("#") || line.equals(CONFIG_FILE_START_MARKER)) {
continue;
}
String[] parts = line.split("=", -2);
if (parts.length != 2) {
throw new SQLException("DatabaseFieldConfig reading from stream cannot parse line: " + line);
}
readField(config, parts[0], parts[1]);
anything = true;
}
// if we got any config lines then we return the config
if (anything) {
return config;
} else {
// otherwise we return null for none
return null;
}
} | java |
public static void write(BufferedWriter writer, DatabaseFieldConfig config, String tableName) throws SQLException {
try {
writeConfig(writer, config, tableName);
} catch (IOException e) {
throw SqlExceptionUtil.create("Could not write config to writer", e);
}
} | java |
public UpdateBuilder<T, ID> updateColumnValue(String columnName, Object value) throws SQLException {
FieldType fieldType = verifyColumnName(columnName);
if (fieldType.isForeignCollection()) {
throw new SQLException("Can't update foreign colletion field: " + columnName);
}
addUpdateColumnToList(columnName, new SetValue(columnName, fieldType, value));
return this;
} | java |
public UpdateBuilder<T, ID> updateColumnExpression(String columnName, String expression) throws SQLException {
FieldType fieldType = verifyColumnName(columnName);
if (fieldType.isForeignCollection()) {
throw new SQLException("Can't update foreign colletion field: " + columnName);
}
addUpdateColumnToList(columnName, new SetExpression(columnName, fieldType, expression));
return this;
} | java |
public void initialize() {
if (dataClass == null) {
throw new IllegalStateException("dataClass was never set on " + getClass().getSimpleName());
}
if (tableName == null) {
tableName = extractTableName(databaseType, dataClass);
}
} | java |
public void extractFieldTypes(DatabaseType databaseType) throws SQLException {
if (fieldTypes == null) {
if (fieldConfigs == null) {
fieldTypes = extractFieldTypes(databaseType, dataClass, tableName);
} else {
fieldTypes = convertFieldConfigs(databaseType, tableName, fieldConfigs);
}
}
} | java |
public static <T> DatabaseTableConfig<T> fromClass(DatabaseType databaseType, Class<T> clazz) throws SQLException {
String tableName = extractTableName(databaseType, clazz);
if (databaseType.isEntityNamesMustBeUpCase()) {
tableName = databaseType.upCaseEntityName(tableName);
}
return new DatabaseTableConfig<T>(databaseType, clazz, tableName,
extractFieldTypes(databaseType, clazz, tableName));
} | java |
public static <T> String extractTableName(DatabaseType databaseType, Class<T> clazz) {
DatabaseTable databaseTable = clazz.getAnnotation(DatabaseTable.class);
String name = null;
if (databaseTable != null && databaseTable.tableName() != null && databaseTable.tableName().length() > 0) {
name = databaseTable.tableName();
}
if (name == null && javaxPersistenceConfigurer != null) {
name = javaxPersistenceConfigurer.getEntityName(clazz);
}
if (name == null) {
// if the name isn't specified, it is the class name lowercased
if (databaseType == null) {
// database-type is optional so if it is not specified we just use english
name = clazz.getSimpleName().toLowerCase(Locale.ENGLISH);
} else {
name = databaseType.downCaseString(clazz.getSimpleName(), true);
}
}
return name;
} | java |
public static void openLogFile(String logPath) {
if (logPath == null) {
printStream = System.out;
} else {
try {
printStream = new PrintStream(new File(logPath));
} catch (FileNotFoundException e) {
throw new IllegalArgumentException("Log file " + logPath + " was not found", e);
}
}
} | java |
public long queryForCountStar(DatabaseConnection databaseConnection) throws SQLException {
if (countStarQuery == null) {
StringBuilder sb = new StringBuilder(64);
sb.append("SELECT COUNT(*) FROM ");
databaseType.appendEscapedEntityName(sb, tableInfo.getTableName());
countStarQuery = sb.toString();
}
long count = databaseConnection.queryForLong(countStarQuery);
logger.debug("query of '{}' returned {}", countStarQuery, count);
return count;
} | java |
public long queryForLong(DatabaseConnection databaseConnection, PreparedStmt<T> preparedStmt) throws SQLException {
CompiledStatement compiledStatement = preparedStmt.compile(databaseConnection, StatementType.SELECT_LONG);
DatabaseResults results = null;
try {
results = compiledStatement.runQuery(null);
if (results.first()) {
return results.getLong(0);
} else {
throw new SQLException("No result found in queryForLong: " + preparedStmt.getStatement());
}
} finally {
IOUtils.closeThrowSqlException(results, "results");
IOUtils.closeThrowSqlException(compiledStatement, "compiled statement");
}
} | java |
public SelectIterator<T, ID> buildIterator(BaseDaoImpl<T, ID> classDao, ConnectionSource connectionSource,
int resultFlags, ObjectCache objectCache) throws SQLException {
prepareQueryForAll();
return buildIterator(classDao, connectionSource, preparedQueryForAll, objectCache, resultFlags);
} | java |
public int updateRaw(DatabaseConnection connection, String statement, String[] arguments) throws SQLException {
logger.debug("running raw update statement: {}", statement);
if (arguments.length > 0) {
// need to do the (Object) cast to force args to be a single object
logger.trace("update arguments: {}", (Object) arguments);
}
CompiledStatement compiledStatement = connection.compileStatement(statement, StatementType.UPDATE, noFieldTypes,
DatabaseConnection.DEFAULT_RESULT_FLAGS, false);
try {
assignStatementArguments(compiledStatement, arguments);
return compiledStatement.runUpdate();
} finally {
IOUtils.closeThrowSqlException(compiledStatement, "compiled statement");
}
} | java |
public int create(DatabaseConnection databaseConnection, T data, ObjectCache objectCache) throws SQLException {
if (mappedInsert == null) {
mappedInsert = MappedCreate.build(dao, tableInfo);
}
int result = mappedInsert.insert(databaseType, databaseConnection, data, objectCache);
if (dao != null && !localIsInBatchMode.get()) {
dao.notifyChanges();
}
return result;
} | java |
public int updateId(DatabaseConnection databaseConnection, T data, ID newId, ObjectCache objectCache)
throws SQLException {
if (mappedUpdateId == null) {
mappedUpdateId = MappedUpdateId.build(dao, tableInfo);
}
int result = mappedUpdateId.execute(databaseConnection, data, newId, objectCache);
if (dao != null && !localIsInBatchMode.get()) {
dao.notifyChanges();
}
return result;
} | java |
public int update(DatabaseConnection databaseConnection, PreparedUpdate<T> preparedUpdate) throws SQLException {
CompiledStatement compiledStatement = preparedUpdate.compile(databaseConnection, StatementType.UPDATE);
try {
int result = compiledStatement.runUpdate();
if (dao != null && !localIsInBatchMode.get()) {
dao.notifyChanges();
}
return result;
} finally {
IOUtils.closeThrowSqlException(compiledStatement, "compiled statement");
}
} | java |
public int refresh(DatabaseConnection databaseConnection, T data, ObjectCache objectCache) throws SQLException {
if (mappedRefresh == null) {
mappedRefresh = MappedRefresh.build(dao, tableInfo);
}
return mappedRefresh.executeRefresh(databaseConnection, data, objectCache);
} | java |
public int delete(DatabaseConnection databaseConnection, T data, ObjectCache objectCache) throws SQLException {
if (mappedDelete == null) {
mappedDelete = MappedDelete.build(dao, tableInfo);
}
int result = mappedDelete.delete(databaseConnection, data, objectCache);
if (dao != null && !localIsInBatchMode.get()) {
dao.notifyChanges();
}
return result;
} | java |
public int deleteById(DatabaseConnection databaseConnection, ID id, ObjectCache objectCache) throws SQLException {
if (mappedDelete == null) {
mappedDelete = MappedDelete.build(dao, tableInfo);
}
int result = mappedDelete.deleteById(databaseConnection, id, objectCache);
if (dao != null && !localIsInBatchMode.get()) {
dao.notifyChanges();
}
return result;
} | java |
public int delete(DatabaseConnection databaseConnection, PreparedDelete<T> preparedDelete) throws SQLException {
CompiledStatement compiledStatement = preparedDelete.compile(databaseConnection, StatementType.DELETE);
try {
int result = compiledStatement.runUpdate();
if (dao != null && !localIsInBatchMode.get()) {
dao.notifyChanges();
}
return result;
} finally {
IOUtils.closeThrowSqlException(compiledStatement, "compiled statement");
}
} | java |
public <CT> CT callBatchTasks(ConnectionSource connectionSource, Callable<CT> callable) throws SQLException {
if (connectionSource.isSingleConnection(tableInfo.getTableName())) {
synchronized (this) {
return doCallBatchTasks(connectionSource, callable);
}
} else {
return doCallBatchTasks(connectionSource, callable);
}
} | java |
public static SQLException create(String message, Throwable cause) {
SQLException sqlException;
if (cause instanceof SQLException) {
// if the cause is another SQLException, pass alot of the SQL state
sqlException = new SQLException(message, ((SQLException) cause).getSQLState());
} else {
sqlException = new SQLException(message);
}
sqlException.initCause(cause);
return sqlException;
} | java |
public void initialize() throws SQLException {
if (initialized) {
// just skip it if already initialized
return;
}
if (connectionSource == null) {
throw new IllegalStateException("connectionSource was never set on " + getClass().getSimpleName());
}
databaseType = connectionSource.getDatabaseType();
if (databaseType == null) {
throw new IllegalStateException(
"connectionSource is getting a null DatabaseType in " + getClass().getSimpleName());
}
if (tableConfig == null) {
tableInfo = new TableInfo<T, ID>(databaseType, dataClass);
} else {
tableConfig.extractFieldTypes(databaseType);
tableInfo = new TableInfo<T, ID>(databaseType, tableConfig);
}
statementExecutor = new StatementExecutor<T, ID>(databaseType, tableInfo, this);
/*
* This is a bit complex. Initially, when we were configuring the field types, external DAO information would be
* configured for auto-refresh, foreign BaseDaoEnabled classes, and foreign-collections. This would cause the
* system to go recursive and for class loops, a stack overflow.
*
* Then we fixed this by putting a level counter in the FieldType constructor that would stop the configurations
* when we reach some recursion level. But this created some bad problems because we were using the DaoManager
* to cache the created DAOs that had been constructed already limited by the level.
*
* What we do now is have a 2 phase initialization. The constructor initializes most of the fields but then we
* go back and call FieldType.configDaoInformation() after we are done. So for every DAO that is initialized
* here, we have to see if it is the top DAO. If not we save it for dao configuration later.
*/
List<BaseDaoImpl<?, ?>> daoConfigList = daoConfigLevelLocal.get();
daoConfigList.add(this);
if (daoConfigList.size() > 1) {
// if we have recursed then just save the dao for later configuration
return;
}
try {
/*
* WARNING: We do _not_ use an iterator here because we may be adding to the list as we process it and we'll
* get exceptions otherwise. This is an ArrayList so the get(i) should be efficient.
*
* Also, do _not_ get a copy of daoConfigLevel.doArray because that array may be replaced by another, larger
* one during the recursion.
*/
for (int i = 0; i < daoConfigList.size(); i++) {
BaseDaoImpl<?, ?> dao = daoConfigList.get(i);
/*
* Here's another complex bit. The first DAO that is being constructed as part of a DAO chain is not yet
* in the DaoManager cache. If we continue onward we might come back around and try to configure this
* DAO again. Forcing it into the cache here makes sure it won't be configured twice. This will cause it
* to be stuck in twice when it returns out to the DaoManager but that's a small price to pay. This also
* applies to self-referencing classes.
*/
DaoManager.registerDao(connectionSource, dao);
try {
// config our fields which may go recursive
for (FieldType fieldType : dao.getTableInfo().getFieldTypes()) {
fieldType.configDaoInformation(connectionSource, dao.getDataClass());
}
} catch (SQLException e) {
// unregister the DAO we just pre-registered
DaoManager.unregisterDao(connectionSource, dao);
throw e;
}
// it's now been fully initialized
dao.initialized = true;
}
} finally {
// if we throw we want to clear our class hierarchy here
daoConfigList.clear();
daoConfigLevelLocal.remove();
}
} | java |
static <T, ID> Dao<T, ID> createDao(ConnectionSource connectionSource, Class<T> clazz) throws SQLException {
return new BaseDaoImpl<T, ID>(connectionSource, clazz) {
};
} | java |
private Constructor<T> findNoArgConstructor(Class<T> dataClass) {
Constructor<T>[] constructors;
try {
@SuppressWarnings("unchecked")
Constructor<T>[] consts = (Constructor<T>[]) dataClass.getDeclaredConstructors();
// i do this [grossness] to be able to move the Suppress inside the method
constructors = consts;
} catch (Exception e) {
throw new IllegalArgumentException("Can't lookup declared constructors for " + dataClass, e);
}
for (Constructor<T> con : constructors) {
if (con.getParameterTypes().length == 0) {
if (!con.isAccessible()) {
try {
con.setAccessible(true);
} catch (SecurityException e) {
throw new IllegalArgumentException("Could not open access to constructor for " + dataClass);
}
}
return con;
}
}
if (dataClass.getEnclosingClass() == null) {
throw new IllegalArgumentException("Can't find a no-arg constructor for " + dataClass);
} else {
throw new IllegalArgumentException(
"Can't find a no-arg constructor for " + dataClass + ". Missing static on inner class?");
}
} | java |
public static Method findGetMethod(Field field, DatabaseType databaseType, boolean throwExceptions)
throws IllegalArgumentException {
Method fieldGetMethod = findMethodFromNames(field, true, throwExceptions,
methodFromField(field, "get", databaseType, true), methodFromField(field, "get", databaseType, false),
methodFromField(field, "is", databaseType, true), methodFromField(field, "is", databaseType, false));
if (fieldGetMethod == null) {
return null;
}
if (fieldGetMethod.getReturnType() != field.getType()) {
if (throwExceptions) {
throw new IllegalArgumentException("Return type of get method " + fieldGetMethod.getName()
+ " does not return " + field.getType());
} else {
return null;
}
}
return fieldGetMethod;
} | java |
public static Method findSetMethod(Field field, DatabaseType databaseType, boolean throwExceptions)
throws IllegalArgumentException {
Method fieldSetMethod = findMethodFromNames(field, false, throwExceptions,
methodFromField(field, "set", databaseType, true), methodFromField(field, "set", databaseType, false));
if (fieldSetMethod == null) {
return null;
}
if (fieldSetMethod.getReturnType() != void.class) {
if (throwExceptions) {
throw new IllegalArgumentException("Return type of set method " + fieldSetMethod.getName() + " returns "
+ fieldSetMethod.getReturnType() + " instead of void");
} else {
return null;
}
}
return fieldSetMethod;
} | java |
public void postProcess() {
if (foreignColumnName != null) {
foreignAutoRefresh = true;
}
if (foreignAutoRefresh && maxForeignAutoRefreshLevel == NO_MAX_FOREIGN_AUTO_REFRESH_LEVEL_SPECIFIED) {
maxForeignAutoRefreshLevel = DatabaseField.DEFAULT_MAX_FOREIGN_AUTO_REFRESH_LEVEL;
}
} | java |
public static Enum<?> findMatchingEnumVal(Field field, String unknownEnumName) {
if (unknownEnumName == null || unknownEnumName.length() == 0) {
return null;
}
for (Enum<?> enumVal : (Enum<?>[]) field.getType().getEnumConstants()) {
if (enumVal.name().equals(unknownEnumName)) {
return enumVal;
}
}
throw new IllegalArgumentException("Unknwown enum unknown name " + unknownEnumName + " for field " + field);
} | java |
public int executeRefresh(DatabaseConnection databaseConnection, T data, ObjectCache objectCache)
throws SQLException {
@SuppressWarnings("unchecked")
ID id = (ID) idField.extractJavaFieldValue(data);
// we don't care about the cache here
T result = super.execute(databaseConnection, id, null);
if (result == null) {
return 0;
}
// copy each field from the result into the passed in object
for (FieldType fieldType : resultsFieldTypes) {
if (fieldType != idField) {
fieldType.assignField(connectionSource, data, fieldType.extractJavaFieldValue(result), false,
objectCache);
}
}
return 1;
} | java |
public QueryBuilder<T, ID> selectColumns(String... columns) {
for (String column : columns) {
addSelectColumnToList(column);
}
return this;
} | java |
public QueryBuilder<T, ID> groupBy(String columnName) {
FieldType fieldType = verifyColumnName(columnName);
if (fieldType.isForeignCollection()) {
throw new IllegalArgumentException("Can't groupBy foreign collection field: " + columnName);
}
addGroupBy(ColumnNameOrRawSql.withColumnName(columnName));
return this;
} | java |
public QueryBuilder<T, ID> groupByRaw(String rawSql) {
addGroupBy(ColumnNameOrRawSql.withRawSql(rawSql));
return this;
} | java |
public QueryBuilder<T, ID> orderBy(String columnName, boolean ascending) {
FieldType fieldType = verifyColumnName(columnName);
if (fieldType.isForeignCollection()) {
throw new IllegalArgumentException("Can't orderBy foreign collection field: " + columnName);
}
addOrderBy(new OrderBy(columnName, ascending));
return this;
} | java |
public QueryBuilder<T, ID> orderByRaw(String rawSql) {
addOrderBy(new OrderBy(rawSql, (ArgumentHolder[]) null));
return this;
} | java |
public QueryBuilder<T, ID> join(QueryBuilder<?, ?> joinedQueryBuilder) throws SQLException {
addJoinInfo(JoinType.INNER, null, null, joinedQueryBuilder, JoinWhereOperation.AND);
return this;
} | java |
private void addJoinInfo(JoinType type, String localColumnName, String joinedColumnName,
QueryBuilder<?, ?> joinedQueryBuilder, JoinWhereOperation operation) throws SQLException {
JoinInfo joinInfo = new JoinInfo(type, joinedQueryBuilder, operation);
if (localColumnName == null) {
matchJoinedFields(joinInfo, joinedQueryBuilder);
} else {
matchJoinedFieldsByName(joinInfo, localColumnName, joinedColumnName, joinedQueryBuilder);
}
if (joinList == null) {
joinList = new ArrayList<JoinInfo>();
}
joinList.add(joinInfo);
} | java |
public String objectToString(T object) {
StringBuilder sb = new StringBuilder(64);
sb.append(object.getClass().getSimpleName());
for (FieldType fieldType : fieldTypes) {
sb.append(' ').append(fieldType.getColumnName()).append('=');
try {
sb.append(fieldType.extractJavaFieldValue(object));
} catch (Exception e) {
throw new IllegalStateException("Could not generate toString of field " + fieldType, e);
}
}
return sb.toString();
} | java |
private static void logVersionWarnings(String label1, String version1, String label2, String version2) {
if (version1 == null) {
if (version2 != null) {
warning(null, "Unknown version", " for {}, version for {} is '{}'", new Object[] { label1, label2,
version2 });
}
} else {
if (version2 == null) {
warning(null, "Unknown version", " for {}, version for {} is '{}'", new Object[] { label2, label1,
version1 });
} else if (!version1.equals(version2)) {
warning(null, "Mismatched versions", ": {} is '{}', while {} is '{}'", new Object[] { label1, version1,
label2, version2 });
}
}
} | java |
protected MappedPreparedStmt<T, ID> prepareStatement(Long limit, boolean cacheStore) throws SQLException {
List<ArgumentHolder> argList = new ArrayList<ArgumentHolder>();
String statement = buildStatementString(argList);
ArgumentHolder[] selectArgs = argList.toArray(new ArgumentHolder[argList.size()]);
FieldType[] resultFieldTypes = getResultFieldTypes();
FieldType[] argFieldTypes = new FieldType[argList.size()];
for (int selectC = 0; selectC < selectArgs.length; selectC++) {
argFieldTypes[selectC] = selectArgs[selectC].getFieldType();
}
if (!type.isOkForStatementBuilder()) {
throw new IllegalStateException("Building a statement from a " + type + " statement is not allowed");
}
return new MappedPreparedStmt<T, ID>(dao, tableInfo, statement, argFieldTypes, resultFieldTypes, selectArgs,
(databaseType.isLimitSqlSupported() ? null : limit), type, cacheStore);
} | java |
public String prepareStatementString() throws SQLException {
List<ArgumentHolder> argList = new ArrayList<ArgumentHolder>();
return buildStatementString(argList);
} | java |
protected boolean appendWhereStatement(StringBuilder sb, List<ArgumentHolder> argList, WhereOperation operation)
throws SQLException {
if (where == null) {
return operation == WhereOperation.FIRST;
}
operation.appendBefore(sb);
where.appendSql((addTableName ? getTableName() : null), sb, argList);
operation.appendAfter(sb);
return false;
} | java |
private static <T, ID> MappedDeleteCollection<T, ID> build(Dao<T, ID> dao, TableInfo<T, ID> tableInfo, int dataSize)
throws SQLException {
FieldType idField = tableInfo.getIdField();
if (idField == null) {
throw new SQLException(
"Cannot delete " + tableInfo.getDataClass() + " because it doesn't have an id field defined");
}
StringBuilder sb = new StringBuilder(128);
DatabaseType databaseType = dao.getConnectionSource().getDatabaseType();
appendTableName(databaseType, sb, "DELETE FROM ", tableInfo.getTableName());
FieldType[] argFieldTypes = new FieldType[dataSize];
appendWhereIds(databaseType, idField, sb, dataSize, argFieldTypes);
return new MappedDeleteCollection<T, ID>(dao, tableInfo, sb.toString(), argFieldTypes);
} | java |
@Override
public T next() {
SQLException sqlException = null;
try {
T result = nextThrow();
if (result != null) {
return result;
}
} catch (SQLException e) {
sqlException = e;
}
// we have to throw if there is no next or on a SQLException
last = null;
closeQuietly();
throw new IllegalStateException("Could not get next result for " + dataClass, sqlException);
} | java |
public static <T> int createTable(ConnectionSource connectionSource, Class<T> dataClass) throws SQLException {
Dao<T, ?> dao = DaoManager.createDao(connectionSource, dataClass);
return doCreateTable(dao, false);
} | java |
public static <T> int createTable(ConnectionSource connectionSource, DatabaseTableConfig<T> tableConfig)
throws SQLException {
Dao<T, ?> dao = DaoManager.createDao(connectionSource, tableConfig);
return doCreateTable(dao, false);
} | java |
public static <T, ID> int dropTable(ConnectionSource connectionSource, Class<T> dataClass, boolean ignoreErrors)
throws SQLException {
Dao<T, ID> dao = DaoManager.createDao(connectionSource, dataClass);
return dropTable(dao, ignoreErrors);
} | java |
public static <T, ID> int dropTable(Dao<T, ID> dao, boolean ignoreErrors) throws SQLException {
ConnectionSource connectionSource = dao.getConnectionSource();
Class<T> dataClass = dao.getDataClass();
DatabaseType databaseType = connectionSource.getDatabaseType();
if (dao instanceof BaseDaoImpl<?, ?>) {
return doDropTable(databaseType, connectionSource, ((BaseDaoImpl<?, ?>) dao).getTableInfo(), ignoreErrors);
} else {
TableInfo<T, ID> tableInfo = new TableInfo<T, ID>(databaseType, dataClass);
return doDropTable(databaseType, connectionSource, tableInfo, ignoreErrors);
}
} | java |
public static <T, ID> int dropTable(ConnectionSource connectionSource, DatabaseTableConfig<T> tableConfig,
boolean ignoreErrors) throws SQLException {
DatabaseType databaseType = connectionSource.getDatabaseType();
Dao<T, ID> dao = DaoManager.createDao(connectionSource, tableConfig);
if (dao instanceof BaseDaoImpl<?, ?>) {
return doDropTable(databaseType, connectionSource, ((BaseDaoImpl<?, ?>) dao).getTableInfo(), ignoreErrors);
} else {
tableConfig.extractFieldTypes(databaseType);
TableInfo<T, ID> tableInfo = new TableInfo<T, ID>(databaseType, tableConfig);
return doDropTable(databaseType, connectionSource, tableInfo, ignoreErrors);
}
} | java |
private static <T, ID> void addDropTableStatements(DatabaseType databaseType, TableInfo<T, ID> tableInfo,
List<String> statements, boolean logDetails) {
List<String> statementsBefore = new ArrayList<String>();
List<String> statementsAfter = new ArrayList<String>();
for (FieldType fieldType : tableInfo.getFieldTypes()) {
databaseType.dropColumnArg(fieldType, statementsBefore, statementsAfter);
}
StringBuilder sb = new StringBuilder(64);
if (logDetails) {
logger.info("dropping table '{}'", tableInfo.getTableName());
}
sb.append("DROP TABLE ");
databaseType.appendEscapedEntityName(sb, tableInfo.getTableName());
sb.append(' ');
statements.addAll(statementsBefore);
statements.add(sb.toString());
statements.addAll(statementsAfter);
} | java |
private static <T, ID> void addCreateTableStatements(DatabaseType databaseType, TableInfo<T, ID> tableInfo,
List<String> statements, List<String> queriesAfter, boolean ifNotExists, boolean logDetails)
throws SQLException {
StringBuilder sb = new StringBuilder(256);
if (logDetails) {
logger.info("creating table '{}'", tableInfo.getTableName());
}
sb.append("CREATE TABLE ");
if (ifNotExists && databaseType.isCreateIfNotExistsSupported()) {
sb.append("IF NOT EXISTS ");
}
databaseType.appendEscapedEntityName(sb, tableInfo.getTableName());
sb.append(" (");
List<String> additionalArgs = new ArrayList<String>();
List<String> statementsBefore = new ArrayList<String>();
List<String> statementsAfter = new ArrayList<String>();
// our statement will be set here later
boolean first = true;
for (FieldType fieldType : tableInfo.getFieldTypes()) {
// skip foreign collections
if (fieldType.isForeignCollection()) {
continue;
} else if (first) {
first = false;
} else {
sb.append(", ");
}
String columnDefinition = fieldType.getColumnDefinition();
if (columnDefinition == null) {
// we have to call back to the database type for the specific create syntax
databaseType.appendColumnArg(tableInfo.getTableName(), sb, fieldType, additionalArgs, statementsBefore,
statementsAfter, queriesAfter);
} else {
// hand defined field
databaseType.appendEscapedEntityName(sb, fieldType.getColumnName());
sb.append(' ').append(columnDefinition).append(' ');
}
}
// add any sql that sets any primary key fields
databaseType.addPrimaryKeySql(tableInfo.getFieldTypes(), additionalArgs, statementsBefore, statementsAfter,
queriesAfter);
// add any sql that sets any unique fields
databaseType.addUniqueComboSql(tableInfo.getFieldTypes(), additionalArgs, statementsBefore, statementsAfter,
queriesAfter);
for (String arg : additionalArgs) {
// we will have spat out one argument already so we don't have to do the first dance
sb.append(", ").append(arg);
}
sb.append(") ");
databaseType.appendCreateTableSuffix(sb);
statements.addAll(statementsBefore);
statements.add(sb.toString());
statements.addAll(statementsAfter);
addCreateIndexStatements(databaseType, tableInfo, statements, ifNotExists, false, logDetails);
addCreateIndexStatements(databaseType, tableInfo, statements, ifNotExists, true, logDetails);
} | java |
public void assignField(ConnectionSource connectionSource, Object data, Object val, boolean parentObject,
ObjectCache objectCache) throws SQLException {
if (logger.isLevelEnabled(Level.TRACE)) {
logger.trace("assiging from data {}, val {}: {}", (data == null ? "null" : data.getClass()),
(val == null ? "null" : val.getClass()), val);
}
// if this is a foreign object then val is the foreign object's id val
if (foreignRefField != null && val != null) {
// get the current field value which is the foreign-id
Object foreignRef = extractJavaFieldValue(data);
/*
* See if we don't need to create a new foreign object. If we are refreshing and the id field has not
* changed then there is no need to create a new foreign object and maybe lose previously refreshed field
* information.
*/
if (foreignRef != null && foreignRef.equals(val)) {
return;
}
// awhitlock: raised as OrmLite issue: bug #122
Object cachedVal;
ObjectCache foreignCache = foreignDao.getObjectCache();
if (foreignCache == null) {
cachedVal = null;
} else {
cachedVal = foreignCache.get(getType(), val);
}
if (cachedVal != null) {
val = cachedVal;
} else if (!parentObject) {
// the value we are to assign to our field is now the foreign object itself
val = createForeignObject(connectionSource, val, objectCache);
}
}
if (fieldSetMethod == null) {
try {
field.set(data, val);
} catch (IllegalArgumentException e) {
if (val == null) {
throw SqlExceptionUtil.create("Could not assign object '" + val + "' to field " + this, e);
} else {
throw SqlExceptionUtil.create(
"Could not assign object '" + val + "' of type " + val.getClass() + " to field " + this, e);
}
} catch (IllegalAccessException e) {
throw SqlExceptionUtil.create(
"Could not assign object '" + val + "' of type " + val.getClass() + "' to field " + this, e);
}
} else {
try {
fieldSetMethod.invoke(data, val);
} catch (Exception e) {
throw SqlExceptionUtil
.create("Could not call " + fieldSetMethod + " on object with '" + val + "' for " + this, e);
}
}
} | java |
public Object assignIdValue(ConnectionSource connectionSource, Object data, Number val, ObjectCache objectCache)
throws SQLException {
Object idVal = dataPersister.convertIdNumber(val);
if (idVal == null) {
throw new SQLException("Invalid class " + dataPersister + " for sequence-id " + this);
} else {
assignField(connectionSource, data, idVal, false, objectCache);
return idVal;
}
} | java |
public <FV> FV extractRawJavaFieldValue(Object object) throws SQLException {
Object val;
if (fieldGetMethod == null) {
try {
// field object may not be a T yet
val = field.get(object);
} catch (Exception e) {
throw SqlExceptionUtil.create("Could not get field value for " + this, e);
}
} else {
try {
val = fieldGetMethod.invoke(object);
} catch (Exception e) {
throw SqlExceptionUtil.create("Could not call " + fieldGetMethod + " for " + this, e);
}
}
@SuppressWarnings("unchecked")
FV converted = (FV) val;
return converted;
} | java |
public Object extractJavaFieldValue(Object object) throws SQLException {
Object val = extractRawJavaFieldValue(object);
// if this is a foreign object then we want its reference field
if (foreignRefField != null && val != null) {
val = foreignRefField.extractRawJavaFieldValue(val);
}
return val;
} | java |
public Object convertJavaFieldToSqlArgValue(Object fieldVal) throws SQLException {
/*
* Limitation here. Some people may want to override the null with their own value in the converter but we
* currently don't allow that. Specifying a default value I guess is a better mechanism.
*/
if (fieldVal == null) {
return null;
} else {
return fieldConverter.javaToSqlArg(this, fieldVal);
}
} | java |
public Object convertStringToJavaField(String value, int columnPos) throws SQLException {
if (value == null) {
return null;
} else {
return fieldConverter.resultStringToJava(this, value, columnPos);
}
} | java |
public Object moveToNextValue(Object val) throws SQLException {
if (dataPersister == null) {
return null;
} else {
return dataPersister.moveToNextValue(val);
}
} | java |
public <FT, FID> BaseForeignCollection<FT, FID> buildForeignCollection(Object parent, FID id) throws SQLException {
// this can happen if we have a foreign-auto-refresh scenario
if (foreignFieldType == null) {
return null;
}
@SuppressWarnings("unchecked")
Dao<FT, FID> castDao = (Dao<FT, FID>) foreignDao;
if (!fieldConfig.isForeignCollectionEager()) {
// we know this won't go recursive so no need for the counters
return new LazyForeignCollection<FT, FID>(castDao, parent, id, foreignFieldType,
fieldConfig.getForeignCollectionOrderColumnName(), fieldConfig.isForeignCollectionOrderAscending());
}
// try not to create level counter objects unless we have to
LevelCounters levelCounters = threadLevelCounters.get();
if (levelCounters == null) {
if (fieldConfig.getForeignCollectionMaxEagerLevel() == 0) {
// then return a lazy collection instead
return new LazyForeignCollection<FT, FID>(castDao, parent, id, foreignFieldType,
fieldConfig.getForeignCollectionOrderColumnName(),
fieldConfig.isForeignCollectionOrderAscending());
}
levelCounters = new LevelCounters();
threadLevelCounters.set(levelCounters);
}
if (levelCounters.foreignCollectionLevel == 0) {
levelCounters.foreignCollectionLevelMax = fieldConfig.getForeignCollectionMaxEagerLevel();
}
// are we over our level limit?
if (levelCounters.foreignCollectionLevel >= levelCounters.foreignCollectionLevelMax) {
// then return a lazy collection instead
return new LazyForeignCollection<FT, FID>(castDao, parent, id, foreignFieldType,
fieldConfig.getForeignCollectionOrderColumnName(), fieldConfig.isForeignCollectionOrderAscending());
}
levelCounters.foreignCollectionLevel++;
try {
return new EagerForeignCollection<FT, FID>(castDao, parent, id, foreignFieldType,
fieldConfig.getForeignCollectionOrderColumnName(), fieldConfig.isForeignCollectionOrderAscending());
} finally {
levelCounters.foreignCollectionLevel--;
}
} | java |
public <FV> FV getFieldValueIfNotDefault(Object object) throws SQLException {
@SuppressWarnings("unchecked")
FV fieldValue = (FV) extractJavaFieldValue(object);
if (isFieldValueDefault(fieldValue)) {
return null;
} else {
return fieldValue;
}
} | java |
public boolean isObjectsFieldValueDefault(Object object) throws SQLException {
Object fieldValue = extractJavaFieldValue(object);
return isFieldValueDefault(fieldValue);
} | java |
public Object getJavaDefaultValueDefault() {
if (field.getType() == boolean.class) {
return DEFAULT_VALUE_BOOLEAN;
} else if (field.getType() == byte.class || field.getType() == Byte.class) {
return DEFAULT_VALUE_BYTE;
} else if (field.getType() == char.class || field.getType() == Character.class) {
return DEFAULT_VALUE_CHAR;
} else if (field.getType() == short.class || field.getType() == Short.class) {
return DEFAULT_VALUE_SHORT;
} else if (field.getType() == int.class || field.getType() == Integer.class) {
return DEFAULT_VALUE_INT;
} else if (field.getType() == long.class || field.getType() == Long.class) {
return DEFAULT_VALUE_LONG;
} else if (field.getType() == float.class || field.getType() == Float.class) {
return DEFAULT_VALUE_FLOAT;
} else if (field.getType() == double.class || field.getType() == Double.class) {
return DEFAULT_VALUE_DOUBLE;
} else {
return null;
}
} | java |
private <FT, FID> FT createForeignShell(ConnectionSource connectionSource, Object val, ObjectCache objectCache)
throws SQLException {
@SuppressWarnings("unchecked")
Dao<FT, FID> castDao = (Dao<FT, FID>) foreignDao;
FT foreignObject = castDao.createObjectInstance();
foreignIdField.assignField(connectionSource, foreignObject, val, false, objectCache);
return foreignObject;
} | java |
private FieldType findForeignFieldType(Class<?> clazz, Class<?> foreignClass, Dao<?, ?> foreignDao)
throws SQLException {
String foreignColumnName = fieldConfig.getForeignCollectionForeignFieldName();
for (FieldType fieldType : foreignDao.getTableInfo().getFieldTypes()) {
if (fieldType.getType() == foreignClass
&& (foreignColumnName == null || fieldType.getField().getName().equals(foreignColumnName))) {
if (!fieldType.fieldConfig.isForeign() && !fieldType.fieldConfig.isForeignAutoRefresh()) {
// this may never be reached
throw new SQLException("Foreign collection object " + clazz + " for field '" + field.getName()
+ "' contains a field of class " + foreignClass + " but it's not foreign");
}
return fieldType;
}
}
// build our complex error message
StringBuilder sb = new StringBuilder();
sb.append("Foreign collection class ").append(clazz.getName());
sb.append(" for field '").append(field.getName()).append("' column-name does not contain a foreign field");
if (foreignColumnName != null) {
sb.append(" named '").append(foreignColumnName).append('\'');
}
sb.append(" of class ").append(foreignClass.getName());
throw new SQLException(sb.toString());
} | java |
public T execute(DatabaseConnection databaseConnection, ID id, ObjectCache objectCache) throws SQLException {
if (objectCache != null) {
T result = objectCache.get(clazz, id);
if (result != null) {
return result;
}
}
Object[] args = new Object[] { convertIdToFieldObject(id) };
// @SuppressWarnings("unchecked")
Object result = databaseConnection.queryForOne(statement, args, argFieldTypes, this, objectCache);
if (result == null) {
logger.debug("{} using '{}' and {} args, got no results", label, statement, args.length);
} else if (result == DatabaseConnection.MORE_THAN_ONE) {
logger.error("{} using '{}' and {} args, got >1 results", label, statement, args.length);
logArgs(args);
throw new SQLException(label + " got more than 1 result: " + statement);
} else {
logger.debug("{} using '{}' and {} args, got 1 result", label, statement, args.length);
}
logArgs(args);
@SuppressWarnings("unchecked")
T castResult = (T) result;
return castResult;
} | java |
protected void appendStringType(StringBuilder sb, FieldType fieldType, int fieldWidth) {
if (isVarcharFieldWidthSupported()) {
sb.append("VARCHAR(").append(fieldWidth).append(')');
} else {
sb.append("VARCHAR");
}
} | java |
private void appendDefaultValue(StringBuilder sb, FieldType fieldType, Object defaultValue) {
if (fieldType.isEscapedDefaultValue()) {
appendEscapedWord(sb, defaultValue.toString());
} else {
sb.append(defaultValue);
}
} | java |
private void addSingleUnique(StringBuilder sb, FieldType fieldType, List<String> additionalArgs,
List<String> statementsAfter) {
StringBuilder alterSb = new StringBuilder();
alterSb.append(" UNIQUE (");
appendEscapedEntityName(alterSb, fieldType.getColumnName());
alterSb.append(')');
additionalArgs.add(alterSb.toString());
} | java |
public static void registerDataPersisters(DataPersister... dataPersisters) {
// we build the map and replace it to lower the chance of concurrency issues
List<DataPersister> newList = new ArrayList<DataPersister>();
if (registeredPersisters != null) {
newList.addAll(registeredPersisters);
}
for (DataPersister persister : dataPersisters) {
newList.add(persister);
}
registeredPersisters = newList;
} | java |
public static DataPersister lookupForField(Field field) {
// see if the any of the registered persisters are valid first
if (registeredPersisters != null) {
for (DataPersister persister : registeredPersisters) {
if (persister.isValidForField(field)) {
return persister;
}
// check the classes instead
for (Class<?> clazz : persister.getAssociatedClasses()) {
if (field.getType() == clazz) {
return persister;
}
}
}
}
// look it up in our built-in map by class
DataPersister dataPersister = builtInMap.get(field.getType().getName());
if (dataPersister != null) {
return dataPersister;
}
/*
* Special case for enum types. We can't put this in the registered persisters because we want people to be able
* to override it.
*/
if (field.getType().isEnum()) {
return DEFAULT_ENUM_PERSISTER;
} else {
/*
* Serializable classes return null here because we don't want them to be automatically configured for
* forwards compatibility with future field types that happen to be Serializable.
*/
return null;
}
} | java |
public int update(DatabaseConnection databaseConnection, T data, ObjectCache objectCache) throws SQLException {
try {
// there is always and id field as an argument so just return 0 lines updated
if (argFieldTypes.length <= 1) {
return 0;
}
Object[] args = getFieldObjects(data);
Object newVersion = null;
if (versionFieldType != null) {
newVersion = versionFieldType.extractJavaFieldValue(data);
newVersion = versionFieldType.moveToNextValue(newVersion);
args[versionFieldTypeIndex] = versionFieldType.convertJavaFieldToSqlArgValue(newVersion);
}
int rowC = databaseConnection.update(statement, args, argFieldTypes);
if (rowC > 0) {
if (newVersion != null) {
// if we have updated a row then update the version field in our object to the new value
versionFieldType.assignField(connectionSource, data, newVersion, false, null);
}
if (objectCache != null) {
// if we've changed something then see if we need to update our cache
Object id = idField.extractJavaFieldValue(data);
T cachedData = objectCache.get(clazz, id);
if (cachedData != null && cachedData != data) {
// copy each field from the updated data into the cached object
for (FieldType fieldType : tableInfo.getFieldTypes()) {
if (fieldType != idField) {
fieldType.assignField(connectionSource, cachedData,
fieldType.extractJavaFieldValue(data), false, objectCache);
}
}
}
}
}
logger.debug("update data with statement '{}' and {} args, changed {} rows", statement, args.length, rowC);
if (args.length > 0) {
// need to do the (Object) cast to force args to be a single object
logger.trace("update arguments: {}", (Object) args);
}
return rowC;
} catch (SQLException e) {
throw SqlExceptionUtil.create("Unable to run update stmt on object " + data + ": " + statement, e);
}
} | java |
protected Object[] getFieldObjects(Object data) throws SQLException {
Object[] objects = new Object[argFieldTypes.length];
for (int i = 0; i < argFieldTypes.length; i++) {
FieldType fieldType = argFieldTypes[i];
if (fieldType.isAllowGeneratedIdInsert()) {
objects[i] = fieldType.getFieldValueIfNotDefault(data);
} else {
objects[i] = fieldType.extractJavaFieldToSqlArgValue(data);
}
if (objects[i] == null) {
// NOTE: the default value could be null as well
objects[i] = fieldType.getDefaultValue();
}
}
return objects;
} | java |
private CompiledStatement assignStatementArguments(CompiledStatement stmt) throws SQLException {
boolean ok = false;
try {
if (limit != null) {
// we use this if SQL statement LIMITs are not supported by this database type
stmt.setMaxRows(limit.intValue());
}
// set any arguments if we are logging our object
Object[] argValues = null;
if (logger.isLevelEnabled(Level.TRACE) && argHolders.length > 0) {
argValues = new Object[argHolders.length];
}
for (int i = 0; i < argHolders.length; i++) {
Object argValue = argHolders[i].getSqlArgValue();
FieldType fieldType = argFieldTypes[i];
SqlType sqlType;
if (fieldType == null) {
sqlType = argHolders[i].getSqlType();
} else {
sqlType = fieldType.getSqlType();
}
stmt.setObject(i, argValue, sqlType);
if (argValues != null) {
argValues[i] = argValue;
}
}
logger.debug("prepared statement '{}' with {} args", statement, argHolders.length);
if (argValues != null) {
// need to do the (Object) cast to force args to be a single object
logger.trace("prepared statement arguments: {}", (Object) argValues);
}
ok = true;
return stmt;
} finally {
if (!ok) {
IOUtils.closeThrowSqlException(stmt, "statement");
}
}
} | java |
protected DatabaseConnection getSavedConnection() {
NestedConnection nested = specialConnection.get();
if (nested == null) {
return null;
} else {
return nested.connection;
}
} | java |
protected boolean isSavedConnection(DatabaseConnection connection) {
NestedConnection currentSaved = specialConnection.get();
if (currentSaved == null) {
return false;
} else if (currentSaved.connection == connection) {
// ignore the release when we have a saved connection
return true;
} else {
return false;
}
} | java |
protected boolean clearSpecial(DatabaseConnection connection, Logger logger) {
NestedConnection currentSaved = specialConnection.get();
boolean cleared = false;
if (connection == null) {
// ignored
} else if (currentSaved == null) {
logger.error("no connection has been saved when clear() called");
} else if (currentSaved.connection == connection) {
if (currentSaved.decrementAndGet() == 0) {
// we only clear the connection if nested counter is 0
specialConnection.set(null);
}
cleared = true;
} else {
logger.error("connection saved {} is not the one being cleared {}", currentSaved.connection, connection);
}
// release should then be called after clear
return cleared;
} | java |
protected boolean isSingleConnection(DatabaseConnection conn1, DatabaseConnection conn2) throws SQLException {
// initialize the connections auto-commit flags
conn1.setAutoCommit(true);
conn2.setAutoCommit(true);
try {
// change conn1's auto-commit to be false
conn1.setAutoCommit(false);
if (conn2.isAutoCommit()) {
// if the 2nd connection's auto-commit is still true then we have multiple connections
return false;
} else {
// if the 2nd connection's auto-commit is also false then we have a single connection
return true;
}
} finally {
// restore its auto-commit
conn1.setAutoCommit(true);
}
} | java |
public static List<DatabaseTableConfig<?>> loadDatabaseConfigFromReader(BufferedReader reader) throws SQLException {
List<DatabaseTableConfig<?>> list = new ArrayList<DatabaseTableConfig<?>>();
while (true) {
DatabaseTableConfig<?> config = DatabaseTableConfigLoader.fromReader(reader);
if (config == null) {
break;
}
list.add(config);
}
return list;
} | java |
public static <T> DatabaseTableConfig<T> fromReader(BufferedReader reader) throws SQLException {
DatabaseTableConfig<T> config = new DatabaseTableConfig<T>();
boolean anything = false;
while (true) {
String line;
try {
line = reader.readLine();
} catch (IOException e) {
throw SqlExceptionUtil.create("Could not read DatabaseTableConfig from stream", e);
}
if (line == null) {
break;
}
// we do this so we can support multiple class configs per file
if (line.equals(CONFIG_FILE_END_MARKER)) {
break;
}
// we do this so we can support multiple class configs per file
if (line.equals(CONFIG_FILE_FIELDS_START)) {
readFields(reader, config);
continue;
}
// skip empty lines or comments
if (line.length() == 0 || line.startsWith("#") || line.equals(CONFIG_FILE_START_MARKER)) {
continue;
}
String[] parts = line.split("=", -2);
if (parts.length != 2) {
throw new SQLException("DatabaseTableConfig reading from stream cannot parse line: " + line);
}
readTableField(config, parts[0], parts[1]);
anything = true;
}
// if we got any config lines then we return the config
if (anything) {
return config;
} else {
// otherwise we return null for none
return null;
}
} | java |
public static <T> void write(BufferedWriter writer, DatabaseTableConfig<T> config) throws SQLException {
try {
writeConfig(writer, config);
} catch (IOException e) {
throw SqlExceptionUtil.create("Could not write config to writer", e);
}
} | java |
private static <T> void writeConfig(BufferedWriter writer, DatabaseTableConfig<T> config) throws IOException,
SQLException {
writer.append(CONFIG_FILE_START_MARKER);
writer.newLine();
if (config.getDataClass() != null) {
writer.append(FIELD_NAME_DATA_CLASS).append('=').append(config.getDataClass().getName());
writer.newLine();
}
if (config.getTableName() != null) {
writer.append(FIELD_NAME_TABLE_NAME).append('=').append(config.getTableName());
writer.newLine();
}
writer.append(CONFIG_FILE_FIELDS_START);
writer.newLine();
if (config.getFieldConfigs() != null) {
for (DatabaseFieldConfig field : config.getFieldConfigs()) {
DatabaseFieldConfigLoader.write(writer, field, config.getTableName());
}
}
writer.append(CONFIG_FILE_FIELDS_END);
writer.newLine();
writer.append(CONFIG_FILE_END_MARKER);
writer.newLine();
} | java |
private static <T> void readTableField(DatabaseTableConfig<T> config, String field, String value) {
if (field.equals(FIELD_NAME_DATA_CLASS)) {
try {
@SuppressWarnings("unchecked")
Class<T> clazz = (Class<T>) Class.forName(value);
config.setDataClass(clazz);
} catch (ClassNotFoundException e) {
throw new IllegalArgumentException("Unknown class specified for dataClass: " + value);
}
} else if (field.equals(FIELD_NAME_TABLE_NAME)) {
config.setTableName(value);
}
} | java |
private static <T> void readFields(BufferedReader reader, DatabaseTableConfig<T> config) throws SQLException {
List<DatabaseFieldConfig> fields = new ArrayList<DatabaseFieldConfig>();
while (true) {
String line;
try {
line = reader.readLine();
} catch (IOException e) {
throw SqlExceptionUtil.create("Could not read next field from config file", e);
}
if (line == null || line.equals(CONFIG_FILE_FIELDS_END)) {
break;
}
DatabaseFieldConfig fieldConfig = DatabaseFieldConfigLoader.fromReader(reader);
if (fieldConfig == null) {
break;
}
fields.add(fieldConfig);
}
config.setFieldConfigs(fields);
} | java |
private Object readKey(
FieldDescriptor field,
JsonParser parser,
DeserializationContext context
) throws IOException {
if (parser.getCurrentToken() != JsonToken.FIELD_NAME) {
throw reportWrongToken(JsonToken.FIELD_NAME, context, "Expected FIELD_NAME token");
}
String fieldName = parser.getCurrentName();
switch (field.getJavaType()) {
case INT:
// lifted from StdDeserializer since there's no method to call
try {
return NumberInput.parseInt(fieldName.trim());
} catch (IllegalArgumentException iae) {
Number number = (Number) context.handleWeirdStringValue(
_valueClass,
fieldName.trim(),
"not a valid int value"
);
return number == null ? 0 : number.intValue();
}
case LONG:
// lifted from StdDeserializer since there's no method to call
try {
return NumberInput.parseLong(fieldName.trim());
} catch (IllegalArgumentException iae) {
Number number = (Number) context.handleWeirdStringValue(
_valueClass,
fieldName.trim(),
"not a valid long value"
);
return number == null ? 0L : number.longValue();
}
case BOOLEAN:
// lifted from StdDeserializer since there's no method to call
String text = fieldName.trim();
if ("true".equals(text) || "True".equals(text)) {
return true;
}
if ("false".equals(text) || "False".equals(text)) {
return false;
}
Boolean b = (Boolean) context.handleWeirdStringValue(
_valueClass,
text,
"only \"true\" or \"false\" recognized"
);
return Boolean.TRUE.equals(b);
case STRING:
return fieldName;
case ENUM:
EnumValueDescriptor enumValueDescriptor = field.getEnumType().findValueByName(parser.getText());
if (enumValueDescriptor == null && !ignorableEnum(parser.getText().trim(), context)) {
throw context.weirdStringException(parser.getText(), field.getEnumType().getClass(),
"value not one of declared Enum instance names");
}
return enumValueDescriptor;
default:
throw new IllegalArgumentException("Unexpected map key type: " + field.getJavaType());
}
} | java |
public static void populateSubject(final LinkedHashMap<String, CommonProfile> profiles) {
if (profiles != null && profiles.size() > 0) {
final List<CommonProfile> listProfiles = ProfileHelper.flatIntoAProfileList(profiles);
try {
if (IS_FULLY_AUTHENTICATED_AUTHORIZER.isAuthorized(null, listProfiles)) {
SecurityUtils.getSubject().login(new Pac4jToken(listProfiles, false));
} else if (IS_REMEMBERED_AUTHORIZER.isAuthorized(null, listProfiles)) {
SecurityUtils.getSubject().login(new Pac4jToken(listProfiles, true));
}
} catch (final HttpAction e) {
throw new TechnicalException(e);
}
}
} | java |
@Override
public String getName() {
CommonProfile profile = this.getProfile();
if(null == principalNameAttribute) {
return profile.getId();
}
Object attrValue = profile.getAttribute(principalNameAttribute);
return (null == attrValue) ? null : String.valueOf(attrValue);
} | java |
public static void showBooks(final ListOfBooks booksList){
if(booksList != null && booksList.getBook() != null && !booksList.getBook().isEmpty()){
List<BookType> books = booksList.getBook();
System.out.println("\nNumber of books: " + books.size());
int cnt = 0;
for (BookType book : books) {
System.out.println("\nBookNum: " + (cnt++ + 1));
List<PersonType> authors = book.getAuthor();
if(authors != null && !authors.isEmpty()){
for (PersonType author : authors) {
System.out.println("Author: " + author.getFirstName() +
" " + author.getLastName());
}
}
System.out.println("Title: " + book.getTitle());
System.out.println("Year: " + book.getYearPublished());
if(book.getISBN()!=null){
System.out.println("ISBN: " + book.getISBN());
}
}
}else{
System.out.println("List of books is empty");
}
System.out.println("");
} | java |
public void contextInitialized(ServletContextEvent event) {
this.context = event.getServletContext();
// Output a simple message to the server's console
System.out.println("The Simple Web App. Is Ready");
ClassPathXmlApplicationContext context = new ClassPathXmlApplicationContext(
"/client.xml");
LocatorService client = (LocatorService) context
.getBean("locatorService");
String serviceHost = this.context.getInitParameter("serviceHost");
try {
client.registerEndpoint(new QName(
"http://talend.org/esb/examples/", "GreeterService"),
serviceHost, BindingType.SOAP_11, TransportType.HTTP, null);
} catch (InterruptedExceptionFault e) {
e.printStackTrace();
} catch (ServiceLocatorFault e) {
e.printStackTrace();
}
} | java |
private void serializeEPR(EndpointReferenceType wsAddr, Node parent) throws ServiceLocatorException {
try {
JAXBElement<EndpointReferenceType> ep =
WSA_OBJECT_FACTORY.createEndpointReference(wsAddr);
createMarshaller().marshal(ep, parent);
} catch (JAXBException e) {
if (LOG.isLoggable(Level.SEVERE)) {
LOG.log(Level.SEVERE,
"Failed to serialize endpoint data", e);
}
throw new ServiceLocatorException("Failed to serialize endpoint data", e);
}
} | java |
private static EndpointReferenceType createEPR(String address, SLProperties props) {
EndpointReferenceType epr = WSAEndpointReferenceUtils.getEndpointReference(address);
if (props != null) {
addProperties(epr, props);
}
return epr;
} | java |
private static EndpointReferenceType createEPR(Server server, String address, SLProperties props) {
EndpointReferenceType sourceEPR = server.getEndpoint().getEndpointInfo().getTarget();
EndpointReferenceType targetEPR = WSAEndpointReferenceUtils.duplicate(sourceEPR);
WSAEndpointReferenceUtils.setAddress(targetEPR, address);
if (props != null) {
addProperties(targetEPR, props);
}
return targetEPR;
} | java |
private static void addProperties(EndpointReferenceType epr, SLProperties props) {
MetadataType metadata = WSAEndpointReferenceUtils.getSetMetadata(epr);
ServiceLocatorPropertiesType jaxbProps = SLPropertiesConverter.toServiceLocatorPropertiesType(props);
JAXBElement<ServiceLocatorPropertiesType>
slp = SL_OBJECT_FACTORY.createServiceLocatorProperties(jaxbProps);
metadata.getAny().add(slp);
} | java |
private static QName getServiceName(Server server) {
QName serviceName;
String bindingId = getBindingId(server);
EndpointInfo eInfo = server.getEndpoint().getEndpointInfo();
if (JAXRS_BINDING_ID.equals(bindingId)) {
serviceName = eInfo.getName();
} else {
ServiceInfo serviceInfo = eInfo.getService();
serviceName = serviceInfo.getName();
}
return serviceName;
} | java |
private static String getBindingId(Server server) {
Endpoint ep = server.getEndpoint();
BindingInfo bi = ep.getBinding().getBindingInfo();
return bi.getBindingId();
} | java |
private static BindingType map2BindingType(String bindingId) {
BindingType type;
if (SOAP11_BINDING_ID.equals(bindingId)) {
type = BindingType.SOAP11;
} else if (SOAP12_BINDING_ID.equals(bindingId)) {
type = BindingType.SOAP12;
} else if (JAXRS_BINDING_ID.equals(bindingId)) {
type = BindingType.JAXRS;
} else {
type = BindingType.OTHER;
}
return type;
} | java |
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