if ( builder.getWhere() != null ) { for ( SQLArgument o : builder.getWhere().getArguments() ) { o.setArgument( stmt, i++ ); o.setArgument( stmt, i++ );
private SQLExpression toProtoSQL( Geometry geom, ICRS targetCRS, int srid ) throws FilterEvaluationException { return new SQLArgument( geom, new PostGISGeometryConverter( null, targetCRS, "" + srid, useLegacyPredicates ) ); } }
if ( builder.getWhere() != null ) { for ( SQLArgument o : builder.getWhere().getArguments() ) { o.setArgument( preparedStatement, i++ ); arguments.add( o.getValue() );
protected TypedObjectNode evaluateFunction( Function function, List<SQLExpression> params ) throws FilterEvaluationException { List<TypedObjectNode[]> args = new ArrayList<TypedObjectNode[]>(); for ( SQLExpression sqlExpr : params ) { SQLArgument sqlArg = (SQLArgument) sqlExpr; args.add( new TypedObjectNode[] { sqlArg.getValue() } ); } TypedObjectNode[] outputs = function.evaluate( args ); TypedObjectNode value = null; if ( outputs.length > 0 ) { // TODO should we support multiple values here? value = outputs[0]; } return value; }
if ( wb != null ) { for ( SQLArgument o : wb.getWhere().getArguments() ) { o.setArgument( stmt, i++ );
private SQLExpression toProtoSQL( Geometry geom, ICRS targetCRS, int srid ) { // always use is2d = true (else srid handling will not function properly in mssql) return new SQLArgument( geom, new MSSQLGeometryConverter( null, targetCRS, "" + srid, true ) ); } }
if ( builder.getWhere() != null ) { for ( SQLArgument o : builder.getWhere().getArguments() ) { o.setArgument( preparedStatement, i++ ); arguments.add( o.getValue() ); o.setArgument( preparedStatement, i++ ); arguments.add( o.getValue() );
if ( blobWb != null && blobWb.getWhere() != null ) { for ( SQLArgument o : blobWb.getWhere().getArguments() ) { o.setArgument( stmt, argIdx++ );
@Override protected SQLExpression toProtoSQL( Literal<?> literal ) throws UnmappableException, FilterEvaluationException { if ( literal.getValue().toString().equals( "true" ) || literal.getValue().toString().equals( "false" ) ) { PrimitiveType pt = new PrimitiveType( BOOLEAN ); PrimitiveValue value = new PrimitiveValue( literal.getValue().toString(), pt ); PrimitiveParticleConverter converter = new DefaultPrimitiveConverter( pt, null, false ); SQLArgument argument = new SQLArgument( value, converter ); return argument; } PrimitiveType pt = new PrimitiveType( BaseType.STRING ); PrimitiveValue value = new PrimitiveValue( literal.getValue().toString(), pt ); PrimitiveParticleConverter converter = new DefaultPrimitiveConverter( pt, null, false ); SQLArgument argument = new SQLArgument( value, converter ); return argument; } }
if ( wb.getWhere() != null ) { for ( SQLArgument argument : wb.getWhere().getArguments() ) { argument.setArgument( stm, i++ );
return new SQLArgument( (Geometry) value, null ); } else if ( value instanceof PrimitiveValue ) { return new SQLArgument( (PrimitiveValue) value, null ); } else { return new SQLArgument( (PrimitiveValue) null, null );
if ( wb.getWhere() != null ) { for ( SQLArgument o : wb.getWhere().getArguments() ) { o.setArgument( stmt, i++ );
/** * Translates the given {@link Literal} into an {@link SQLExpression}. * <p> * The returned literal does not have any type information. Literal types are inferred in * {@link #toProtoSQL(ComparisonOperator)}. * </p> * * @param literal * literal to be translated, must not be <code>null</code> * @return corresponding SQL expression, never <code>null</code> * @throws UnmappableException * if translation is not possible (usually due to unmappable property names) * @throws FilterEvaluationException * if the filter contains invalid {@link ValueReference}s */ protected SQLExpression toProtoSQL( Literal<?> literal ) throws UnmappableException, FilterEvaluationException { Object value = literal.getValue(); if ( value != null ) { if ( value instanceof PrimitiveValue ) { PrimitiveValue pv = (PrimitiveValue) value; return new SQLArgument( pv, null ); } else { throw new UnmappableException( "Only primitive valued literals are currently supported." ); } } PrimitiveParticleConverter converter = new DefaultPrimitiveConverter( new PrimitiveType( STRING ), null, false ); return new SQLArgument( null, converter ); }
lit.setArgument( stmt, i++ );
pt ); PrimitiveParticleConverter converter = new DefaultPrimitiveConverter( pt, null, false ); sql = new SQLArgument( value, converter ); } else { sql = new SQLColumn( propMapping.getTableAlias(), propMapping.getColumn(), propMapping.getConverter() );
if ( wb.getWhere() != null ) { for ( SQLArgument argument : wb.getWhere().getArguments() ) { argument.setArgument( stmt, i++ );
pt ); PrimitiveParticleConverter converter = new DefaultPrimitiveConverter( pt, null, false ); sql = new SQLArgument( value, converter ); } else { sql = new SQLColumn( propMapping.getTableAlias(), propMapping.getColumn(), propMapping.getConverter() );
if ( wb.getWhere() != null ) { for ( SQLArgument argument : wb.getWhere().getArguments() ) { argument.setArgument( stmt, i++ ); argument.setArgument( stmt, i++ );
PrimitiveValue value = new PrimitiveValue( sqlEncoded, pt ); PrimitiveParticleConverter converter = new DefaultPrimitiveConverter( pt, null, propName.isMultiValued() ); SQLArgument argument = new SQLArgument( value, converter ); builder.add( argument );
if ( wb != null ) { for ( SQLArgument o : wb.getWhere().getArguments() ) { o.setArgument( stmt, i++ );