/** * Checks to see if passed type is geometry. * * @param expressionType Type of expression for check. * @return Whether or not this is a geometry expression type. */ public static boolean isExpression(short expressionType) { return (isMathExpression(expressionType) || isAttributeExpression(expressionType) || isLiteralExpression(expressionType)) || isFunctionExpression(expressionType); }
readChars = true; LOGGER.finer("is literal expression"); } else if (DefaultExpression.isAttributeExpression(convertType)) { curExprssn = new AttributeExpressionImpl(schema); readChars = true;
/** * Checks to see if passed type is geometry. * * @param expressionType Type of expression for check. * * @return Whether or not this is a geometry expression type. */ protected static boolean isExpression(short expressionType) { return (isMathExpression(expressionType) || isAttributeExpression(expressionType) || isLiteralExpression(expressionType)) || isFunctionExpression(expressionType); }
/** * Checks to see if passed type is geometry. * * @param expressionType Type of expression for check. * * @return Whether or not this is a geometry expression type. */ protected static boolean isExpression(short expressionType) { return (isMathExpression(expressionType) || isAttributeExpression(expressionType) || isLiteralExpression(expressionType)) || isFunctionExpression(expressionType); }
readChars = true; LOGGER.finer("is literal expression"); } else if (DefaultExpression.isAttributeExpression(convertType( declaredType))) { curExprssn = ff.createAttributeExpression(schema);
readChars = true; LOGGER.finer("is literal expression"); } else if (DefaultExpression.isAttributeExpression(convertType( declaredType))) { curExprssn = ff.createAttributeExpression(schema);