/** * INTERNAL: * Add a new Expression to the list of arguments. * This method will update the list of arguments and any constant strings that are required * to be printed with the arguments * @param argument */ @Override public synchronized void addChild(Expression argument){ if (hasLastChild != null && hasLastChild.booleanValue()){ getChildren().add(getChildren().size() - 1, argument); } else { super.addChild(argument); } setBaseExpression(getChildren().firstElement()); ((ListExpressionOperator)operator).incrementNumberOfItems(); }
/** * INTERNAL: * Add a new Expression to the list of arguments. * This method will update the list of arguments and any constant strings that are required * to be printed with the arguments * @param argument */ @Override public synchronized void addChild(Expression argument){ if (hasLastChild != null && hasLastChild.booleanValue()){ getChildren().add(getChildren().size() - 1, argument); } else { super.addChild(argument); } setBaseExpression((Expression)getChildren().firstElement()); ((ListExpressionOperator)operator).incrementNumberOfItems(); }
/** * INTERNAL: * Add a new Expression to the list of arguments. * This method will update the list of arguments and any constant strings that are required * to be printed with the arguments * @param argument */ @Override public synchronized void addChild(Expression argument){ if (hasLastChild != null && hasLastChild.booleanValue()){ getChildren().add(getChildren().size() - 1, argument); } else { super.addChild(argument); } setBaseExpression((Expression)getChildren().firstElement()); ((ListExpressionOperator)operator).incrementNumberOfItems(); }
/** * INTERNAL: * Add a child and ensure it is the rightmost in the tree as long as it * is in the tree * If there is already a node that is set as therightmost node, replace it * @param argument */ public synchronized void addRightMostChild(Expression argument){ if (hasLastChild != null && hasLastChild.booleanValue()){ getChildren().remove(super.getChildren().size() - 1); super.addChild(argument); } else { this.addChild(argument); } this.hasLastChild = Boolean.valueOf(true); }
/** * INTERNAL: * Add a child and ensure it is the rightmost in the tree as long as it * is in the tree * If there is already a node that is set as therightmost node, replace it * @param argument */ public synchronized void addRightMostChild(Expression argument){ if (hasLastChild != null && hasLastChild.booleanValue()){ getChildren().remove(super.getChildren().size() - 1); super.addChild(argument); } else { this.addChild(argument); } this.hasLastChild = Boolean.TRUE; }
/** * INTERNAL: * Add a child and ensure it is the rightmost in the tree as long as it * is in the tree * If there is already a node that is set as therightmost node, replace it * @param argument */ public synchronized void addRightMostChild(Expression argument){ if (hasLastChild != null && hasLastChild.booleanValue()){ getChildren().remove(super.getChildren().size() - 1); super.addChild(argument); } else { this.addChild(argument); } this.hasLastChild = Boolean.TRUE; }
/** * INTERNAL: * Print SQL */ public void printSQL(ExpressionSQLPrinter printer) { ListExpressionOperator platformOperator = (ListExpressionOperator)getPlatformOperator(printer.getPlatform()); platformOperator.copyTo(operator); operator.printCollection(getChildren(), printer); }
/** * INTERNAL: * Print SQL */ public void printSQL(ExpressionSQLPrinter printer) { ListExpressionOperator platformOperator = (ListExpressionOperator)getPlatformOperator(printer.getPlatform()); platformOperator.copyTo(operator); ((ListExpressionOperator)operator).setIsComplete(true); operator.printCollection(getChildren(), printer); }
/** * INTERNAL: * Print SQL */ public void printSQL(ExpressionSQLPrinter printer) { ListExpressionOperator platformOperator = (ListExpressionOperator)getPlatformOperator(printer.getPlatform()); platformOperator.copyTo(operator); ((ListExpressionOperator)operator).setIsComplete(true); operator.printCollection(getChildren(), printer); }