//////////////////////////////////////////////////////////////////////////////// // // Licensed to the Apache Software Foundation (ASF) under one or more // contributor license agreements. See the NOTICE file distributed with // this work for additional information regarding copyright ownership. // The ASF licenses this file to You under the Apache License, Version 2.0 // (the "License"); you may not use this file except in compliance with // the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // //////////////////////////////////////////////////////////////////////////////// package flashx.textLayout.operations { import flashx.textLayout.edit.SelectionState; import flashx.textLayout.tlf_internal; import flashx.textLayout.elements.TextFlow; import flashx.textLayout.debug.assert; use namespace tlf_internal; /** * The CompositeOperation class encapsulates a group of transformations managed as a unit. * *
The CompositeOperation class provides a grouping mechanism for combining multiple FlowOperations * into a single atomic operation. Grouping operations allows them to be undone and redone as a unit. * For example, several single character inserts followed by several backspaces can be undone together as if * they were a single operation. Grouping also provides a mechanism for representing * complex operations. For example, a replace operation that modifies more than one text ranges * can be represented and managed as a single composite operation.
* *Note: It can be more efficient to merge individual atomic operations * rather than to combine separate operations into a group. For example, several sequential * character inserts can easily be represented as a single insert operation, * and undoing or redoing that single operation is more efficient than * undoing or redoing a group of insert operations.
* * @see flashx.textLayout.edit.EditManager * @see flashx.textLayout.events.FlowOperationEvent * * @playerversion Flash 10 * @playerversion AIR 1.5 * @langversion 3.0 */ public class CompositeOperation extends FlowOperation { private var _operations:Array; /** * Creates a CompositeOperation object. * * @param operations The operations to group. * * @playerversion Flash 10 * @playerversion AIR 1.5 * @langversion 3.0 */ public function CompositeOperation(operations:Array = null) { super(null); this.operations = operations; } /** @private */ override public function get textFlow():TextFlow { return _operations.length > 0 ? _operations[0].textFlow : null; } /** * An array containing the operations grouped by this composite operation. * * @playerversion Flash 10 * @playerversion AIR 1.5 * @langversion 3.0 */ public function get operations():Array { return _operations; } public function set operations(value:Array):void { _operations = value ? value.slice() : []; // make a copy } /** * Adds an additional operation to the end of the list. * *The new operation must operate on the same TextFlow object as * the other operations in the list.
* * @playerversion Flash 10 * @playerversion AIR 1.5 * @langversion 3.0 */ public function addOperation(operation:FlowOperation):void { // Can't handle operations from other TextFlows if (_operations.length > 0 && operation.textFlow != textFlow) return; CONFIG::debug { assert(_operations.length <= 0 || operation.beginGeneration == _operations[_operations.length - 1].endGeneration, "adding non-contiguous operation to composite operation"); } _operations.push(operation); } /** @private */ public override function doOperation():Boolean { // execute all the operations in order var success:Boolean = true; for (var i:int = 0; i < _operations.length; i++) success = success && FlowOperation(_operations[i]).doOperation(); // return selectionState from last operation return true; } /** @private */ public override function undo():SelectionState { // undo all the operations in reverse order var selState:SelectionState; for (var i:int = _operations.length - 1; i >= 0; i--) selState = FlowOperation(_operations[i]).undo(); // return selectionState from last performed // (i.e., the first in the set of operations) return selState; } /** @private */ public override function redo():SelectionState { // execute all the operations in order var selState:SelectionState; for (var i:int = 0; i < _operations.length; i++) selState = FlowOperation(_operations[i]).redo(); // return selectionState from last operation return selState; } /** @private */ public override function canUndo():Boolean { // All operations within the CompositeOperation must have matching generation numbers, and be undoable var undoable:Boolean = true; var generation:int = beginGeneration; var opCount:int = _operations.length; for (var i:int = 0; i < opCount && undoable; i++) { var op:FlowOperation = _operations[i]; if (op.beginGeneration != generation || !op.canUndo()) undoable = false; generation = op.endGeneration; } if (opCount > 0 && _operations[opCount - 1].endGeneration != endGeneration) undoable = false; return undoable; } /** @private */ tlf_internal override function merge(operation:FlowOperation):FlowOperation { if (operation is InsertTextOperation || operation is SplitParagraphOperation || operation is DeleteTextOperation) { if (this.endGeneration != operation.beginGeneration) return null; // For efficiency, try to combine the last low-level operation // with the new operation. If that's not possible, we just add it // as an additional operation. // Note that we are making various assumptions here about the technical // feasability and appropriateness of merging the individual operations (e.g., // that the selection hasn't changed), relying on SelectionManager to // guarantee that these are satisfied. var mergedOp:FlowOperation; var lastOp:FlowOperation = (_operations && _operations.length) ? FlowOperation(_operations[_operations.length - 1]) : null; if (lastOp) mergedOp = lastOp.merge(operation); if (mergedOp && !(mergedOp is CompositeOperation)) _operations[_operations.length - 1] = mergedOp; else _operations.push(operation); return this; } return null; } // /** // * Add an additional operation to the end of this operation. // * If the additional operation is itself a CompositeOperation, // * its child operations are just added to this operation's // * set of child operations. // * // * @param operation The operation to be merged. // * // */ // private function mergeOperationViaConcatenation(operation:FlowOperation):void // { // var compositeOp:CompositeOperation = operation as CompositeOperation; // if (compositeOp) // operations = operations.concat(compositeOp.operations); // else // operations.push(operation); // } } }