/** * Package: svedit.history * * Licensed under the MIT License * * Copyright(c) 2010 Jeff Schiller */ import {getHref, setHref, getRotationAngle} from 'svgutils.js'; import {removeElementFromListMap} from './svgtransformlist.js'; // Group: Undo/Redo history management export const HistoryEventTypes = { BEFORE_APPLY: 'before_apply', AFTER_APPLY: 'after_apply', BEFORE_UNAPPLY: 'before_unapply', AFTER_UNAPPLY: 'after_unapply' }; // const removedElements = {}; /** * An interface that all command objects must implement. * @typedef svgedit.history.HistoryCommand * @type {Object} * void apply(svgedit.history.HistoryEventHandler); * void unapply(svgedit.history.HistoryEventHandler); * Element[] elements(); * String getText(); * * static String type(); * } * * Interface: svgedit.history.HistoryEventHandler * An interface for objects that will handle history events. * * interface svgedit.history.HistoryEventHandler { * void handleHistoryEvent(eventType, command); * } * * eventType is a string conforming to one of the HistoryEvent types. * command is an object fulfilling the HistoryCommand interface. */ /** * @class svgedit.history.MoveElementCommand * @implements svgedit.history.HistoryCommand * History command for an element that had its DOM position changed * @param {Element} elem - The DOM element that was moved * @param {Element} oldNextSibling - The element's next sibling before it was moved * @param {Element} oldParent - The element's parent before it was moved * @param {string} [text] - An optional string visible to user related to this change */ export class MoveElementCommand { constructor (elem, oldNextSibling, oldParent, text) { this.elem = elem; this.text = text ? ('Move ' + elem.tagName + ' to ' + text) : ('Move ' + elem.tagName); this.oldNextSibling = oldNextSibling; this.oldParent = oldParent; this.newNextSibling = elem.nextSibling; this.newParent = elem.parentNode; } getText () { return this.text; } type () { return 'svgedit.history.MoveElementCommand'; } /** * Re-positions the element * @param {handleHistoryEvent: function} */ apply (handler) { // TODO(codedread): Refactor this common event code into a base HistoryCommand class. if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_APPLY, this); } this.elem = this.newParent.insertBefore(this.elem, this.newNextSibling); if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_APPLY, this); } } /** * Positions the element back to its original location * @param {handleHistoryEvent: function} */ unapply (handler) { if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_UNAPPLY, this); } this.elem = this.oldParent.insertBefore(this.elem, this.oldNextSibling); if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_UNAPPLY, this); } } // Returns array with element associated with this command elements () { return [this.elem]; } } MoveElementCommand.type = MoveElementCommand.prototype.type; // implements svgedit.history.HistoryCommand // History command for an element that was added to the DOM // // Parameters: // elem - The newly added DOM element // text - An optional string visible to user related to this change export class InsertElementCommand { constructor (elem, text) { this.elem = elem; this.text = text || ('Create ' + elem.tagName); this.parent = elem.parentNode; this.nextSibling = this.elem.nextSibling; } type () { return 'svgedit.history.InsertElementCommand'; }; getText () { return this.text; } // Re-Inserts the new element apply (handler) { if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_APPLY, this); } this.elem = this.parent.insertBefore(this.elem, this.nextSibling); if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_APPLY, this); } } // Removes the element unapply (handler) { if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_UNAPPLY, this); } this.parent = this.elem.parentNode; this.elem = this.elem.parentNode.removeChild(this.elem); if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_UNAPPLY, this); } } // Returns array with element associated with this command elements () { return [this.elem]; } } InsertElementCommand.type = InsertElementCommand.prototype.type; // implements svgedit.history.HistoryCommand // History command for an element removed from the DOM // // Parameters: // elem - The removed DOM element // oldNextSibling - the DOM element's nextSibling when it was in the DOM // oldParent - The DOM element's parent // text - An optional string visible to user related to this change export class RemoveElementCommand { constructor (elem, oldNextSibling, oldParent, text) { this.elem = elem; this.text = text || ('Delete ' + elem.tagName); this.nextSibling = oldNextSibling; this.parent = oldParent; // special hack for webkit: remove this element's entry in the svgTransformLists map removeElementFromListMap(elem); } type () { return 'svgedit.history.RemoveElementCommand'; } getText () { return this.text; } // Re-removes the new element apply (handler) { if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_APPLY, this); } removeElementFromListMap(this.elem); this.parent = this.elem.parentNode; this.elem = this.parent.removeChild(this.elem); if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_APPLY, this); } } // Re-adds the new element unapply (handler) { if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_UNAPPLY, this); } removeElementFromListMap(this.elem); if (this.nextSibling == null) { if (window.console) { console.log('Error: reference element was lost'); } } this.parent.insertBefore(this.elem, this.nextSibling); if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_UNAPPLY, this); } } // Function: RemoveElementCommand.elements // Returns array with element associated with this command elements () { return [this.elem]; } } RemoveElementCommand.type = RemoveElementCommand.prototype.type; // implements svgedit.history.HistoryCommand // History command to make a change to an element. // Usually an attribute change, but can also be textcontent. // // Parameters: // elem - The DOM element that was changed // attrs - An object with the attributes to be changed and the values they had *before* the change // text - An optional string visible to user related to this change export class ChangeElementCommand { constructor (elem, attrs, text) { this.elem = elem; this.text = text ? ('Change ' + elem.tagName + ' ' + text) : ('Change ' + elem.tagName); this.newValues = {}; this.oldValues = attrs; for (const attr in attrs) { if (attr === '#text') { this.newValues[attr] = elem.textContent; } else if (attr === '#href') { this.newValues[attr] = getHref(elem); } else { this.newValues[attr] = elem.getAttribute(attr); } } } type () { return 'svgedit.history.ChangeElementCommand'; }; getText () { return this.text; } // Performs the stored change action apply (handler) { if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_APPLY, this); } let bChangedTransform = false; for (const attr in this.newValues) { if (this.newValues[attr]) { if (attr === '#text') { this.elem.textContent = this.newValues[attr]; } else if (attr === '#href') { setHref(this.elem, this.newValues[attr]); } else { this.elem.setAttribute(attr, this.newValues[attr]); } } else { if (attr === '#text') { this.elem.textContent = ''; } else { this.elem.setAttribute(attr, ''); this.elem.removeAttribute(attr); } } if (attr === 'transform') { bChangedTransform = true; } } // relocate rotational transform, if necessary if (!bChangedTransform) { const angle = getRotationAngle(this.elem); if (angle) { const bbox = this.elem.getBBox(); const cx = bbox.x + bbox.width / 2, cy = bbox.y + bbox.height / 2; const rotate = ['rotate(', angle, ' ', cx, ',', cy, ')'].join(''); if (rotate !== this.elem.getAttribute('transform')) { this.elem.setAttribute('transform', rotate); } } } if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_APPLY, this); } return true; } // Reverses the stored change action unapply (handler) { if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_UNAPPLY, this); } let bChangedTransform = false; for (const attr in this.oldValues) { if (this.oldValues[attr]) { if (attr === '#text') { this.elem.textContent = this.oldValues[attr]; } else if (attr === '#href') { setHref(this.elem, this.oldValues[attr]); } else { this.elem.setAttribute(attr, this.oldValues[attr]); } } else { if (attr === '#text') { this.elem.textContent = ''; } else { this.elem.removeAttribute(attr); } } if (attr === 'transform') { bChangedTransform = true; } } // relocate rotational transform, if necessary if (!bChangedTransform) { const angle = getRotationAngle(this.elem); if (angle) { const bbox = this.elem.getBBox(); const cx = bbox.x + bbox.width / 2, cy = bbox.y + bbox.height / 2; const rotate = ['rotate(', angle, ' ', cx, ',', cy, ')'].join(''); if (rotate !== this.elem.getAttribute('transform')) { this.elem.setAttribute('transform', rotate); } } } // Remove transformlist to prevent confusion that causes bugs like 575. removeElementFromListMap(this.elem); if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_UNAPPLY, this); } return true; } // Returns array with element associated with this command elements () { return [this.elem]; } } ChangeElementCommand.type = ChangeElementCommand.prototype.type; // TODO: create a 'typing' command object that tracks changes in text // if a new Typing command is created and the top command on the stack is also a Typing // and they both affect the same element, then collapse the two commands into one // implements svgedit.history.HistoryCommand // History command that can contain/execute multiple other commands // // Parameters: // text - An optional string visible to user related to this change export class BatchCommand { constructor (text) { this.text = text || 'Batch Command'; this.stack = []; } type () { return 'svgedit.history.BatchCommand'; } getText () { return this.text; } // Runs "apply" on all subcommands apply (handler) { if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_APPLY, this); } const len = this.stack.length; for (let i = 0; i < len; ++i) { this.stack[i].apply(handler); } if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_APPLY, this); } } // Runs "unapply" on all subcommands unapply (handler) { if (handler) { handler.handleHistoryEvent(HistoryEventTypes.BEFORE_UNAPPLY, this); } for (let i = this.stack.length - 1; i >= 0; i--) { this.stack[i].unapply(handler); } if (handler) { handler.handleHistoryEvent(HistoryEventTypes.AFTER_UNAPPLY, this); } } // Iterate through all our subcommands and returns all the elements we are changing elements () { const elems = []; let cmd = this.stack.length; while (cmd--) { const thisElems = this.stack[cmd].elements(); let elem = thisElems.length; while (elem--) { if (!elems.includes(thisElems[elem])) { elems.push(thisElems[elem]); } } } return elems; } // Adds a given command to the history stack // // Parameters: // cmd - The undo command object to add addSubCommand (cmd) { this.stack.push(cmd); } // Returns a boolean indicating whether or not the batch command is empty isEmpty () { return !this.stack.length; } } BatchCommand.type = BatchCommand.prototype.type; // Parameters: // historyEventHandler - an object that conforms to the HistoryEventHandler interface // (see above) export class UndoManager { constructor (historyEventHandler) { this.handler_ = historyEventHandler || null; this.undoStackPointer = 0; this.undoStack = []; // this is the stack that stores the original values, the elements and // the attribute name for begin/finish this.undoChangeStackPointer = -1; this.undoableChangeStack = []; } // Resets the undo stack, effectively clearing the undo/redo history resetUndoStack () { this.undoStack = []; this.undoStackPointer = 0; } // Returns: // Integer with the current size of the undo history stack getUndoStackSize () { return this.undoStackPointer; } // Returns: // Integer with the current size of the redo history stack getRedoStackSize () { return this.undoStack.length - this.undoStackPointer; } // Returns: // String associated with the next undo command getNextUndoCommandText () { return this.undoStackPointer > 0 ? this.undoStack[this.undoStackPointer - 1].getText() : ''; } // Returns: // String associated with the next redo command getNextRedoCommandText () { return this.undoStackPointer < this.undoStack.length ? this.undoStack[this.undoStackPointer].getText() : ''; } // Performs an undo step undo () { if (this.undoStackPointer > 0) { const cmd = this.undoStack[--this.undoStackPointer]; cmd.unapply(this.handler_); } } // Performs a redo step redo () { if (this.undoStackPointer < this.undoStack.length && this.undoStack.length > 0) { const cmd = this.undoStack[this.undoStackPointer++]; cmd.apply(this.handler_); } } /** * Adds a command object to the undo history stack * @param cmd - The command object to add */ addCommandToHistory (cmd) { // FIXME: we MUST compress consecutive text changes to the same element // (right now each keystroke is saved as a separate command that includes the // entire text contents of the text element) // TODO: consider limiting the history that we store here (need to do some slicing) // if our stack pointer is not at the end, then we have to remove // all commands after the pointer and insert the new command if (this.undoStackPointer < this.undoStack.length && this.undoStack.length > 0) { this.undoStack = this.undoStack.splice(0, this.undoStackPointer); } this.undoStack.push(cmd); this.undoStackPointer = this.undoStack.length; } // This function tells the canvas to remember the old values of the // attrName attribute for each element sent in. The elements and values // are stored on a stack, so the next call to finishUndoableChange() will // pop the elements and old values off the stack, gets the current values // from the DOM and uses all of these to construct the undo-able command. // // Parameters: // attrName - The name of the attribute being changed // elems - Array of DOM elements being changed beginUndoableChange (attrName, elems) { const p = ++this.undoChangeStackPointer; let i = elems.length; const oldValues = new Array(i), elements = new Array(i); while (i--) { const elem = elems[i]; if (elem == null) { continue; } elements[i] = elem; oldValues[i] = elem.getAttribute(attrName); } this.undoableChangeStack[p] = { attrName, oldValues, elements }; } // This function returns a BatchCommand object which summarizes the // change since beginUndoableChange was called. The command can then // be added to the command history // // Returns: // Batch command object with resulting changes finishUndoableChange () { const p = this.undoChangeStackPointer--; const changeset = this.undoableChangeStack[p]; const {attrName} = changeset; const batchCmd = new BatchCommand('Change ' + attrName); let i = changeset.elements.length; while (i--) { const elem = changeset.elements[i]; if (elem == null) { continue; } const changes = {}; changes[attrName] = changeset.oldValues[i]; if (changes[attrName] !== elem.getAttribute(attrName)) { batchCmd.addSubCommand(new ChangeElementCommand(elem, changes, attrName)); } } this.undoableChangeStack[p] = null; return batchCmd; } }