/** * @license * Copyright 2011 Google LLC * SPDX-License-Identifier: Apache-2.0 */ /** * @fileoverview The class representing one block. * @author fraser@google.com (Neil Fraser) */ 'use strict'; goog.provide('Blockly.Block'); goog.require('Blockly.ASTNode'); goog.require('Blockly.Blocks'); goog.require('Blockly.Connection'); goog.require('Blockly.connectionTypes'); /** @suppress {extraRequire} */ goog.require('Blockly.constants'); goog.require('Blockly.Events'); /** @suppress {extraRequire} */ goog.require('Blockly.Events.BlockChange'); /** @suppress {extraRequire} */ goog.require('Blockly.Events.BlockCreate'); /** @suppress {extraRequire} */ goog.require('Blockly.Events.BlockDelete'); /** @suppress {extraRequire} */ goog.require('Blockly.Events.BlockMove'); goog.require('Blockly.Extensions'); goog.require('Blockly.fieldRegistry'); goog.require('Blockly.IASTNodeLocation'); goog.require('Blockly.IDeletable'); goog.require('Blockly.Input'); goog.require('Blockly.inputTypes'); goog.require('Blockly.Tooltip'); goog.require('Blockly.utils'); goog.require('Blockly.utils.Coordinate'); goog.require('Blockly.utils.object'); goog.require('Blockly.utils.Size'); goog.require('Blockly.Workspace'); goog.requireType('Blockly.Comment'); goog.requireType('Blockly.Events.Abstract'); goog.requireType('Blockly.Field'); goog.requireType('Blockly.Mutator'); goog.requireType('Blockly.utils.Size'); goog.requireType('Blockly.VariableModel'); /** * Class for one block. * Not normally called directly, workspace.newBlock() is preferred. * @param {!Blockly.Workspace} workspace The block's workspace. * @param {!string} prototypeName Name of the language object containing * type-specific functions for this block. * @param {string=} opt_id Optional ID. Use this ID if provided, otherwise * create a new ID. * @constructor * @implements {Blockly.IASTNodeLocation} * @implements {Blockly.IDeletable} * @throws When the prototypeName is not valid or not allowed. */ Blockly.Block = function(workspace, prototypeName, opt_id) { if (Blockly.Generator && typeof Blockly.Generator.prototype[prototypeName] != 'undefined') { // Occluding Generator class members is not allowed. throw Error('Block prototypeName "' + prototypeName + '" conflicts with Blockly.Generator members.'); } /** @type {string} */ this.id = (opt_id && !workspace.getBlockById(opt_id)) ? opt_id : Blockly.utils.genUid(); workspace.setBlockById(this.id, this); /** @type {Blockly.Connection} */ this.outputConnection = null; /** @type {Blockly.Connection} */ this.nextConnection = null; /** @type {Blockly.Connection} */ this.previousConnection = null; /** @type {!Array} */ this.inputList = []; /** @type {boolean|undefined} */ this.inputsInline = undefined; /** * @type {boolean} * @private */ this.disabled = false; /** @type {!Blockly.Tooltip.TipInfo} */ this.tooltip = ''; /** @type {boolean} */ this.contextMenu = true; /** * @type {Blockly.Block} * @protected */ this.parentBlock_ = null; /** * @type {!Array} * @protected */ this.childBlocks_ = []; /** * @type {boolean} * @private */ this.deletable_ = true; /** * @type {boolean} * @private */ this.movable_ = true; /** * @type {boolean} * @private */ this.editable_ = true; /** * @type {boolean} * @private */ this.isShadow_ = false; /** * @type {boolean} * @protected */ this.collapsed_ = false; /** * @type {?number} * @protected */ this.outputShape_ = null; /** * A string representing the comment attached to this block. * @type {string|Blockly.Comment} * @deprecated August 2019. Use getCommentText instead. */ this.comment = null; /** * A model of the comment attached to this block. * @type {!Blockly.Block.CommentModel} * @package */ this.commentModel = { text: null, pinned: false, size: new Blockly.utils.Size(160, 80) }; /** * The block's position in workspace units. (0, 0) is at the workspace's * origin; scale does not change this value. * @type {!Blockly.utils.Coordinate} * @private */ this.xy_ = new Blockly.utils.Coordinate(0, 0); /** @type {!Blockly.Workspace} */ this.workspace = workspace; /** @type {boolean} */ this.isInFlyout = workspace.isFlyout; /** @type {boolean} */ this.isInMutator = workspace.isMutator; /** @type {boolean} */ this.RTL = workspace.RTL; /** * True if this block is an insertion marker. * @type {boolean} * @protected */ this.isInsertionMarker_ = false; /** * Name of the type of hat. * @type {string|undefined} */ this.hat = undefined; /** @type {?boolean} */ this.rendered = null; /** * A count of statement inputs on the block. * @type {number} * @package */ this.statementInputCount = 0; // Copy the type-specific functions and data from the prototype. if (prototypeName) { /** @type {string} */ this.type = prototypeName; var prototype = Blockly.Blocks[prototypeName]; if (!prototype || typeof prototype != 'object') { throw TypeError('Unknown block type: ' + prototypeName); } Blockly.utils.object.mixin(this, prototype); } workspace.addTopBlock(this); workspace.addTypedBlock(this); // All events fired should be part of the same group. // Any events fired during init should not be undoable, // so that block creation is atomic. var existingGroup = Blockly.Events.getGroup(); if (!existingGroup) { Blockly.Events.setGroup(true); } var initialUndoFlag = Blockly.Events.recordUndo; try { // Call an initialization function, if it exists. if (typeof this.init == 'function') { Blockly.Events.recordUndo = false; this.init(); Blockly.Events.recordUndo = initialUndoFlag; } // Fire a create event. if (Blockly.Events.isEnabled()) { Blockly.Events.fire(new (Blockly.Events.get(Blockly.Events.BLOCK_CREATE))( this)); } } finally { if (!existingGroup) { Blockly.Events.setGroup(false); } // In case init threw, recordUndo flag should still be reset. Blockly.Events.recordUndo = initialUndoFlag; } // Record initial inline state. /** @type {boolean|undefined} */ this.inputsInlineDefault = this.inputsInline; // Bind an onchange function, if it exists. if (typeof this.onchange == 'function') { this.setOnChange(this.onchange); } }; /** * @typedef {{ * text:?string, * pinned:boolean, * size:Blockly.utils.Size * }} */ Blockly.Block.CommentModel; /** * The language-neutral ID given to the collapsed input. * @const {string} */ Blockly.Block.COLLAPSED_INPUT_NAME = Blockly.constants.COLLAPSED_INPUT_NAME; /** * The language-neutral ID given to the collapsed field. * @const {string} */ Blockly.Block.COLLAPSED_FIELD_NAME = Blockly.constants.COLLAPSED_FIELD_NAME; /** * Optional text data that round-trips between blocks and XML. * Has no effect. May be used by 3rd parties for meta information. * @type {?string} */ Blockly.Block.prototype.data = null; /** * Has this block been disposed of? * @type {boolean} * @package */ Blockly.Block.prototype.disposed = false; /** * Colour of the block as HSV hue value (0-360) * This may be null if the block colour was not set via a hue number. * @type {?number} * @private */ Blockly.Block.prototype.hue_ = null; /** * Colour of the block in '#RRGGBB' format. * @type {string} * @protected */ Blockly.Block.prototype.colour_ = '#000000'; /** * Name of the block style. * @type {string} * @protected */ Blockly.Block.prototype.styleName_ = ''; /** * An optional method called during initialization. * @type {?function()} */ Blockly.Block.prototype.init; /** * An optional callback method to use whenever the block's parent workspace * changes. This is usually only called from the constructor, the block type * initializer function, or an extension initializer function. * @type {?function(Blockly.Events.Abstract)} */ Blockly.Block.prototype.onchange; /** * An optional serialization method for defining how to serialize the * mutation state. This must be coupled with defining `domToMutation`. * @type {?function(...):!Element} */ Blockly.Block.prototype.mutationToDom; /** * An optional deserialization method for defining how to deserialize the * mutation state. This must be coupled with defining `mutationToDom`. * @type {?function(!Element)} */ Blockly.Block.prototype.domToMutation; /** * An optional property for suppressing adding STATEMENT_PREFIX and * STATEMENT_SUFFIX to generated code. * @type {?boolean} */ Blockly.Block.prototype.suppressPrefixSuffix; /** * An optional property for declaring developer variables. Return a list of * variable names for use by generators. Developer variables are never shown to * the user, but are declared as global variables in the generated code. * @type {?function():!Array} */ Blockly.Block.prototype.getDeveloperVariables; /** * Dispose of this block. * @param {boolean} healStack If true, then try to heal any gap by connecting * the next statement with the previous statement. Otherwise, dispose of * all children of this block. * @suppress {checkTypes} */ Blockly.Block.prototype.dispose = function(healStack) { if (!this.workspace) { // Already deleted. return; } // Terminate onchange event calls. if (this.onchangeWrapper_) { this.workspace.removeChangeListener(this.onchangeWrapper_); } this.unplug(healStack); if (Blockly.Events.isEnabled()) { Blockly.Events.fire(new (Blockly.Events.get(Blockly.Events.BLOCK_DELETE))( this)); } Blockly.Events.disable(); try { // This block is now at the top of the workspace. // Remove this block from the workspace's list of top-most blocks. if (this.workspace) { this.workspace.removeTopBlock(this); this.workspace.removeTypedBlock(this); // Remove from block database. this.workspace.removeBlockById(this.id); this.workspace = null; } // Just deleting this block from the DOM would result in a memory leak as // well as corruption of the connection database. Therefore we must // methodically step through the blocks and carefully disassemble them. if (Blockly.selected == this) { Blockly.selected = null; } // First, dispose of all my children. for (var i = this.childBlocks_.length - 1; i >= 0; i--) { this.childBlocks_[i].dispose(false); } // Then dispose of myself. // Dispose of all inputs and their fields. for (var i = 0, input; (input = this.inputList[i]); i++) { input.dispose(); } this.inputList.length = 0; // Dispose of any remaining connections (next/previous/output). var connections = this.getConnections_(true); for (var i = 0, connection; (connection = connections[i]); i++) { connection.dispose(); } } finally { Blockly.Events.enable(); this.disposed = true; } }; /** * Call initModel on all fields on the block. * May be called more than once. * Either initModel or initSvg must be called after creating a block and before * the first interaction with it. Interactions include UI actions * (e.g. clicking and dragging) and firing events (e.g. create, delete, and * change). * @public */ Blockly.Block.prototype.initModel = function() { for (var i = 0, input; (input = this.inputList[i]); i++) { for (var j = 0, field; (field = input.fieldRow[j]); j++) { if (field.initModel) { field.initModel(); } } } }; /** * Unplug this block from its superior block. If this block is a statement, * optionally reconnect the block underneath with the block on top. * @param {boolean=} opt_healStack Disconnect child statement and reconnect * stack. Defaults to false. */ Blockly.Block.prototype.unplug = function(opt_healStack) { if (this.outputConnection) { this.unplugFromRow_(opt_healStack); } else if (this.previousConnection) { this.unplugFromStack_(opt_healStack); } }; /** * Unplug this block's output from an input on another block. Optionally * reconnect the block's parent to the only child block, if possible. * @param {boolean=} opt_healStack Disconnect right-side block and connect to * left-side block. Defaults to false. * @private */ Blockly.Block.prototype.unplugFromRow_ = function(opt_healStack) { var parentConnection = null; if (this.outputConnection.isConnected()) { parentConnection = this.outputConnection.targetConnection; // Disconnect from any superior block. this.outputConnection.disconnect(); } // Return early in obvious cases. if (!parentConnection || !opt_healStack) { return; } var thisConnection = this.getOnlyValueConnection_(); if (!thisConnection || !thisConnection.isConnected() || thisConnection.targetBlock().isShadow()) { // Too many or too few possible connections on this block, or there's // nothing on the other side of this connection. return; } var childConnection = thisConnection.targetConnection; // Disconnect the child block. childConnection.disconnect(); // Connect child to the parent if possible, otherwise bump away. if (this.workspace.connectionChecker.canConnect( childConnection, parentConnection, false)) { parentConnection.connect(childConnection); } else { childConnection.onFailedConnect(parentConnection); } }; /** * Returns the connection on the value input that is connected to another block. * When an insertion marker is connected to a connection with a block already * attached, the connected block is attached to the insertion marker. * Since only one block can be displaced and attached to the insertion marker * this should only ever return one connection. * * @return {?Blockly.Connection} The connection on the value input, or null. * @private */ Blockly.Block.prototype.getOnlyValueConnection_ = function() { var connection = null; for (var i = 0; i < this.inputList.length; i++) { var thisConnection = this.inputList[i].connection; if (thisConnection && thisConnection.type == Blockly.connectionTypes.INPUT_VALUE && thisConnection.targetConnection) { if (connection) { return null; // More than one value input found. } connection = thisConnection; } } return connection; }; /** * Unplug this statement block from its superior block. Optionally reconnect * the block underneath with the block on top. * @param {boolean=} opt_healStack Disconnect child statement and reconnect * stack. Defaults to false. * @private */ Blockly.Block.prototype.unplugFromStack_ = function(opt_healStack) { var previousTarget = null; if (this.previousConnection.isConnected()) { // Remember the connection that any next statements need to connect to. previousTarget = this.previousConnection.targetConnection; // Detach this block from the parent's tree. this.previousConnection.disconnect(); } var nextBlock = this.getNextBlock(); if (opt_healStack && nextBlock && !nextBlock.isShadow()) { // Disconnect the next statement. var nextTarget = this.nextConnection.targetConnection; nextTarget.disconnect(); if (previousTarget && this.workspace.connectionChecker.canConnect( previousTarget, nextTarget, false)) { // Attach the next statement to the previous statement. previousTarget.connect(nextTarget); } } }; /** * Returns all connections originating from this block. * @param {boolean} _all If true, return all connections even hidden ones. * @return {!Array} Array of connections. * @package */ Blockly.Block.prototype.getConnections_ = function(_all) { var myConnections = []; if (this.outputConnection) { myConnections.push(this.outputConnection); } if (this.previousConnection) { myConnections.push(this.previousConnection); } if (this.nextConnection) { myConnections.push(this.nextConnection); } for (var i = 0, input; (input = this.inputList[i]); i++) { if (input.connection) { myConnections.push(input.connection); } } return myConnections; }; /** * Walks down a stack of blocks and finds the last next connection on the stack. * @param {boolean} ignoreShadows If true,the last connection on a non-shadow * block will be returned. If false, this will follow shadows to find the * last connection. * @return {?Blockly.Connection} The last next connection on the stack, or null. * @package */ Blockly.Block.prototype.lastConnectionInStack = function(ignoreShadows) { var nextConnection = this.nextConnection; while (nextConnection) { var nextBlock = nextConnection.targetBlock(); if (!nextBlock || (ignoreShadows && nextBlock.isShadow())) { return nextConnection; } nextConnection = nextBlock.nextConnection; } return null; }; /** * Bump unconnected blocks out of alignment. Two blocks which aren't actually * connected should not coincidentally line up on screen. */ Blockly.Block.prototype.bumpNeighbours = function() { // noop. }; /** * Return the parent block or null if this block is at the top level. The parent * block is either the block connected to the previous connection (for a statement * block) or the block connected to the output connection (for a value block). * @return {?Blockly.Block} The block (if any) that holds the current block. */ Blockly.Block.prototype.getParent = function() { return this.parentBlock_; }; /** * Return the input that connects to the specified block. * @param {!Blockly.Block} block A block connected to an input on this block. * @return {?Blockly.Input} The input (if any) that connects to the specified * block. */ Blockly.Block.prototype.getInputWithBlock = function(block) { for (var i = 0, input; (input = this.inputList[i]); i++) { if (input.connection && input.connection.targetBlock() == block) { return input; } } return null; }; /** * Return the parent block that surrounds the current block, or null if this * block has no surrounding block. A parent block might just be the previous * statement, whereas the surrounding block is an if statement, while loop, etc. * @return {?Blockly.Block} The block (if any) that surrounds the current block. */ Blockly.Block.prototype.getSurroundParent = function() { var block = this; do { var prevBlock = block; block = block.getParent(); if (!block) { // Ran off the top. return null; } } while (block.getNextBlock() == prevBlock); // This block is an enclosing parent, not just a statement in a stack. return block; }; /** * Return the next statement block directly connected to this block. * @return {?Blockly.Block} The next statement block or null. */ Blockly.Block.prototype.getNextBlock = function() { return this.nextConnection && this.nextConnection.targetBlock(); }; /** * Returns the block connected to the previous connection. * @return {?Blockly.Block} The previous statement block or null. */ Blockly.Block.prototype.getPreviousBlock = function() { return this.previousConnection && this.previousConnection.targetBlock(); }; /** * Return the connection on the first statement input on this block, or null if * there are none. * @return {?Blockly.Connection} The first statement connection or null. * @package */ Blockly.Block.prototype.getFirstStatementConnection = function() { for (var i = 0, input; (input = this.inputList[i]); i++) { if (input.connection && input.connection.type == Blockly.connectionTypes.NEXT_STATEMENT) { return input.connection; } } return null; }; /** * Return the top-most block in this block's tree. * This will return itself if this block is at the top level. * @return {!Blockly.Block} The root block. */ Blockly.Block.prototype.getRootBlock = function() { var rootBlock; var block = this; do { rootBlock = block; block = rootBlock.parentBlock_; } while (block); return rootBlock; }; /** * Walk up from the given block up through the stack of blocks to find * the top block of the sub stack. If we are nested in a statement input only * find the top-most nested block. Do not go all the way to the root block. * @return {!Blockly.Block} The top block in a stack. * @package */ Blockly.Block.prototype.getTopStackBlock = function() { var block = this; do { var previous = block.getPreviousBlock(); } while (previous && previous.getNextBlock() == block && (block = previous)); return block; }; /** * Find all the blocks that are directly nested inside this one. * Includes value and statement inputs, as well as any following statement. * Excludes any connection on an output tab or any preceding statement. * Blocks are optionally sorted by position; top to bottom. * @param {boolean} ordered Sort the list if true. * @return {!Array} Array of blocks. */ Blockly.Block.prototype.getChildren = function(ordered) { if (!ordered) { return this.childBlocks_; } var blocks = []; for (var i = 0, input; (input = this.inputList[i]); i++) { if (input.connection) { var child = input.connection.targetBlock(); if (child) { blocks.push(child); } } } var next = this.getNextBlock(); if (next) { blocks.push(next); } return blocks; }; /** * Set parent of this block to be a new block or null. * @param {Blockly.Block} newParent New parent block. * @package */ Blockly.Block.prototype.setParent = function(newParent) { if (newParent === this.parentBlock_) { return; } // Check that block is connected to new parent if new parent is not null and // that block is not connected to superior one if new parent is null. var connection = this.previousConnection || this.outputConnection; var isConnected = !!(connection && connection.targetBlock()); if (isConnected && newParent && connection.targetBlock() !== newParent) { throw Error('Block connected to superior one that is not new parent.'); } else if (!isConnected && newParent) { throw Error('Block not connected to new parent.'); } else if (isConnected && !newParent) { throw Error('Cannot set parent to null while block is still connected to' + ' superior block.'); } if (this.parentBlock_) { // Remove this block from the old parent's child list. Blockly.utils.arrayRemove(this.parentBlock_.childBlocks_, this); // This block hasn't actually moved on-screen, so there's no need to update // its connection locations. } else { // New parent must be non-null so remove this block from the workspace's // list of top-most blocks. this.workspace.removeTopBlock(this); } this.parentBlock_ = newParent; if (newParent) { // Add this block to the new parent's child list. newParent.childBlocks_.push(this); } else { this.workspace.addTopBlock(this); } }; /** * Find all the blocks that are directly or indirectly nested inside this one. * Includes this block in the list. * Includes value and statement inputs, as well as any following statements. * Excludes any connection on an output tab or any preceding statements. * Blocks are optionally sorted by position; top to bottom. * @param {boolean} ordered Sort the list if true. * @return {!Array} Flattened array of blocks. */ Blockly.Block.prototype.getDescendants = function(ordered) { var blocks = [this]; var childBlocks = this.getChildren(ordered); for (var child, i = 0; (child = childBlocks[i]); i++) { blocks.push.apply(blocks, child.getDescendants(ordered)); } return blocks; }; /** * Get whether this block is deletable or not. * @return {boolean} True if deletable. */ Blockly.Block.prototype.isDeletable = function() { return this.deletable_ && !this.isShadow_ && !(this.workspace && this.workspace.options.readOnly); }; /** * Set whether this block is deletable or not. * @param {boolean} deletable True if deletable. */ Blockly.Block.prototype.setDeletable = function(deletable) { this.deletable_ = deletable; }; /** * Get whether this block is movable or not. * @return {boolean} True if movable. */ Blockly.Block.prototype.isMovable = function() { return this.movable_ && !this.isShadow_ && !(this.workspace && this.workspace.options.readOnly); }; /** * Set whether this block is movable or not. * @param {boolean} movable True if movable. */ Blockly.Block.prototype.setMovable = function(movable) { this.movable_ = movable; }; /** * Get whether is block is duplicatable or not. If duplicating this block and * descendants will put this block over the workspace's capacity this block is * not duplicatable. If duplicating this block and descendants will put any * type over their maxInstances this block is not duplicatable. * @return {boolean} True if duplicatable. */ Blockly.Block.prototype.isDuplicatable = function() { if (!this.workspace.hasBlockLimits()) { return true; } return this.workspace.isCapacityAvailable( Blockly.utils.getBlockTypeCounts(this, true)); }; /** * Get whether this block is a shadow block or not. * @return {boolean} True if a shadow. */ Blockly.Block.prototype.isShadow = function() { return this.isShadow_; }; /** * Set whether this block is a shadow block or not. * @param {boolean} shadow True if a shadow. * @package */ Blockly.Block.prototype.setShadow = function(shadow) { this.isShadow_ = shadow; }; /** * Get whether this block is an insertion marker block or not. * @return {boolean} True if an insertion marker. */ Blockly.Block.prototype.isInsertionMarker = function() { return this.isInsertionMarker_; }; /** * Set whether this block is an insertion marker block or not. * Once set this cannot be unset. * @param {boolean} insertionMarker True if an insertion marker. * @package */ Blockly.Block.prototype.setInsertionMarker = function(insertionMarker) { this.isInsertionMarker_ = insertionMarker; }; /** * Get whether this block is editable or not. * @return {boolean} True if editable. */ Blockly.Block.prototype.isEditable = function() { return this.editable_ && !(this.workspace && this.workspace.options.readOnly); }; /** * Set whether this block is editable or not. * @param {boolean} editable True if editable. */ Blockly.Block.prototype.setEditable = function(editable) { this.editable_ = editable; for (var i = 0, input; (input = this.inputList[i]); i++) { for (var j = 0, field; (field = input.fieldRow[j]); j++) { field.updateEditable(); } } }; /** * Returns if this block has been disposed of / deleted. * @return {boolean} True if this block has been disposed of / deleted. */ Blockly.Block.prototype.isDisposed = function() { return this.disposed; }; /** * Find the connection on this block that corresponds to the given connection * on the other block. * Used to match connections between a block and its insertion marker. * @param {!Blockly.Block} otherBlock The other block to match against. * @param {!Blockly.Connection} conn The other connection to match. * @return {?Blockly.Connection} The matching connection on this block, or null. * @package */ Blockly.Block.prototype.getMatchingConnection = function(otherBlock, conn) { var connections = this.getConnections_(true); var otherConnections = otherBlock.getConnections_(true); if (connections.length != otherConnections.length) { throw Error("Connection lists did not match in length."); } for (var i = 0; i < otherConnections.length; i++) { if (otherConnections[i] == conn) { return connections[i]; } } return null; }; /** * Set the URL of this block's help page. * @param {string|Function} url URL string for block help, or function that * returns a URL. Null for no help. */ Blockly.Block.prototype.setHelpUrl = function(url) { this.helpUrl = url; }; /** * Sets the tooltip for this block. * @param {!Blockly.Tooltip.TipInfo} newTip The text for the tooltip, a function * that returns the text for the tooltip, or a parent object whose tooltip * will be used. To not display a tooltip pass the empty string. */ Blockly.Block.prototype.setTooltip = function(newTip) { this.tooltip = newTip; }; /** * Returns the tooltip text for this block. * @return {!string} The tooltip text for this block. */ Blockly.Block.prototype.getTooltip = function() { return Blockly.Tooltip.getTooltipOfObject(this); }; /** * Get the colour of a block. * @return {string} #RRGGBB string. */ Blockly.Block.prototype.getColour = function() { return this.colour_; }; /** * Get the name of the block style. * @return {string} Name of the block style. */ Blockly.Block.prototype.getStyleName = function() { return this.styleName_; }; /** * Get the HSV hue value of a block. Null if hue not set. * @return {?number} Hue value (0-360). */ Blockly.Block.prototype.getHue = function() { return this.hue_; }; /** * Change the colour of a block. * @param {number|string} colour HSV hue value (0 to 360), #RRGGBB string, * or a message reference string pointing to one of those two values. */ Blockly.Block.prototype.setColour = function(colour) { var parsed = Blockly.utils.parseBlockColour(colour); this.hue_ = parsed.hue; this.colour_ = parsed.hex; }; /** * Set the style and colour values of a block. * @param {string} blockStyleName Name of the block style. */ Blockly.Block.prototype.setStyle = function(blockStyleName) { this.styleName_ = blockStyleName; }; /** * Sets a callback function to use whenever the block's parent workspace * changes, replacing any prior onchange handler. This is usually only called * from the constructor, the block type initializer function, or an extension * initializer function. * @param {function(Blockly.Events.Abstract)} onchangeFn The callback to call * when the block's workspace changes. * @throws {Error} if onchangeFn is not falsey and not a function. */ Blockly.Block.prototype.setOnChange = function(onchangeFn) { if (onchangeFn && typeof onchangeFn != 'function') { throw Error('onchange must be a function.'); } if (this.onchangeWrapper_) { this.workspace.removeChangeListener(this.onchangeWrapper_); } this.onchange = onchangeFn; if (this.onchange) { this.onchangeWrapper_ = onchangeFn.bind(this); this.workspace.addChangeListener(this.onchangeWrapper_); } }; /** * Returns the named field from a block. * @param {string} name The name of the field. * @return {?Blockly.Field} Named field, or null if field does not exist. */ Blockly.Block.prototype.getField = function(name) { if (typeof name !== 'string') { throw TypeError('Blockly.Block.prototype.getField expects a string ' + 'with the field name but received ' + (name === undefined ? 'nothing' : name + ' of type ' + typeof name) + ' instead'); } for (var i = 0, input; (input = this.inputList[i]); i++) { for (var j = 0, field; (field = input.fieldRow[j]); j++) { if (field.name === name) { return field; } } } return null; }; /** * Return all variables referenced by this block. * @return {!Array} List of variable names. */ Blockly.Block.prototype.getVars = function() { var vars = []; for (var i = 0, input; (input = this.inputList[i]); i++) { for (var j = 0, field; (field = input.fieldRow[j]); j++) { if (field.referencesVariables()) { vars.push(field.getValue()); } } } return vars; }; /** * Return all variables referenced by this block. * @return {!Array} List of variable models. * @package */ Blockly.Block.prototype.getVarModels = function() { var vars = []; for (var i = 0, input; (input = this.inputList[i]); i++) { for (var j = 0, field; (field = input.fieldRow[j]); j++) { if (field.referencesVariables()) { var model = this.workspace.getVariableById( /** @type {string} */ (field.getValue())); // Check if the variable actually exists (and isn't just a potential // variable). if (model) { vars.push(model); } } } } return vars; }; /** * Notification that a variable is renaming but keeping the same ID. If the * variable is in use on this block, rerender to show the new name. * @param {!Blockly.VariableModel} variable The variable being renamed. * @package */ Blockly.Block.prototype.updateVarName = function(variable) { for (var i = 0, input; (input = this.inputList[i]); i++) { for (var j = 0, field; (field = input.fieldRow[j]); j++) { if (field.referencesVariables() && variable.getId() == field.getValue()) { field.refreshVariableName(); } } } }; /** * Notification that a variable is renaming. * If the ID matches one of this block's variables, rename it. * @param {string} oldId ID of variable to rename. * @param {string} newId ID of new variable. May be the same as oldId, but with * an updated name. */ Blockly.Block.prototype.renameVarById = function(oldId, newId) { for (var i = 0, input; (input = this.inputList[i]); i++) { for (var j = 0, field; (field = input.fieldRow[j]); j++) { if (field.referencesVariables() && oldId == field.getValue()) { field.setValue(newId); } } } }; /** * Returns the language-neutral value of the given field. * @param {string} name The name of the field. * @return {*} Value of the field or null if field does not exist. */ Blockly.Block.prototype.getFieldValue = function(name) { var field = this.getField(name); if (field) { return field.getValue(); } return null; }; /** * Sets the value of the given field for this block. * @param {*} newValue The value to set. * @param {string} name The name of the field to set the value of. */ Blockly.Block.prototype.setFieldValue = function(newValue, name) { var field = this.getField(name); if (!field) { throw Error('Field "' + name + '" not found.'); } field.setValue(newValue); }; /** * Set whether this block can chain onto the bottom of another block. * @param {boolean} newBoolean True if there can be a previous statement. * @param {(string|Array|null)=} opt_check Statement type or * list of statement types. Null/undefined if any type could be connected. */ Blockly.Block.prototype.setPreviousStatement = function(newBoolean, opt_check) { if (newBoolean) { if (opt_check === undefined) { opt_check = null; } if (!this.previousConnection) { if (this.outputConnection) { throw Error('Remove output connection prior to adding previous ' + 'connection.'); } this.previousConnection = this.makeConnection_(Blockly.connectionTypes.PREVIOUS_STATEMENT); } this.previousConnection.setCheck(opt_check); } else { if (this.previousConnection) { if (this.previousConnection.isConnected()) { throw Error('Must disconnect previous statement before removing ' + 'connection.'); } this.previousConnection.dispose(); this.previousConnection = null; } } }; /** * Set whether another block can chain onto the bottom of this block. * @param {boolean} newBoolean True if there can be a next statement. * @param {(string|Array|null)=} opt_check Statement type or * list of statement types. Null/undefined if any type could be connected. */ Blockly.Block.prototype.setNextStatement = function(newBoolean, opt_check) { if (newBoolean) { if (opt_check === undefined) { opt_check = null; } if (!this.nextConnection) { this.nextConnection = this.makeConnection_(Blockly.connectionTypes.NEXT_STATEMENT); } this.nextConnection.setCheck(opt_check); } else { if (this.nextConnection) { if (this.nextConnection.isConnected()) { throw Error('Must disconnect next statement before removing ' + 'connection.'); } this.nextConnection.dispose(); this.nextConnection = null; } } }; /** * Set whether this block returns a value. * @param {boolean} newBoolean True if there is an output. * @param {(string|Array|null)=} opt_check Returned type or list * of returned types. Null or undefined if any type could be returned * (e.g. variable get). */ Blockly.Block.prototype.setOutput = function(newBoolean, opt_check) { if (newBoolean) { if (opt_check === undefined) { opt_check = null; } if (!this.outputConnection) { if (this.previousConnection) { throw Error('Remove previous connection prior to adding output ' + 'connection.'); } this.outputConnection = this.makeConnection_(Blockly.connectionTypes.OUTPUT_VALUE); } this.outputConnection.setCheck(opt_check); } else { if (this.outputConnection) { if (this.outputConnection.isConnected()) { throw Error('Must disconnect output value before removing connection.'); } this.outputConnection.dispose(); this.outputConnection = null; } } }; /** * Set whether value inputs are arranged horizontally or vertically. * @param {boolean} newBoolean True if inputs are horizontal. */ Blockly.Block.prototype.setInputsInline = function(newBoolean) { if (this.inputsInline != newBoolean) { Blockly.Events.fire(new (Blockly.Events.get(Blockly.Events.BLOCK_CHANGE))( this, 'inline', null, this.inputsInline, newBoolean)); this.inputsInline = newBoolean; } }; /** * Get whether value inputs are arranged horizontally or vertically. * @return {boolean} True if inputs are horizontal. */ Blockly.Block.prototype.getInputsInline = function() { if (this.inputsInline != undefined) { // Set explicitly. return this.inputsInline; } // Not defined explicitly. Figure out what would look best. for (var i = 1; i < this.inputList.length; i++) { if (this.inputList[i - 1].type == Blockly.inputTypes.DUMMY && this.inputList[i].type == Blockly.inputTypes.DUMMY) { // Two dummy inputs in a row. Don't inline them. return false; } } for (var i = 1; i < this.inputList.length; i++) { if (this.inputList[i - 1].type == Blockly.inputTypes.VALUE && this.inputList[i].type == Blockly.inputTypes.DUMMY) { // Dummy input after a value input. Inline them. return true; } } return false; }; /** * Set the block's output shape. * @param {?number} outputShape Value representing an output shape. */ Blockly.Block.prototype.setOutputShape = function(outputShape) { this.outputShape_ = outputShape; }; /** * Get the block's output shape. * @return {?number} Value representing output shape if one exists. */ Blockly.Block.prototype.getOutputShape = function() { return this.outputShape_; }; /** * Get whether this block is enabled or not. * @return {boolean} True if enabled. */ Blockly.Block.prototype.isEnabled = function() { return !this.disabled; }; /** * Set whether the block is enabled or not. * @param {boolean} enabled True if enabled. */ Blockly.Block.prototype.setEnabled = function(enabled) { if (this.isEnabled() != enabled) { Blockly.Events.fire(new (Blockly.Events.get(Blockly.Events.BLOCK_CHANGE))( this, 'disabled', null, this.disabled, !enabled)); this.disabled = !enabled; } }; /** * Get whether the block is disabled or not due to parents. * The block's own disabled property is not considered. * @return {boolean} True if disabled. */ Blockly.Block.prototype.getInheritedDisabled = function() { var ancestor = this.getSurroundParent(); while (ancestor) { if (ancestor.disabled) { return true; } ancestor = ancestor.getSurroundParent(); } // Ran off the top. return false; }; /** * Get whether the block is collapsed or not. * @return {boolean} True if collapsed. */ Blockly.Block.prototype.isCollapsed = function() { return this.collapsed_; }; /** * Set whether the block is collapsed or not. * @param {boolean} collapsed True if collapsed. */ Blockly.Block.prototype.setCollapsed = function(collapsed) { if (this.collapsed_ != collapsed) { Blockly.Events.fire(new (Blockly.Events.get(Blockly.Events.BLOCK_CHANGE))( this, 'collapsed', null, this.collapsed_, collapsed)); this.collapsed_ = collapsed; } }; /** * Create a human-readable text representation of this block and any children. * @param {number=} opt_maxLength Truncate the string to this length. * @param {string=} opt_emptyToken The placeholder string used to denote an * empty field. If not specified, '?' is used. * @return {string} Text of block. */ Blockly.Block.prototype.toString = function(opt_maxLength, opt_emptyToken) { var text = []; var emptyFieldPlaceholder = opt_emptyToken || '?'; // Temporarily set flag to navigate to all fields. var prevNavigateFields = Blockly.ASTNode.NAVIGATE_ALL_FIELDS; Blockly.ASTNode.NAVIGATE_ALL_FIELDS = true; var node = Blockly.ASTNode.createBlockNode(this); var rootNode = node; /** * Whether or not to add parentheses around an input. * @param {!Blockly.Connection} connection The connection. * @return {boolean} True if we should add parentheses around the input. */ function shouldAddParentheses(connection) { var checks = connection.getCheck(); if (!checks && connection.targetConnection) { checks = connection.targetConnection.getCheck(); } return !!checks && (checks.indexOf('Boolean') != -1 || checks.indexOf('Number') != -1); } /** * Check that we haven't circled back to the original root node. */ function checkRoot() { if (node && node.getType() == rootNode.getType() && node.getLocation() == rootNode.getLocation()) { node = null; } } // Traverse the AST building up our text string. while (node) { switch (node.getType()) { case Blockly.ASTNode.types.INPUT: var connection = /** @type {!Blockly.Connection} */ (node.getLocation()); if (!node.in()) { text.push(emptyFieldPlaceholder); } else if (shouldAddParentheses(connection)) { text.push('('); } break; case Blockly.ASTNode.types.FIELD: var field = /** @type {Blockly.Field} */ (node.getLocation()); if (field.name != Blockly.constants.COLLAPSED_FIELD_NAME) { text.push(field.getText()); } break; } var current = node; node = current.in() || current.next(); if (!node) { // Can't go in or next, keep going out until we can go next. node = current.out(); checkRoot(); while (node && !node.next()) { node = node.out(); checkRoot(); // If we hit an input on the way up, possibly close out parentheses. if (node && node.getType() == Blockly.ASTNode.types.INPUT && shouldAddParentheses( /** @type {!Blockly.Connection} */ (node.getLocation()))) { text.push(')'); } } if (node) { node = node.next(); } } } // Restore state of NAVIGATE_ALL_FIELDS. Blockly.ASTNode.NAVIGATE_ALL_FIELDS = prevNavigateFields; // Run through our text array and simplify expression to remove parentheses // around single field blocks. // E.g. ['repeat', '(', '10', ')', 'times', 'do', '?'] for (var i = 2; i < text.length; i++) { if (text[i - 2] == '(' && text[i] == ')') { text[i - 2] = text[i - 1]; text.splice(i - 1, 2); } } // Join the text array, removing spaces around added parentheses. text = text.reduce(function(acc, value) { return acc + ((acc.substr(-1) == '(' || value == ')') ? '' : ' ') + value; }, ''); text = text.trim() || '???'; if (opt_maxLength) { // TODO: Improve truncation so that text from this block is given priority. // E.g. "1+2+3+4+5+6+7+8+9=0" should be "...6+7+8+9=0", not "1+2+3+4+5...". // E.g. "1+2+3+4+5=6+7+8+9+0" should be "...4+5=6+7...". if (text.length > opt_maxLength) { text = text.substring(0, opt_maxLength - 3) + '...'; } } return text; }; /** * Shortcut for appending a value input row. * @param {string} name Language-neutral identifier which may used to find this * input again. Should be unique to this block. * @return {!Blockly.Input} The input object created. */ Blockly.Block.prototype.appendValueInput = function(name) { return this.appendInput_(Blockly.inputTypes.VALUE, name); }; /** * Shortcut for appending a statement input row. * @param {string} name Language-neutral identifier which may used to find this * input again. Should be unique to this block. * @return {!Blockly.Input} The input object created. */ Blockly.Block.prototype.appendStatementInput = function(name) { return this.appendInput_(Blockly.inputTypes.STATEMENT, name); }; /** * Shortcut for appending a dummy input row. * @param {string=} opt_name Language-neutral identifier which may used to find * this input again. Should be unique to this block. * @return {!Blockly.Input} The input object created. */ Blockly.Block.prototype.appendDummyInput = function(opt_name) { return this.appendInput_(Blockly.inputTypes.DUMMY, opt_name || ''); }; /** * Initialize this block using a cross-platform, internationalization-friendly * JSON description. * @param {!Object} json Structured data describing the block. */ Blockly.Block.prototype.jsonInit = function(json) { var warningPrefix = json['type'] ? 'Block "' + json['type'] + '": ' : ''; // Validate inputs. if (json['output'] && json['previousStatement']) { throw Error(warningPrefix + 'Must not have both an output and a previousStatement.'); } // Set basic properties of block. // Makes styles backward compatible with old way of defining hat style. if (json['style'] && json['style'].hat) { this.hat = json['style'].hat; // Must set to null so it doesn't error when checking for style and colour. json['style'] = null; } if (json['style'] && json['colour']) { throw Error(warningPrefix + 'Must not have both a colour and a style.'); } else if (json['style']) { this.jsonInitStyle_(json, warningPrefix); } else { this.jsonInitColour_(json, warningPrefix); } // Interpolate the message blocks. var i = 0; while (json['message' + i] !== undefined) { this.interpolate_(json['message' + i], json['args' + i] || [], json['lastDummyAlign' + i], warningPrefix); i++; } if (json['inputsInline'] !== undefined) { this.setInputsInline(json['inputsInline']); } // Set output and previous/next connections. if (json['output'] !== undefined) { this.setOutput(true, json['output']); } if (json['outputShape'] !== undefined) { this.setOutputShape(json['outputShape']); } if (json['previousStatement'] !== undefined) { this.setPreviousStatement(true, json['previousStatement']); } if (json['nextStatement'] !== undefined) { this.setNextStatement(true, json['nextStatement']); } if (json['tooltip'] !== undefined) { var rawValue = json['tooltip']; var localizedText = Blockly.utils.replaceMessageReferences(rawValue); this.setTooltip(localizedText); } if (json['enableContextMenu'] !== undefined) { this.contextMenu = !!json['enableContextMenu']; } if (json['suppressPrefixSuffix'] !== undefined) { this.suppressPrefixSuffix = !!json['suppressPrefixSuffix']; } if (json['helpUrl'] !== undefined) { var rawValue = json['helpUrl']; var localizedValue = Blockly.utils.replaceMessageReferences(rawValue); this.setHelpUrl(localizedValue); } if (typeof json['extensions'] == 'string') { console.warn( warningPrefix + 'JSON attribute \'extensions\' should be an array of' + ' strings. Found raw string in JSON for \'' + json['type'] + '\' block.'); json['extensions'] = [json['extensions']]; // Correct and continue. } // Add the mutator to the block. if (json['mutator'] !== undefined) { Blockly.Extensions.apply(json['mutator'], this, true); } var extensionNames = json['extensions']; if (Array.isArray(extensionNames)) { for (var j = 0; j < extensionNames.length; ++j) { Blockly.Extensions.apply(extensionNames[j], this, false); } } }; /** * Initialize the colour of this block from the JSON description. * @param {!Object} json Structured data describing the block. * @param {string} warningPrefix Warning prefix string identifying block. * @private */ Blockly.Block.prototype.jsonInitColour_ = function(json, warningPrefix) { if ('colour' in json) { if (json['colour'] === undefined) { console.warn(warningPrefix + 'Undefined colour value.'); } else { var rawValue = json['colour']; try { this.setColour(rawValue); } catch (e) { console.warn(warningPrefix + 'Illegal colour value: ', rawValue); } } } }; /** * Initialize the style of this block from the JSON description. * @param {!Object} json Structured data describing the block. * @param {string} warningPrefix Warning prefix string identifying block. * @private */ Blockly.Block.prototype.jsonInitStyle_ = function(json, warningPrefix) { var blockStyleName = json['style']; try { this.setStyle(blockStyleName); } catch (styleError) { console.warn(warningPrefix + 'Style does not exist: ', blockStyleName); } }; /** * Add key/values from mixinObj to this block object. By default, this method * will check that the keys in mixinObj will not overwrite existing values in * the block, including prototype values. This provides some insurance against * mixin / extension incompatibilities with future block features. This check * can be disabled by passing true as the second argument. * @param {!Object} mixinObj The key/values pairs to add to this block object. * @param {boolean=} opt_disableCheck Option flag to disable overwrite checks. */ Blockly.Block.prototype.mixin = function(mixinObj, opt_disableCheck) { if (opt_disableCheck !== undefined && typeof opt_disableCheck != 'boolean') { throw Error('opt_disableCheck must be a boolean if provided'); } if (!opt_disableCheck) { var overwrites = []; for (var key in mixinObj) { if (this[key] !== undefined) { overwrites.push(key); } } if (overwrites.length) { throw Error('Mixin will overwrite block members: ' + JSON.stringify(overwrites)); } } Blockly.utils.object.mixin(this, mixinObj); }; /** * Interpolate a message description onto the block. * @param {string} message Text contains interpolation tokens (%1, %2, ...) * that match with fields or inputs defined in the args array. * @param {!Array} args Array of arguments to be interpolated. * @param {string|undefined} lastDummyAlign If a dummy input is added at the * end, how should it be aligned? * @param {string} warningPrefix Warning prefix string identifying block. * @private */ Blockly.Block.prototype.interpolate_ = function(message, args, lastDummyAlign, warningPrefix) { var tokens = Blockly.utils.tokenizeInterpolation(message); this.validateTokens_(tokens, args.length); var elements = this.interpolateArguments_(tokens, args, lastDummyAlign); // An array of [field, fieldName] tuples. var fieldStack = []; for (var i = 0, element; (element = elements[i]); i++) { if (this.isInputKeyword_(element['type'])) { var input = this.inputFromJson_(element, warningPrefix); // Should never be null, but just in case. if (input) { for (var j = 0, tuple; (tuple = fieldStack[j]); j++) { input.appendField(tuple[0], tuple[1]); } fieldStack.length = 0; } } else { // All other types, including ones starting with 'input_' get routed here. var field = this.fieldFromJson_(element); if (field) { fieldStack.push([field, element['name']]); } } } }; /** * Validates that the tokens are within the correct bounds, with no duplicates, * and that all of the arguments are referred to. Throws errors if any of these * things are not true. * @param {!Array} tokens An array of tokens to validate * @param {number} argsCount The number of args that need to be referred to. * @private */ Blockly.Block.prototype.validateTokens_ = function(tokens, argsCount) { var visitedArgsHash = []; var visitedArgsCount = 0; for (var i = 0; i < tokens.length; i++) { var token = tokens[i]; if (typeof token != 'number') { continue; } if (token < 1 || token > argsCount) { throw Error('Block "' + this.type + '": ' + 'Message index %' + token + ' out of range.'); } if (visitedArgsHash[token]) { throw Error('Block "' + this.type + '": ' + 'Message index %' + token + ' duplicated.'); } visitedArgsHash[token] = true; visitedArgsCount++; } if (visitedArgsCount != argsCount) { throw Error('Block "' + this.type + '": ' + 'Message does not reference all ' + argsCount + ' arg(s).'); } }; /** * Inserts args in place of numerical tokens. String args are converted to JSON * that defines a label field. If necessary an extra dummy input is added to * the end of the elements. * @param {!Array} tokens The tokens to interpolate * @param {!Array} args The arguments to insert. * @param {string|undefined} lastDummyAlign The alignment the added dummy input * should have, if we are required to add one. * @return {!Array} The JSON definitions of field and inputs to add * to the block. * @private */ Blockly.Block.prototype.interpolateArguments_ = function(tokens, args, lastDummyAlign) { var elements = []; for (var i = 0; i < tokens.length; i++) { var element = tokens[i]; if (typeof element == 'number') { element = args[element - 1]; } // Args can be strings, which is why this isn't elseif. if (typeof element == 'string') { element = this.stringToFieldJson_(element); if (!element) { continue; } } elements.push(element); } var length = elements.length; if (length && !this.isInputKeyword_(elements[length - 1]['type'])) { var dummyInput = {'type': 'input_dummy'}; if (lastDummyAlign) { dummyInput['align'] = lastDummyAlign; } elements.push(dummyInput); } return elements; }; /** * Creates a field from the JSON definition of a field. If a field with the * given type cannot be found, this attempts to create a different field using * the 'alt' property of the JSON definition (if it exists). * @param {{alt:(string|undefined)}} element The element to try to turn into a * field. * @return {?Blockly.Field} The field defined by the JSON, or null if one * couldn't be created. * @private */ Blockly.Block.prototype.fieldFromJson_ = function(element) { var field = Blockly.fieldRegistry.fromJson(element); if (!field && element['alt']) { if (typeof element['alt'] == 'string') { var json = this.stringToFieldJson_(element['alt']); return json ? this.fieldFromJson_(json) : null; } return this.fieldFromJson_(element['alt']); } return field; }; /** * Creates an input from the JSON definition of an input. Sets the input's check * and alignment if they are provided. * @param {!Object} element The JSON to turn into an input. * @param {string} warningPrefix The prefix to add to warnings to help the * developer debug. * @return {?Blockly.Input} The input that has been created, or null if one * could not be created for some reason (should never happen). * @private */ Blockly.Block.prototype.inputFromJson_ = function(element, warningPrefix) { var alignmentLookup = { 'LEFT': Blockly.constants.ALIGN.LEFT, 'RIGHT': Blockly.constants.ALIGN.RIGHT, 'CENTRE': Blockly.constants.ALIGN.CENTRE, 'CENTER': Blockly.constants.ALIGN.CENTRE }; var input = null; switch (element['type']) { case 'input_value': input = this.appendValueInput(element['name']); break; case 'input_statement': input = this.appendStatementInput(element['name']); break; case 'input_dummy': input = this.appendDummyInput(element['name']); break; } // Should never be hit because of interpolate_'s checks, but just in case. if (!input) { return null; } if (element['check']) { input.setCheck(element['check']); } if (element['align']) { var alignment = alignmentLookup[element['align'].toUpperCase()]; if (alignment === undefined) { console.warn(warningPrefix + 'Illegal align value: ', element['align']); } else { input.setAlign(alignment); } } return input; }; /** * Returns true if the given string matches one of the input keywords. * @param {string} str The string to check. * @return {boolean} True if the given string matches one of the input keywords, * false otherwise. * @private */ Blockly.Block.prototype.isInputKeyword_ = function(str) { return str == 'input_value' || str == 'input_statement' || str == 'input_dummy'; }; /** * Turns a string into the JSON definition of a label field. If the string * becomes an empty string when trimmed, this returns null. * @param {string} str String to turn into the JSON definition of a label field. * @return {?{text: string, type: string}} The JSON definition or null. * @private */ Blockly.Block.prototype.stringToFieldJson_ = function(str) { str = str.trim(); if (str) { return { 'type': 'field_label', 'text': str, }; } return null; }; /** * Add a value input, statement input or local variable to this block. * @param {number} type One of Blockly.inputTypes. * @param {string} name Language-neutral identifier which may used to find this * input again. Should be unique to this block. * @return {!Blockly.Input} The input object created. * @protected */ Blockly.Block.prototype.appendInput_ = function(type, name) { var connection = null; if (type == Blockly.inputTypes.VALUE || type == Blockly.inputTypes.STATEMENT) { connection = this.makeConnection_(type); } if (type == Blockly.inputTypes.STATEMENT) { this.statementInputCount++; } var input = new Blockly.Input(type, name, this, connection); // Append input to list. this.inputList.push(input); return input; }; /** * Move a named input to a different location on this block. * @param {string} name The name of the input to move. * @param {?string} refName Name of input that should be after the moved input, * or null to be the input at the end. */ Blockly.Block.prototype.moveInputBefore = function(name, refName) { if (name == refName) { return; } // Find both inputs. var inputIndex = -1; var refIndex = refName ? -1 : this.inputList.length; for (var i = 0, input; (input = this.inputList[i]); i++) { if (input.name == name) { inputIndex = i; if (refIndex != -1) { break; } } else if (refName && input.name == refName) { refIndex = i; if (inputIndex != -1) { break; } } } if (inputIndex == -1) { throw Error('Named input "' + name + '" not found.'); } if (refIndex == -1) { throw Error('Reference input "' + refName + '" not found.'); } this.moveNumberedInputBefore(inputIndex, refIndex); }; /** * Move a numbered input to a different location on this block. * @param {number} inputIndex Index of the input to move. * @param {number} refIndex Index of input that should be after the moved input. */ Blockly.Block.prototype.moveNumberedInputBefore = function( inputIndex, refIndex) { // Validate arguments. if (inputIndex == refIndex) { throw Error('Can\'t move input to itself.'); } if (inputIndex >= this.inputList.length) { throw RangeError('Input index ' + inputIndex + ' out of bounds.'); } if (refIndex > this.inputList.length) { throw RangeError('Reference input ' + refIndex + ' out of bounds.'); } // Remove input. var input = this.inputList[inputIndex]; this.inputList.splice(inputIndex, 1); if (inputIndex < refIndex) { refIndex--; } // Reinsert input. this.inputList.splice(refIndex, 0, input); }; /** * Remove an input from this block. * @param {string} name The name of the input. * @param {boolean=} opt_quiet True to prevent an error if input is not present. * @return {boolean} True if operation succeeds, false if input is not present and opt_quiet is true * @throws {Error} if the input is not present and opt_quiet is not true. */ Blockly.Block.prototype.removeInput = function(name, opt_quiet) { for (var i = 0, input; (input = this.inputList[i]); i++) { if (input.name == name) { if (input.type == Blockly.inputTypes.STATEMENT) { this.statementInputCount--; } input.dispose(); this.inputList.splice(i, 1); return true; } } if (opt_quiet) { return false; } throw Error('Input not found: ' + name); }; /** * Fetches the named input object. * @param {string} name The name of the input. * @return {?Blockly.Input} The input object, or null if input does not exist. */ Blockly.Block.prototype.getInput = function(name) { for (var i = 0, input; (input = this.inputList[i]); i++) { if (input.name == name) { return input; } } // This input does not exist. return null; }; /** * Fetches the block attached to the named input. * @param {string} name The name of the input. * @return {?Blockly.Block} The attached value block, or null if the input is * either disconnected or if the input does not exist. */ Blockly.Block.prototype.getInputTargetBlock = function(name) { var input = this.getInput(name); return input && input.connection && input.connection.targetBlock(); }; /** * Returns the comment on this block (or null if there is no comment). * @return {?string} Block's comment. */ Blockly.Block.prototype.getCommentText = function() { return this.commentModel.text; }; /** * Set this block's comment text. * @param {?string} text The text, or null to delete. */ Blockly.Block.prototype.setCommentText = function(text) { if (this.commentModel.text == text) { return; } Blockly.Events.fire(new (Blockly.Events.get(Blockly.Events.BLOCK_CHANGE))( this, 'comment', null, this.commentModel.text, text)); this.commentModel.text = text; this.comment = text; // For backwards compatibility. }; /** * Set this block's warning text. * @param {?string} _text The text, or null to delete. * @param {string=} _opt_id An optional ID for the warning text to be able to * maintain multiple warnings. */ Blockly.Block.prototype.setWarningText = function(_text, _opt_id) { // NOP. }; /** * Give this block a mutator dialog. * @param {Blockly.Mutator} _mutator A mutator dialog instance or null to * remove. */ Blockly.Block.prototype.setMutator = function(_mutator) { // NOP. }; /** * Return the coordinates of the top-left corner of this block relative to the * drawing surface's origin (0,0), in workspace units. * @return {!Blockly.utils.Coordinate} Object with .x and .y properties. */ Blockly.Block.prototype.getRelativeToSurfaceXY = function() { return this.xy_; }; /** * Move a block by a relative offset. * @param {number} dx Horizontal offset, in workspace units. * @param {number} dy Vertical offset, in workspace units. */ Blockly.Block.prototype.moveBy = function(dx, dy) { if (this.parentBlock_) { throw Error('Block has parent.'); } var event = new (Blockly.Events.get(Blockly.Events.BLOCK_MOVE))(this); this.xy_.translate(dx, dy); event.recordNew(); Blockly.Events.fire(event); }; /** * Create a connection of the specified type. * @param {number} type The type of the connection to create. * @return {!Blockly.Connection} A new connection of the specified type. * @protected */ Blockly.Block.prototype.makeConnection_ = function(type) { return new Blockly.Connection(this, type); }; /** * Recursively checks whether all statement and value inputs are filled with * blocks. Also checks all following statement blocks in this stack. * @param {boolean=} opt_shadowBlocksAreFilled An optional argument controlling * whether shadow blocks are counted as filled. Defaults to true. * @return {boolean} True if all inputs are filled, false otherwise. */ Blockly.Block.prototype.allInputsFilled = function(opt_shadowBlocksAreFilled) { // Account for the shadow block filledness toggle. if (opt_shadowBlocksAreFilled === undefined) { opt_shadowBlocksAreFilled = true; } if (!opt_shadowBlocksAreFilled && this.isShadow()) { return false; } // Recursively check each input block of the current block. for (var i = 0, input; (input = this.inputList[i]); i++) { if (!input.connection) { continue; } var target = input.connection.targetBlock(); if (!target || !target.allInputsFilled(opt_shadowBlocksAreFilled)) { return false; } } // Recursively check the next block after the current block. var next = this.getNextBlock(); if (next) { return next.allInputsFilled(opt_shadowBlocksAreFilled); } return true; }; /** * This method returns a string describing this Block in developer terms (type * name and ID; English only). * * Intended to on be used in console logs and errors. If you need a string that * uses the user's native language (including block text, field values, and * child blocks), use [toString()]{@link Blockly.Block#toString}. * @return {string} The description. */ Blockly.Block.prototype.toDevString = function() { var msg = this.type ? '"' + this.type + '" block' : 'Block'; if (this.id) { msg += ' (id="' + this.id + '")'; } return msg; };