var util = require('util'); var log = require('../util/log'); var MathUtil = require('../util/math-util'); var Target = require('../engine/target'); /** * Rendered target: instance of a sprite (clone), or the stage. * @param {!Sprite} sprite Reference to the parent sprite. * @param {Runtime} runtime Reference to the runtime. * @constructor */ var RenderedTarget = function (sprite, runtime) { Target.call(this, sprite.blocks); this.runtime = runtime; /** * Reference to the sprite that this is a render of. * @type {!Sprite} */ this.sprite = sprite; /** * Reference to the global renderer for this VM, if one exists. * @type {?RenderWebGLWorker} */ this.renderer = null; if (this.runtime) { this.renderer = this.runtime.renderer; } /** * ID of the drawable for this rendered target, * returned by the renderer, if rendered. * @type {?Number} */ this.drawableID = null; /** * Map of current graphic effect values. * @type {!Object.} */ this.effects = { color: 0, fisheye: 0, whirl: 0, pixelate: 0, mosaic: 0, brightness: 0, ghost: 0 }; }; util.inherits(RenderedTarget, Target); /** * Create a drawable with the this.renderer. */ RenderedTarget.prototype.initDrawable = function () { if (this.renderer) { this.drawableID = this.renderer.createDrawable(); } // If we're a clone, start the hats. if (!this.isOriginal) { this.runtime.startHats( 'control_start_as_clone', null, this ); } }; RenderedTarget.prototype.export = function () { var result = new Object(); var notSaved = ['renderer', 'effects', 'sprite', 'drawableID', 'runtime']; var x = null; for (x in this) { if (typeof this[x] === 'function') { continue; } if (notSaved.indexOf(x) === -1) { result[x] = this[x]; } } result.sprite = this.sprite.export(); return result; }; /** * Whether this represents an "original" non-clone rendered-target for a sprite, * i.e., created by the editor and not clone blocks. * @type {boolean} */ RenderedTarget.prototype.isOriginal = true; /** * Whether this rendered target represents the Scratch stage. * @type {boolean} */ RenderedTarget.prototype.isStage = false; /** * Scratch X coordinate. Currently should range from -240 to 240. * @type {Number} */ RenderedTarget.prototype.x = 0; /** * Scratch Y coordinate. Currently should range from -180 to 180. * @type {number} */ RenderedTarget.prototype.y = 0; /** * Scratch direction. Currently should range from -179 to 180. * @type {number} */ RenderedTarget.prototype.direction = 90; /** * Whether the rendered target is currently visible. * @type {boolean} */ RenderedTarget.prototype.visible = true; /** * Size of rendered target as a percent of costume size. * @type {number} */ RenderedTarget.prototype.size = 100; /** * Currently selected costume index. * @type {number} */ RenderedTarget.prototype.currentCostume = 0; /** * Rotation style for "all around"/spinning. * @enum */ RenderedTarget.ROTATION_STYLE_ALL_AROUND = 'all around'; /** * Rotation style for "left-right"/flipping. * @enum */ RenderedTarget.ROTATION_STYLE_LEFT_RIGHT = 'left-right'; /** * Rotation style for "no rotation." * @enum */ RenderedTarget.ROTATION_STYLE_NONE = 'don\'t rotate'; /** * Current rotation style. * @type {!string} */ RenderedTarget.prototype.rotationStyle = ( RenderedTarget.ROTATION_STYLE_ALL_AROUND ); /** * Set the X and Y coordinates. * @param {!number} x New X coordinate, in Scratch coordinates. * @param {!number} y New Y coordinate, in Scratch coordinates. */ RenderedTarget.prototype.setXY = function (x, y) { if (this.isStage) { return; } this.x = x; this.y = y; if (this.renderer) { this.renderer.updateDrawableProperties(this.drawableID, { position: [this.x, this.y] }); if (this.visible) { this.runtime.requestRedraw(); } } this.runtime.spriteInfoReport(this); }; /** * Get the rendered direction and scale, after applying rotation style. * @return {Object} Direction and scale to render. */ RenderedTarget.prototype._getRenderedDirectionAndScale = function () { // Default: no changes to `this.direction` or `this.scale`. var finalDirection = this.direction; var finalScale = [this.size, this.size]; if (this.rotationStyle === RenderedTarget.ROTATION_STYLE_NONE) { // Force rendered direction to be 90. finalDirection = 90; } else if (this.rotationStyle === RenderedTarget.ROTATION_STYLE_LEFT_RIGHT) { // Force rendered direction to be 90, and flip drawable if needed. finalDirection = 90; var scaleFlip = (this.direction < 0) ? -1 : 1; finalScale = [scaleFlip * this.size, this.size]; } return {direction: finalDirection, scale: finalScale}; }; /** * Set the direction. * @param {!number} direction New direction. */ RenderedTarget.prototype.setDirection = function (direction) { if (this.isStage) { return; } // Keep direction between -179 and +180. this.direction = MathUtil.wrapClamp(direction, -179, 180); if (this.renderer) { var renderedDirectionScale = this._getRenderedDirectionAndScale(); this.renderer.updateDrawableProperties(this.drawableID, { direction: renderedDirectionScale.direction, scale: renderedDirectionScale.scale }); if (this.visible) { this.runtime.requestRedraw(); } } this.runtime.spriteInfoReport(this); }; /** * Set a say bubble. * @param {?string} type Type of say bubble: "say", "think", or null. * @param {?string} message Message to put in say bubble. */ RenderedTarget.prototype.setSay = function (type, message) { if (this.isStage) { return; } // @todo: Render to stage. if (!type || !message) { log.info('Clearing say bubble'); return; } log.info('Setting say bubble:', type, message); }; /** * Set visibility; i.e., whether it's shown or hidden. * @param {!boolean} visible True if should be shown. */ RenderedTarget.prototype.setVisible = function (visible) { if (this.isStage) { return; } this.visible = !!visible; if (this.renderer) { this.renderer.updateDrawableProperties(this.drawableID, { visible: this.visible }); if (this.visible) { this.runtime.requestRedraw(); } } this.runtime.spriteInfoReport(this); }; /** * Set size, as a percentage of the costume size. * @param {!number} size Size of rendered target, as % of costume size. */ RenderedTarget.prototype.setSize = function (size) { if (this.isStage) { return; } if (this.renderer) { // Clamp to scales relative to costume and stage size. // See original ScratchSprite.as:setSize. var costumeSize = this.renderer.getSkinSize(this.drawableID); var origW = Math.round(costumeSize[0]); var origH = Math.round(costumeSize[1]); var minScale = Math.min(1, Math.max(5 / origW, 5 / origH)); var maxScale = Math.min( (1.5 * this.runtime.constructor.STAGE_WIDTH) / origW, (1.5 * this.runtime.constructor.STAGE_HEIGHT) / origH ); this.size = Math.round(MathUtil.clamp(size / 100, minScale, maxScale) * 100); var renderedDirectionScale = this._getRenderedDirectionAndScale(); this.renderer.updateDrawableProperties(this.drawableID, { direction: renderedDirectionScale.direction, scale: renderedDirectionScale.scale }); if (this.visible) { this.runtime.requestRedraw(); } } }; /** * Set a particular graphic effect value. * @param {!string} effectName Name of effect (see `RenderedTarget.prototype.effects`). * @param {!number} value Numerical magnitude of effect. */ RenderedTarget.prototype.setEffect = function (effectName, value) { if (!this.effects.hasOwnProperty(effectName)) return; this.effects[effectName] = value; if (this.renderer) { var props = {}; props[effectName] = this.effects[effectName]; this.renderer.updateDrawableProperties(this.drawableID, props); if (this.visible) { this.runtime.requestRedraw(); } } }; /** * Clear all graphic effects on this rendered target. */ RenderedTarget.prototype.clearEffects = function () { for (var effectName in this.effects) { this.effects[effectName] = 0; } if (this.renderer) { this.renderer.updateDrawableProperties(this.drawableID, this.effects); if (this.visible) { this.runtime.requestRedraw(); } } }; /** * Set the current costume. * @param {number} index New index of costume. */ RenderedTarget.prototype.setCostume = function (index) { // Keep the costume index within possible values. index = Math.round(index); this.currentCostume = MathUtil.wrapClamp( index, 0, this.sprite.costumes.length - 1 ); if (this.renderer) { var costume = this.sprite.costumes[this.currentCostume]; this.renderer.updateDrawableProperties(this.drawableID, { skin: costume.skin, costumeResolution: costume.bitmapResolution, rotationCenter: [ costume.rotationCenterX / costume.bitmapResolution, costume.rotationCenterY / costume.bitmapResolution ] }); if (this.visible) { this.runtime.requestRedraw(); } } }; /** * Update the rotation style. * @param {!string} rotationStyle New rotation style. */ RenderedTarget.prototype.setRotationStyle = function (rotationStyle) { if (rotationStyle === RenderedTarget.ROTATION_STYLE_NONE) { this.rotationStyle = RenderedTarget.ROTATION_STYLE_NONE; } else if (rotationStyle === RenderedTarget.ROTATION_STYLE_ALL_AROUND) { this.rotationStyle = RenderedTarget.ROTATION_STYLE_ALL_AROUND; } else if (rotationStyle === RenderedTarget.ROTATION_STYLE_LEFT_RIGHT) { this.rotationStyle = RenderedTarget.ROTATION_STYLE_LEFT_RIGHT; } if (this.renderer) { var renderedDirectionScale = this._getRenderedDirectionAndScale(); this.renderer.updateDrawableProperties(this.drawableID, { direction: renderedDirectionScale.direction, scale: renderedDirectionScale.scale }); if (this.visible) { this.runtime.requestRedraw(); } } this.runtime.spriteInfoReport(this); }; /** * Get a costume index of this rendered target, by name of the costume. * @param {?string} costumeName Name of a costume. * @return {number} Index of the named costume, or -1 if not present. */ RenderedTarget.prototype.getCostumeIndexByName = function (costumeName) { for (var i = 0; i < this.sprite.costumes.length; i++) { if (this.sprite.costumes[i].name === costumeName) { return i; } } return -1; }; /** * Update all drawable properties for this rendered target. * Use when a batch has changed, e.g., when the drawable is first created. */ RenderedTarget.prototype.updateAllDrawableProperties = function () { if (this.renderer) { var renderedDirectionScale = this._getRenderedDirectionAndScale(); var costume = this.sprite.costumes[this.currentCostume]; this.renderer.updateDrawableProperties(this.drawableID, { position: [this.x, this.y], direction: renderedDirectionScale.direction, scale: renderedDirectionScale.scale, visible: this.visible, skin: costume.skin, costumeResolution: costume.bitmapResolution, rotationCenter: [ costume.rotationCenterX / costume.bitmapResolution, costume.rotationCenterY / costume.bitmapResolution ] }); if (this.visible) { this.runtime.requestRedraw(); } } this.runtime.spriteInfoReport(this); }; /** * Return the human-readable name for this rendered target, e.g., the sprite's name. * @override * @returns {string} Human-readable name. */ RenderedTarget.prototype.getName = function () { return this.sprite.name; }; /** * Return whether this rendered target is a sprite (not a clone, not the stage). * @return {boolean} True if not a clone and not the stage. */ RenderedTarget.prototype.isSprite = function () { return !this.isStage && this.isOriginal; }; /** * Return the rendered target's tight bounding box. * Includes top, left, bottom, right attributes in Scratch coordinates. * @return {?Object} Tight bounding box, or null. */ RenderedTarget.prototype.getBounds = function () { if (this.renderer) { return this.runtime.renderer.getBounds(this.drawableID); } return null; }; /** * Return whether touching a point. * @param {number} x X coordinate of test point. * @param {number} y Y coordinate of test point. * @return {Boolean} True iff the rendered target is touching the point. */ RenderedTarget.prototype.isTouchingPoint = function (x, y) { if (this.renderer) { // @todo: Update once pick is in Scratch coordinates. // Limits test to this Drawable, so this will return true // even if the clone is obscured by another Drawable. var pickResult = this.runtime.renderer.pick( x + (this.runtime.constructor.STAGE_WIDTH / 2), -y + (this.runtime.constructor.STAGE_HEIGHT / 2), null, null, [this.drawableID] ); return pickResult === this.drawableID; } return false; }; /** * Return whether touching a stage edge. * @return {Boolean} True iff the rendered target is touching the stage edge. */ RenderedTarget.prototype.isTouchingEdge = function () { if (this.renderer) { var stageWidth = this.runtime.constructor.STAGE_WIDTH; var stageHeight = this.runtime.constructor.STAGE_HEIGHT; var bounds = this.getBounds(); if (bounds.left < -stageWidth / 2 || bounds.right > stageWidth / 2 || bounds.top > stageHeight / 2 || bounds.bottom < -stageHeight / 2) { return true; } } return false; }; /** * Return whether touching any of a named sprite's clones. * @param {string} spriteName Name of the sprite. * @return {Boolean} True iff touching a clone of the sprite. */ RenderedTarget.prototype.isTouchingSprite = function (spriteName) { var firstClone = this.runtime.getSpriteTargetByName(spriteName); if (!firstClone || !this.renderer) { return false; } var drawableCandidates = firstClone.sprite.clones.map(function (clone) { return clone.drawableID; }); return this.renderer.isTouchingDrawables( this.drawableID, drawableCandidates); }; /** * Return whether touching a color. * @param {Array.} rgb [r,g,b], values between 0-255. * @return {Promise.} True iff the rendered target is touching the color. */ RenderedTarget.prototype.isTouchingColor = function (rgb) { if (this.renderer) { return this.renderer.isTouchingColor(this.drawableID, rgb); } return false; }; /** * Return whether rendered target's color is touching a color. * @param {Object} targetRgb {Array.} [r,g,b], values between 0-255. * @param {Object} maskRgb {Array.} [r,g,b], values between 0-255. * @return {Promise.} True iff the color is touching the color. */ RenderedTarget.prototype.colorIsTouchingColor = function (targetRgb, maskRgb) { if (this.renderer) { return this.renderer.isTouchingColor( this.drawableID, targetRgb, maskRgb ); } return false; }; /** * Move to the front layer. */ RenderedTarget.prototype.goToFront = function () { if (this.renderer) { this.renderer.setDrawableOrder(this.drawableID, Infinity); } }; /** * Move back a number of layers. * @param {number} nLayers How many layers to go back. */ RenderedTarget.prototype.goBackLayers = function (nLayers) { if (this.renderer) { this.renderer.setDrawableOrder(this.drawableID, -nLayers, true, 1); } }; /** * Move behind some other rendered target. * @param {!Clone} other Other rendered target to move behind. */ RenderedTarget.prototype.goBehindOther = function (other) { if (this.renderer) { var otherLayer = this.renderer.setDrawableOrder( other.drawableID, 0, true); this.renderer.setDrawableOrder(this.drawableID, otherLayer); } }; /** * Keep a desired position within a fence. * @param {number} newX New desired X position. * @param {number} newY New desired Y position. * @param {Object=} optFence Optional fence with left, right, top bottom. * @return {Array.} Fenced X and Y coordinates. */ RenderedTarget.prototype.keepInFence = function (newX, newY, optFence) { var fence = optFence; if (!fence) { fence = { left: -this.runtime.constructor.STAGE_WIDTH / 2, right: this.runtime.constructor.STAGE_WIDTH / 2, top: this.runtime.constructor.STAGE_HEIGHT / 2, bottom: -this.runtime.constructor.STAGE_HEIGHT / 2 }; } var bounds = this.getBounds(); if (!bounds) return; // Adjust the known bounds to the target position. bounds.left += (newX - this.x); bounds.right += (newX - this.x); bounds.top += (newY - this.y); bounds.bottom += (newY - this.y); // Find how far we need to move the target position. var dx = 0; var dy = 0; if (bounds.left < fence.left) { dx += fence.left - bounds.left; } if (bounds.right > fence.right) { dx += fence.right - bounds.right; } if (bounds.top > fence.top) { dy += fence.top - bounds.top; } if (bounds.bottom < fence.bottom) { dy += fence.bottom - bounds.bottom; } return [newX + dx, newY + dy]; }; /** * Make a clone, copying any run-time properties. * If we've hit the global clone limit, returns null. * @return {!RenderedTarget} New clone. */ RenderedTarget.prototype.makeClone = function () { if (!this.runtime.clonesAvailable() || this.isStage) { return; // Hit max clone limit, or this is the stage. } this.runtime.changeCloneCounter(1); var newClone = this.sprite.createClone(); // Copy all properties. newClone.x = this.x; newClone.y = this.y; newClone.direction = this.direction; newClone.visible = this.visible; newClone.size = this.size; newClone.currentCostume = this.currentCostume; newClone.rotationStyle = this.rotationStyle; newClone.effects = JSON.parse(JSON.stringify(this.effects)); newClone.variables = JSON.parse(JSON.stringify(this.variables)); newClone.lists = JSON.parse(JSON.stringify(this.lists)); newClone.initDrawable(); newClone.updateAllDrawableProperties(); // Place behind the current target. newClone.goBehindOther(this); return newClone; }; /** * Called when the project receives a "green flag." * For a rendered target, this clears graphic effects. */ RenderedTarget.prototype.onGreenFlag = function () { this.clearEffects(); }; /** * Post/edit sprite info. * @param {object} data An object with sprite info data to set. */ RenderedTarget.prototype.postSpriteInfo = function (data) { if (data.hasOwnProperty('x')) { this.setXY(data.x, this.y); } if (data.hasOwnProperty('y')) { this.setXY(this.x, data.y); } if (data.hasOwnProperty('direction')) { this.setDirection(data.direction); } if (data.hasOwnProperty('rotationStyle')) { this.setRotationStyle(data.rotationStyle); } if (data.hasOwnProperty('visible')) { this.setVisible(data.visible); } }; /** * Dispose, destroying any run-time properties. */ RenderedTarget.prototype.dispose = function () { this.runtime.changeCloneCounter(-1); if (this.renderer && this.drawableID !== null) { this.renderer.destroyDrawable(this.drawableID); if (this.visible) { this.runtime.requestRedraw(); } } }; module.exports = RenderedTarget;