/** * @author Richard Davey <rich@photonstorm.com> * @copyright 2016 Photon Storm Ltd. * @license {@link https://github.com/photonstorm/phaser/blob/master/license.txt|MIT License} */ /** * A TilemapLayer is a Phaser.Image/Sprite that renders a specific TileLayer of a Tilemap. * * Since a TilemapLayer is a Sprite it can be moved around the display, added to other groups or display objects, etc. * * By default TilemapLayers have fixedToCamera set to `true`. Changing this will break Camera follow and scrolling behavior. * * @class Phaser.TilemapLayer * @extends Phaser.Sprite * @constructor * @param {Phaser.Game} game - Game reference to the currently running game. * @param {Phaser.Tilemap} tilemap - The tilemap to which this layer belongs. * @param {integer} index - The index of the TileLayer to render within the Tilemap. * @param {integer} width - Width of the renderable area of the layer (in pixels). * @param {integer} height - Height of the renderable area of the layer (in pixels). */ Phaser.TilemapLayer = function (game, tilemap, index, width, height) { width |= 0; height |= 0; Phaser.Sprite.call(this, game, 0, 0); /** * The Tilemap to which this layer is bound. * @property {Phaser.Tilemap} map * @protected * @readonly */ this.map = tilemap; /** * The index of this layer within the Tilemap. * @property {number} index * @protected * @readonly */ this.index = index; /** * The layer object within the Tilemap that this layer represents. * @property {object} layer * @protected * @readonly */ this.layer = tilemap.layers[index]; /** * The canvas to which this TilemapLayer draws. * @property {HTMLCanvasElement} canvas * @protected */ this.canvas = PIXI.CanvasPool.create(this, width, height); /** * The 2d context of the canvas. * @property {CanvasRenderingContext2D} context * @private */ this.context = this.canvas.getContext('2d'); this.setTexture(new PIXI.Texture(new PIXI.BaseTexture(this.canvas))); /** * The const type of this object. * @property {number} type * @readonly * @protected * @default Phaser.TILEMAPLAYER */ this.type = Phaser.TILEMAPLAYER; /** * @property {number} physicsType - The const physics body type of this object. * @readonly */ this.physicsType = Phaser.TILEMAPLAYER; /** * Settings that control standard (non-diagnostic) rendering. * * @property {boolean} [enableScrollDelta=true] - Delta scroll rendering only draws tiles/edges as they come into view. * This can greatly improve scrolling rendering performance, especially when there are many small tiles. * It should only be disabled in rare cases. * * @property {?DOMCanvasElement} [copyCanvas=(auto)] - [Internal] If set, force using a separate (shared) copy canvas. * Using a canvas bitblt/copy when the source and destinations region overlap produces unexpected behavior * in some browsers, notably Safari. * * @default */ this.renderSettings = { enableScrollDelta: false, overdrawRatio: 0.20, copyCanvas: null }; /** * Enable an additional "debug rendering" pass to display collision information. * * @property {boolean} debug * @default */ this.debug = false; /** * @property {boolean} exists - Controls if the core game loop and physics update this game object or not. */ this.exists = true; /** * Settings used for debugging and diagnostics. * * @property {?string} missingImageFill - A tile is rendered as a rectangle using the following fill if a valid tileset/image cannot be found. A value of `null` prevents additional rendering for tiles without a valid tileset image. _This takes effect even when debug rendering for the layer is not enabled._ * * @property {?string} debuggedTileOverfill - If a Tile has `Tile#debug` true then, after normal tile image rendering, a rectangle with the following fill is drawn above/over it. _This takes effect even when debug rendering for the layer is not enabled._ * * @property {boolean} forceFullRedraw - When debug rendering (`debug` is true), and this option is enabled, the a full redraw is forced and rendering optimization is suppressed. * * @property {number} debugAlpha - When debug rendering (`debug` is true), the tileset is initially rendered with this alpha level. This can make the tile edges clearer. * * @property {?string} facingEdgeStroke - When debug rendering (`debug` is true), this color/stroke is used to draw "face" edges. A value of `null` disables coloring facing edges. * * @property {?string} collidingTileOverfill - When debug rendering (`debug` is true), this fill is used for tiles that are collidable. A value of `null` disables applying the additional overfill. * */ this.debugSettings = { missingImageFill: 'rgb(255,255,255)', debuggedTileOverfill: 'rgba(0,255,0,0.4)', forceFullRedraw: true, debugAlpha: 0.5, facingEdgeStroke: 'rgba(0,255,0,1)', collidingTileOverfill: 'rgba(0,255,0,0.2)' }; /** * Speed at which this layer scrolls horizontally, relative to the camera (e.g. scrollFactorX of 0.5 scrolls half as quickly as the 'normal' camera-locked layers do). * @property {number} scrollFactorX * @public * @default */ this.scrollFactorX = 1; /** * Speed at which this layer scrolls vertically, relative to the camera (e.g. scrollFactorY of 0.5 scrolls half as quickly as the 'normal' camera-locked layers do) * @property {number} scrollFactorY * @public * @default */ this.scrollFactorY = 1; /** * If true tiles will be force rendered, even if such is not believed to be required. * @property {boolean} dirty * @protected */ this.dirty = true; /** * When ray-casting against tiles this is the number of steps it will jump. For larger tile sizes you can increase this to improve performance. * @property {integer} rayStepRate * @default */ this.rayStepRate = 4; /** * Flag controlling if the layer tiles wrap at the edges. * @property {boolean} _wrap * @private */ this._wrap = false; /** * Local map data and calculation cache. * @property {object} _mc * @private */ this._mc = { // Used to bypass rendering without reliance on `dirty` and detect changes. scrollX: 0, scrollY: 0, renderWidth: 0, renderHeight: 0, tileWidth: tilemap.tileWidth, tileHeight: tilemap.tileHeight, // Collision width/height (pixels) // What purpose do these have? Most things use tile width/height directly. // This also only extends collisions right and down. cw: tilemap.tileWidth, ch: tilemap.tileHeight, // Cached tilesets from index -> Tileset tilesets: [] }; /** * The current canvas left after scroll is applied. * @property {number} _scrollX * @private */ this._scrollX = 0; /** * The current canvas top after scroll is applied. * @propety {number} _scrollY * @private */ this._scrollY = 0; /** * Used for caching the tiles / array of tiles. * @property {Phaser.Tile[]} _results * @private */ this._results = []; if (!game.device.canvasBitBltShift) { this.renderSettings.copyCanvas = Phaser.TilemapLayer.ensureSharedCopyCanvas(); } this.fixedToCamera = true; }; Phaser.TilemapLayer.prototype = Object.create(Phaser.Sprite.prototype); Phaser.TilemapLayer.prototype.constructor = Phaser.TilemapLayer; Phaser.TilemapLayer.prototype.preUpdateCore = Phaser.Component.Core.preUpdate; /** * The shared double-copy canvas, created as needed. * * @private * @static */ Phaser.TilemapLayer.sharedCopyCanvas = null; /** * Create if needed (and return) a shared copy canvas that is shared across all TilemapLayers. * * Code that uses the canvas is responsible to ensure the dimensions and save/restore state as appropriate. * * @method Phaser.TilemapLayer#ensureSharedCopyCanvas * @protected * @static */ Phaser.TilemapLayer.ensureSharedCopyCanvas = function () { if (!this.sharedCopyCanvas) { this.sharedCopyCanvas = Phaser.Canvas.create(2, 2); } return this.sharedCopyCanvas; }; /** * Automatically called by World.preUpdate. * * @method Phaser.TilemapLayer#preUpdate */ Phaser.TilemapLayer.prototype.preUpdate = function() { return this.preUpdateCore(); }; /** * Automatically called by World.postUpdate. Handles cache updates. * * @method Phaser.TilemapLayer#postUpdate * @protected */ Phaser.TilemapLayer.prototype.postUpdate = function () { if (this.fixedToCamera) { this.position.x = (this.game.camera.view.x + this.cameraOffset.x) / this.game.camera.scale.x; this.position.y = (this.game.camera.view.y + this.cameraOffset.y) / this.game.camera.scale.y; } this._scrollX = this.game.camera.view.x * this.scrollFactorX / this.scale.x; this._scrollY = this.game.camera.view.y * this.scrollFactorY / this.scale.y; }; /** * Automatically called by the Canvas Renderer. * Overrides the Sprite._renderCanvas function. * * @method Phaser.TilemapLayer#_renderCanvas * @private */ Phaser.TilemapLayer.prototype._renderCanvas = function (renderSession) { if (this.fixedToCamera) { this.position.x = (this.game.camera.view.x + this.cameraOffset.x) / this.game.camera.scale.x; this.position.y = (this.game.camera.view.y + this.cameraOffset.y) / this.game.camera.scale.y; } this._scrollX = this.game.camera.view.x * this.scrollFactorX / this.scale.x; this._scrollY = this.game.camera.view.y * this.scrollFactorY / this.scale.y; this.render(); PIXI.Sprite.prototype._renderCanvas.call(this, renderSession); }; /** * Automatically called by the Canvas Renderer. * Overrides the Sprite._renderWebGL function. * * @method Phaser.TilemapLayer#_renderWebGL * @private */ Phaser.TilemapLayer.prototype._renderWebGL = function (renderSession) { if (this.fixedToCamera) { this.position.x = (this.game.camera.view.x + this.cameraOffset.x) / this.game.camera.scale.x; this.position.y = (this.game.camera.view.y + this.cameraOffset.y) / this.game.camera.scale.y; } this._scrollX = this.game.camera.view.x * this.scrollFactorX / this.scale.x; this._scrollY = this.game.camera.view.y * this.scrollFactorY / this.scale.y; this.render(); PIXI.Sprite.prototype._renderWebGL.call(this, renderSession); }; /** * Destroys this TilemapLayer. * * @method Phaser.TilemapLayer#destroy */ Phaser.TilemapLayer.prototype.destroy = function() { PIXI.CanvasPool.remove(this); Phaser.Component.Destroy.prototype.destroy.call(this); }; /** * Resizes the internal canvas and texture frame used by this TilemapLayer. * * This is an expensive call, so don't bind it to a window resize event! But instead call it at carefully * selected times. * * Be aware that no validation of the new sizes takes place and the current map scroll coordinates are not * modified either. You will have to handle both of these things from your game code if required. * * @method Phaser.TilemapLayer#resize * @param {number} width - The new width of the TilemapLayer * @param {number} height - The new height of the TilemapLayer */ Phaser.TilemapLayer.prototype.resize = function (width, height) { this.canvas.width = width; this.canvas.height = height; this.texture.frame.resize(width, height); this.texture.width = width; this.texture.height = height; this.texture.crop.width = width; this.texture.crop.height = height; this.texture.baseTexture.width = width; this.texture.baseTexture.height = height; this.texture.baseTexture.dirty(); this.texture.requiresUpdate = true; this.texture._updateUvs(); this.dirty = true; }; /** * Sets the world size to match the size of this layer. * * @method Phaser.TilemapLayer#resizeWorld * @public */ Phaser.TilemapLayer.prototype.resizeWorld = function () { this.game.world.setBounds(0, 0, this.layer.widthInPixels * this.scale.x, this.layer.heightInPixels * this.scale.y); }; /** * Take an x coordinate that doesn't account for scrollFactorX and 'fix' it into a scrolled local space. * * @method Phaser.TilemapLayer#_fixX * @private * @param {number} x - x coordinate in camera space * @return {number} x coordinate in scrollFactor-adjusted dimensions */ Phaser.TilemapLayer.prototype._fixX = function (x) { if (this.scrollFactorX === 1 || (this.scrollFactorX === 0 && this.position.x === 0)) { return x; } // This executes if the scrollFactorX is 0 and the x position of the tilemap is off from standard. if (this.scrollFactorX === 0 && this.position.x !== 0) { return x - this.position.x; } return this._scrollX + (x - (this._scrollX / this.scrollFactorX)); }; /** * Take an x coordinate that _does_ account for scrollFactorX and 'unfix' it back to camera space. * * @method Phaser.TilemapLayer#_unfixX * @private * @param {number} x - x coordinate in scrollFactor-adjusted dimensions * @return {number} x coordinate in camera space */ Phaser.TilemapLayer.prototype._unfixX = function (x) { if (this.scrollFactorX === 1) { return x; } return (this._scrollX / this.scrollFactorX) + (x - this._scrollX); }; /** * Take a y coordinate that doesn't account for scrollFactorY and 'fix' it into a scrolled local space. * * @method Phaser.TilemapLayer#_fixY * @private * @param {number} y - y coordinate in camera space * @return {number} y coordinate in scrollFactor-adjusted dimensions */ Phaser.TilemapLayer.prototype._fixY = function (y) { if (this.scrollFactorY === 1 || (this.scrollFactorY === 0 && this.position.y === 0)) { return y; } // This executes if the scrollFactorY is 0 and the y position of the tilemap is off from standard. if (this.scrollFactorY === 0 && this.position.y !== 0) { return y - this.position.y; } return this._scrollY + (y - (this._scrollY / this.scrollFactorY)); }; /** * Take a y coordinate that _does_ account for scrollFactorY and 'unfix' it back to camera space. * * @method Phaser.TilemapLayer#_unfixY * @private * @param {number} y - y coordinate in scrollFactor-adjusted dimensions * @return {number} y coordinate in camera space */ Phaser.TilemapLayer.prototype._unfixY = function (y) { if (this.scrollFactorY === 1) { return y; } return (this._scrollY / this.scrollFactorY) + (y - this._scrollY); }; /** * Convert a pixel value to a tile coordinate. * * @method Phaser.TilemapLayer#getTileX * @public * @param {number} x - X position of the point in target tile (in pixels). * @return {integer} The X map location of the tile. */ Phaser.TilemapLayer.prototype.getTileX = function (x) { // var tileWidth = this.tileWidth * this.scale.x; return Math.floor(this._fixX(x) / this._mc.tileWidth); }; /** * Convert a pixel value to a tile coordinate. * * @method Phaser.TilemapLayer#getTileY * @public * @param {number} y - Y position of the point in target tile (in pixels). * @return {integer} The Y map location of the tile. */ Phaser.TilemapLayer.prototype.getTileY = function (y) { // var tileHeight = this.tileHeight * this.scale.y; return Math.floor(this._fixY(y) / this._mc.tileHeight); }; /** * Convert a pixel coordinate to a tile coordinate. * * @method Phaser.TilemapLayer#getTileXY * @public * @param {number} x - X position of the point in target tile (in pixels). * @param {number} y - Y position of the point in target tile (in pixels). * @param {(Phaser.Point|object)} point - The Point/object to update. * @return {(Phaser.Point|object)} A Point/object with its `x` and `y` properties set. */ Phaser.TilemapLayer.prototype.getTileXY = function (x, y, point) { point.x = this.getTileX(x); point.y = this.getTileY(y); return point; }; /** * Gets all tiles that intersect with the given line. * * @method Phaser.TilemapLayer#getRayCastTiles * @public * @param {Phaser.Line} line - The line used to determine which tiles to return. * @param {integer} [stepRate=(rayStepRate)] - How many steps through the ray will we check? Defaults to `rayStepRate`. * @param {boolean} [collides=false] - If true, _only_ return tiles that collide on one or more faces. * @param {boolean} [interestingFace=false] - If true, _only_ return tiles that have interesting faces. * @return {Phaser.Tile[]} An array of Phaser.Tiles. */ Phaser.TilemapLayer.prototype.getRayCastTiles = function (line, stepRate, collides, interestingFace) { if (!stepRate) { stepRate = this.rayStepRate; } if (collides === undefined) { collides = false; } if (interestingFace === undefined) { interestingFace = false; } // First get all tiles that touch the bounds of the line var tiles = this.getTiles(line.x, line.y, line.width, line.height, collides, interestingFace); if (tiles.length === 0) { return []; } // Now we only want the tiles that intersect with the points on this line var coords = line.coordinatesOnLine(stepRate); var results = []; for (var i = 0; i < tiles.length; i++) { for (var t = 0; t < coords.length; t++) { var tile = tiles[i]; var coord = coords[t]; if (tile.containsPoint(coord[0], coord[1])) { results.push(tile); break; } } } return results; }; /** * Get all tiles that exist within the given area, defined by the top-left corner, width and height. Values given are in pixels, not tiles. * * @method Phaser.TilemapLayer#getTiles * @public * @param {number} x - X position of the top left corner (in pixels). * @param {number} y - Y position of the top left corner (in pixels). * @param {number} width - Width of the area to get (in pixels). * @param {number} height - Height of the area to get (in pixels). * @param {boolean} [collides=false] - If true, _only_ return tiles that collide on one or more faces. * @param {boolean} [interestingFace=false] - If true, _only_ return tiles that have interesting faces. * @return {array<Phaser.Tile>} An array of Tiles. */ Phaser.TilemapLayer.prototype.getTiles = function (x, y, width, height, collides, interestingFace) { // Should we only get tiles that have at least one of their collision flags set? (true = yes, false = no just get them all) if (collides === undefined) { collides = false; } if (interestingFace === undefined) { interestingFace = false; } var fetchAll = !(collides || interestingFace); // Adjust the x,y coordinates for scrollFactor x = this._fixX(x); y = this._fixY(y); // Convert the pixel values into tile coordinates var tx = Math.floor(x / (this._mc.cw * this.scale.x)); var ty = Math.floor(y / (this._mc.ch * this.scale.y)); // Don't just use ceil(width/cw) to allow account for x/y diff within cell var tw = Math.ceil((x + width) / (this._mc.cw * this.scale.x)) - tx; var th = Math.ceil((y + height) / (this._mc.ch * this.scale.y)) - ty; while (this._results.length) { this._results.pop(); } for (var wy = ty; wy < ty + th; wy++) { for (var wx = tx; wx < tx + tw; wx++) { var row = this.layer.data[wy]; if (row && row[wx]) { if (fetchAll || row[wx].isInteresting(collides, interestingFace)) { this._results.push(row[wx]); } } } } return this._results.slice(); }; /** * Returns the appropriate tileset for the index, updating the internal cache as required. * This should only be called if `tilesets[index]` evaluates to undefined. * * @method Phaser.TilemapLayer#resolveTileset * @private * @param {integer} Tile index * @return {Phaser.Tileset|null} Returns the associated tileset or null if there is no such mapping. */ Phaser.TilemapLayer.prototype.resolveTileset = function (tileIndex) { var tilesets = this._mc.tilesets; // Try for dense array if reasonable if (tileIndex < 2000) { while (tilesets.length < tileIndex) { tilesets.push(undefined); } } var setIndex = this.map.tiles[tileIndex] && this.map.tiles[tileIndex][2]; if (setIndex != null) // number: not null or undefined { var tileset = this.map.tilesets[setIndex]; if (tileset && tileset.containsTileIndex(tileIndex)) { return (tilesets[tileIndex] = tileset); } } return (tilesets[tileIndex] = null); }; /** * The TilemapLayer caches tileset look-ups. * * Call this method of clear the cache if tilesets have been added or updated after the layer has been rendered. * * @method Phaser.TilemapLayer#resetTilesetCache * @public */ Phaser.TilemapLayer.prototype.resetTilesetCache = function () { var tilesets = this._mc.tilesets; while (tilesets.length) { tilesets.pop(); } }; /** * This method will set the scale of the tilemap as well as update the underlying block data of this layer. * * @method Phaser.TilemapLayer#setScale * @param {number} [xScale=1] - The scale factor along the X-plane * @param {number} [yScale] - The scale factor along the Y-plane */ Phaser.TilemapLayer.prototype.setScale = function (xScale, yScale) { xScale = xScale || 1; yScale = yScale || xScale; for (var y = 0; y < this.layer.data.length; y++) { var row = this.layer.data[y]; for (var x = 0; x < row.length; x++) { var tile = row[x]; tile.width = this.map.tileWidth * xScale; tile.height = this.map.tileHeight * yScale; tile.worldX = tile.x * tile.width; tile.worldY = tile.y * tile.height; } } this.scale.setTo(xScale, yScale); }; /** * Shifts the contents of the canvas - does extra math so that different browsers agree on the result. * * The specified (x/y) will be shifted to (0,0) after the copy and the newly exposed canvas area will need to be filled in. * * @method Phaser.TilemapLayer#shiftCanvas * @private * @param {CanvasRenderingContext2D} context - The context to shift * @param {integer} x * @param {integer} y */ Phaser.TilemapLayer.prototype.shiftCanvas = function (context, x, y) { var canvas = context.canvas; var copyW = canvas.width - Math.abs(x); var copyH = canvas.height - Math.abs(y); // When x/y non-negative var dx = 0; var dy = 0; var sx = x; var sy = y; if (x < 0) { dx = -x; sx = 0; } if (y < 0) { dy = -y; sy = 0; } var copyCanvas = this.renderSettings.copyCanvas; if (copyCanvas) { // Use a second copy buffer, without slice support, for Safari .. again. // Ensure copy canvas is large enough if (copyCanvas.width < copyW || copyCanvas.height < copyH) { copyCanvas.width = copyW; copyCanvas.height = copyH; } var copyContext = copyCanvas.getContext('2d'); copyContext.clearRect(0, 0, copyW, copyH); copyContext.drawImage(canvas, dx, dy, copyW, copyH, 0, 0, copyW, copyH); // clear allows default 'source-over' semantics context.clearRect(sx, sy, copyW, copyH); context.drawImage(copyCanvas, 0, 0, copyW, copyH, sx, sy, copyW, copyH); } else { // Avoids a second copy but flickers in Safari / Safari Mobile // Ref. https://github.com/photonstorm/phaser/issues/1439 context.save(); context.globalCompositeOperation = 'copy'; context.drawImage(canvas, dx, dy, copyW, copyH, sx, sy, copyW, copyH); context.restore(); } }; /** * Render tiles in the given area given by the virtual tile coordinates biased by the given scroll factor. * This will constrain the tile coordinates based on wrapping but not physical coordinates. * * @method Phaser.TilemapLayer#renderRegion * @private * @param {integer} scrollX - Render x offset/scroll. * @param {integer} scrollY - Render y offset/scroll. * @param {integer} left - Leftmost column to render. * @param {integer} top - Topmost row to render. * @param {integer} right - Rightmost column to render. * @param {integer} bottom - Bottommost row to render. */ Phaser.TilemapLayer.prototype.renderRegion = function (scrollX, scrollY, left, top, right, bottom) { var context = this.context; var width = this.layer.width; var height = this.layer.height; var tw = this._mc.tileWidth; var th = this._mc.tileHeight; var tilesets = this._mc.tilesets; var lastAlpha = NaN; if (!this._wrap) { if (left <= right) // Only adjust if going to render { left = Math.max(0, left); right = Math.min(width - 1, right); } if (top <= bottom) { top = Math.max(0, top); bottom = Math.min(height - 1, bottom); } } // top-left pixel of top-left cell var baseX = (left * tw) - scrollX; var baseY = (top * th) - scrollY; // Fix normStartX/normStartY such it is normalized [0..width/height). This allows a simple conditional and decrement to always keep in range [0..width/height) during the loop. The major offset bias is to take care of negative values. var normStartX = (left + ((1 << 20) * width)) % width; var normStartY = (top + ((1 << 20) * height)) % height; // tx/ty - are pixel coordinates where tile is drawn // x/y - is cell location, normalized [0..width/height) in loop // xmax/ymax - remaining cells to render on column/row var tx, ty, x, y, xmax, ymax; context.fillStyle = this.tileColor; for (y = normStartY, ymax = bottom - top, ty = baseY; ymax >= 0; y++, ymax--, ty += th) { if (y >= height) { y -= height; } var row = this.layer.data[y]; for (x = normStartX, xmax = right - left, tx = baseX; xmax >= 0; x++, xmax--, tx += tw) { if (x >= width) { x -= width; } var tile = row[x]; if (!tile || tile.index < 0) { continue; } var index = tile.index; var set = tilesets[index]; if (set === undefined) { set = this.resolveTileset(index); } // Setting the globalAlpha is "surprisingly expensive" in Chrome (38) if (tile.alpha !== lastAlpha && !this.debug) { context.globalAlpha = tile.alpha; lastAlpha = tile.alpha; } if (set) { if (tile.rotation || tile.flipped) { context.save(); context.translate(tx + tile.centerX, ty + tile.centerY); context.rotate(tile.rotation); if (tile.flipped) { context.scale(-1, 1); } set.draw(context, -tile.centerX, -tile.centerY, index); context.restore(); } else { set.draw(context, tx, ty, index); } } else if (this.debugSettings.missingImageFill) { context.fillStyle = this.debugSettings.missingImageFill; context.fillRect(tx, ty, tw, th); } if (tile.debug && this.debugSettings.debuggedTileOverfill) { context.fillStyle = this.debugSettings.debuggedTileOverfill; context.fillRect(tx, ty, tw, th); } } } }; /** * Shifts the canvas and render damaged edge tiles. * * @method Phaser.TilemapLayer#renderDeltaScroll * @private */ Phaser.TilemapLayer.prototype.renderDeltaScroll = function (shiftX, shiftY) { var scrollX = this._mc.scrollX; var scrollY = this._mc.scrollY; var renderW = this.canvas.width; var renderH = this.canvas.height; var tw = this._mc.tileWidth; var th = this._mc.tileHeight; // Only cells with coordinates in the "plus" formed by `left <= x <= right` OR `top <= y <= bottom` are drawn. These coordinates may be outside the layer bounds. // Start in pixels var left = 0; var right = -tw; var top = 0; var bottom = -th; if (shiftX < 0) // layer moving left, damage right { left = renderW + shiftX; // shiftX neg. right = renderW - 1; } else if (shiftX > 0) { // left -> 0 right = shiftX; } if (shiftY < 0) // layer moving down, damage top { top = renderH + shiftY; // shiftY neg. bottom = renderH - 1; } else if (shiftY > 0) { // top -> 0 bottom = shiftY; } this.shiftCanvas(this.context, shiftX, shiftY); // Transform into tile-space left = Math.floor((left + scrollX) / tw); right = Math.floor((right + scrollX) / tw); top = Math.floor((top + scrollY) / th); bottom = Math.floor((bottom + scrollY) / th); if (left <= right) { // Clear left or right edge this.context.clearRect(((left * tw) - scrollX), 0, (right - left + 1) * tw, renderH); var trueTop = Math.floor((0 + scrollY) / th); var trueBottom = Math.floor((renderH - 1 + scrollY) / th); this.renderRegion(scrollX, scrollY, left, trueTop, right, trueBottom); } if (top <= bottom) { // Clear top or bottom edge this.context.clearRect(0, ((top * th) - scrollY), renderW, (bottom - top + 1) * th); var trueLeft = Math.floor((0 + scrollX) / tw); var trueRight = Math.floor((renderW - 1 + scrollX) / tw); this.renderRegion(scrollX, scrollY, trueLeft, top, trueRight, bottom); } }; /** * Clear and render the entire canvas. * * @method Phaser.TilemapLayer#renderFull * @private */ Phaser.TilemapLayer.prototype.renderFull = function () { var scrollX = this._mc.scrollX; var scrollY = this._mc.scrollY; var renderW = this.canvas.width; var renderH = this.canvas.height; var tw = this._mc.tileWidth; var th = this._mc.tileHeight; var left = Math.floor(scrollX / tw); var right = Math.floor((renderW - 1 + scrollX) / tw); var top = Math.floor(scrollY / th); var bottom = Math.floor((renderH - 1 + scrollY) / th); this.context.clearRect(0, 0, renderW, renderH); this.renderRegion(scrollX, scrollY, left, top, right, bottom); }; /** * Renders the tiles to the layer canvas and pushes to the display. * * @method Phaser.TilemapLayer#render * @protected */ Phaser.TilemapLayer.prototype.render = function () { var redrawAll = false; if (!this.visible) { return; } if (this.dirty || this.layer.dirty) { this.layer.dirty = false; redrawAll = true; } var renderWidth = this.canvas.width; // Use Sprite.width/height? var renderHeight = this.canvas.height; // Scrolling bias; whole pixels only var scrollX = this._scrollX | 0; var scrollY = this._scrollY | 0; var mc = this._mc; var shiftX = mc.scrollX - scrollX; // Negative when scrolling right/down var shiftY = mc.scrollY - scrollY; if (!redrawAll && shiftX === 0 && shiftY === 0 && mc.renderWidth === renderWidth && mc.renderHeight === renderHeight) { // No reason to redraw map, looking at same thing and not invalidated. return; } this.context.save(); mc.scrollX = scrollX; mc.scrollY = scrollY; if (mc.renderWidth !== renderWidth || mc.renderHeight !== renderHeight) { // Could support automatic canvas resizing mc.renderWidth = renderWidth; mc.renderHeight = renderHeight; } if (this.debug) { this.context.globalAlpha = this.debugSettings.debugAlpha; if (this.debugSettings.forceFullRedraw) { redrawAll = true; } } if (!redrawAll && this.renderSettings.enableScrollDelta && (Math.abs(shiftX) + Math.abs(shiftY)) < Math.min(renderWidth, renderHeight)) { this.renderDeltaScroll(shiftX, shiftY); } else { // Too much change or otherwise requires full render this.renderFull(); } if (this.debug) { this.context.globalAlpha = 1; this.renderDebug(); } this.texture.baseTexture.dirty(); this.dirty = false; this.context.restore(); return true; }; /** * Renders a debug overlay on-top of the canvas. Called automatically by render when `debug` is true. * * See `debugSettings` for assorted configuration options. * * @method Phaser.TilemapLayer#renderDebug * @private */ Phaser.TilemapLayer.prototype.renderDebug = function () { var scrollX = this._mc.scrollX; var scrollY = this._mc.scrollY; var context = this.context; var renderW = this.canvas.width; var renderH = this.canvas.height; var width = this.layer.width; var height = this.layer.height; var tw = this._mc.tileWidth; var th = this._mc.tileHeight; var left = Math.floor(scrollX / tw); var right = Math.floor((renderW - 1 + scrollX) / tw); var top = Math.floor(scrollY / th); var bottom = Math.floor((renderH - 1 + scrollY) / th); var baseX = (left * tw) - scrollX; var baseY = (top * th) - scrollY; var normStartX = (left + ((1 << 20) * width)) % width; var normStartY = (top + ((1 << 20) * height)) % height; var tx, ty, x, y, xmax, ymax; context.strokeStyle = this.debugSettings.facingEdgeStroke; for (y = normStartY, ymax = bottom - top, ty = baseY; ymax >= 0; y++, ymax--, ty += th) { if (y >= height) { y -= height; } var row = this.layer.data[y]; for (x = normStartX, xmax = right - left, tx = baseX; xmax >= 0; x++, xmax--, tx += tw) { if (x >= width) { x -= width; } var tile = row[x]; if (!tile || tile.index < 0 || !tile.collides) { continue; } if (this.debugSettings.collidingTileOverfill) { context.fillStyle = this.debugSettings.collidingTileOverfill; context.fillRect(tx, ty, this._mc.cw, this._mc.ch); } if (this.debugSettings.facingEdgeStroke) { context.beginPath(); if (tile.faceTop) { context.moveTo(tx, ty); context.lineTo(tx + this._mc.cw, ty); } if (tile.faceBottom) { context.moveTo(tx, ty + this._mc.ch); context.lineTo(tx + this._mc.cw, ty + this._mc.ch); } if (tile.faceLeft) { context.moveTo(tx, ty); context.lineTo(tx, ty + this._mc.ch); } if (tile.faceRight) { context.moveTo(tx + this._mc.cw, ty); context.lineTo(tx + this._mc.cw, ty + this._mc.ch); } context.stroke(); } } } }; /** * Flag controlling if the layer tiles wrap at the edges. Only works if the World size matches the Map size. * * @property {boolean} wrap * @memberof Phaser.TilemapLayer * @public * @default false */ Object.defineProperty(Phaser.TilemapLayer.prototype, "wrap", { get: function () { return this._wrap; }, set: function (value) { this._wrap = value; this.dirty = true; } }); /** * Scrolls the map horizontally or returns the current x position. * * @property {number} scrollX * @memberof Phaser.TilemapLayer * @public */ Object.defineProperty(Phaser.TilemapLayer.prototype, "scrollX", { get: function () { return this._scrollX; }, set: function (value) { this._scrollX = value; } }); /** * Scrolls the map vertically or returns the current y position. * * @property {number} scrollY * @memberof Phaser.TilemapLayer * @public */ Object.defineProperty(Phaser.TilemapLayer.prototype, "scrollY", { get: function () { return this._scrollY; }, set: function (value) { this._scrollY = value; } }); /** * The width of the collision tiles (in pixels). * * @property {integer} collisionWidth * @memberof Phaser.TilemapLayer * @public */ Object.defineProperty(Phaser.TilemapLayer.prototype, "collisionWidth", { get: function () { return this._mc.cw; }, set: function (value) { this._mc.cw = value | 0; this.dirty = true; } }); /** * The height of the collision tiles (in pixels). * * @property {integer} collisionHeight * @memberof Phaser.TilemapLayer * @public */ Object.defineProperty(Phaser.TilemapLayer.prototype, "collisionHeight", { get: function () { return this._mc.ch; }, set: function (value) { this._mc.ch = value | 0; this.dirty = true; } });