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openseadragon/src/drawer.js

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(function( $ ){
var QUOTA = 100; // the max number of images we should keep in memory
var MIN_PIXEL_RATIO = 0.5; // the most shrunk a tile should be
var browser = $.Utils.getBrowser();
var browserVer = $.Utils.getBrowserVersion();
var subpixelRenders = browser == $.Browser.FIREFOX ||
browser == $.Browser.OPERA ||
(browser == $.Browser.SAFARI && browserVer >= 4) ||
(browser == $.Browser.CHROME && browserVer >= 2);
var useCanvas =
typeof (document.createElement("canvas").getContext) == "function" &&
subpixelRenders;
$.Drawer = function(source, viewport, elmt) {
this._container = $.Utils.getElement(elmt);
this._canvas = $.Utils.makeNeutralElement(useCanvas ? "canvas" : "div");
this._context = useCanvas ? this._canvas.getContext("2d") : null;
this._viewport = viewport;
this._source = source;
this.config = this._viewport.config;
this._imageLoader = new $.ImageLoader(this.config.imageLoaderLimit);
this._profiler = new $.Profiler();
this._minLevel = source.minLevel;
this._maxLevel = source.maxLevel;
this._tileSize = source.tileSize;
this._tileOverlap = source.tileOverlap;
this._normHeight = source.dimensions.y / source.dimensions.x;
this._cacheNumTiles = {}; // 1d dictionary [level] --> Point
this._cachePixelRatios = {}; // 1d dictionary [level] --> Point
this._tilesMatrix = {}; // 3d dictionary [level][x][y] --> Tile
this._tilesLoaded = []; // unordered list of Tiles with loaded images
this._coverage = {}; // 3d dictionary [level][x][y] --> Boolean
this._overlays = []; // unordered list of Overlays added
this._lastDrawn = []; // unordered list of Tiles drawn last frame
this._lastResetTime = 0;
this._midUpdate = false;
this._updateAgain = true;
this.elmt = this._container;
this._canvas.style.width = "100%";
this._canvas.style.height = "100%";
this._canvas.style.position = "absolute";
this._container.style.textAlign = "left"; // explicit left-align
this._container.appendChild(this._canvas);
};
$.Drawer.prototype = {
_compareTiles: function(prevBest, tile) {
if (!prevBest) {
return tile;
}
if (tile.visibility > prevBest.visibility) {
return tile;
} else if (tile.visibility == prevBest.visibility) {
if (tile.distance < prevBest.distance) {
return tile;
}
}
return prevBest;
},
_getNumTiles: function(level) {
if (!this._cacheNumTiles[level]) {
this._cacheNumTiles[level] = this._source.getNumTiles(level);
}
return this._cacheNumTiles[level];
},
_getPixelRatio: function(level) {
if (!this._cachePixelRatios[level]) {
this._cachePixelRatios[level] = this._source.getPixelRatio(level);
}
return this._cachePixelRatios[level];
},
_getTile: function(level, x, y, time, numTilesX, numTilesY) {
if (!this._tilesMatrix[level]) {
this._tilesMatrix[level] = {};
}
if (!this._tilesMatrix[level][x]) {
this._tilesMatrix[level][x] = {};
}
if (!this._tilesMatrix[level][x][y]) {
var xMod = (numTilesX + (x % numTilesX)) % numTilesX;
var yMod = (numTilesY + (y % numTilesY)) % numTilesY;
var bounds = this._source.getTileBounds(level, xMod, yMod);
var exists = this._source.tileExists(level, xMod, yMod);
var url = this._source.getTileUrl(level, xMod, yMod);
bounds.x += 1.0 * (x - xMod) / numTilesX;
bounds.y += this._normHeight * (y - yMod) / numTilesY;
this._tilesMatrix[level][x][y] = new $.Tile(level, x, y, bounds, exists, url);
}
var tile = this._tilesMatrix[level][x][y];
tile.lastTouchTime = time;
return tile;
},
_loadTile: function(tile, time) {
tile.loading = this._imageLoader.loadImage(tile.url,
$.Utils.createCallback(null, $.delegate(this, this._onTileLoad), tile, time));
},
_onTileLoad: function(tile, time, image) {
tile.loading = false;
if (this._midUpdate) {
$.Debug.error("Tile load callback in middle of drawing routine.");
return;
} else if (!image) {
$.Debug.log("Tile " + tile + " failed to load: " + tile.url);
tile.exists = false;
return;
} else if (time < this._lastResetTime) {
$.Debug.log("Ignoring tile " + tile + " loaded before reset: " + tile.url);
return;
}
tile.loaded = true;
tile.image = image;
var insertionIndex = this._tilesLoaded.length;
if (this._tilesLoaded.length >= QUOTA) {
var cutoff = Math.ceil(Math.log(this._tileSize) / Math.log(2));
var worstTile = null;
var worstTileIndex = -1;
for (var i = this._tilesLoaded.length - 1; i >= 0; i--) {
var prevTile = this._tilesLoaded[i];
if (prevTile.level <= this._cutoff || prevTile.beingDrawn) {
continue;
} else if (!worstTile) {
worstTile = prevTile;
worstTileIndex = i;
continue;
}
var prevTime = prevTile.lastTouchTime;
var worstTime = worstTile.lastTouchTime;
var prevLevel = prevTile.level;
var worstLevel = worstTile.level;
if (prevTime < worstTime ||
(prevTime == worstTime && prevLevel > worstLevel)) {
worstTile = prevTile;
worstTileIndex = i;
}
}
if (worstTile && worstTileIndex >= 0) {
worstTile.unload();
insertionIndex = worstTileIndex;
}
}
this._tilesLoaded[insertionIndex] = tile;
this._updateAgain = true;
},
_clearTiles: function() {
this._tilesMatrix = {};
this._tilesLoaded = [];
},
/**
* Returns true if the given tile provides coverage to lower-level tiles of
* lower resolution representing the same content. If neither x nor y is
* given, returns true if the entire visible level provides coverage.
*
* Note that out-of-bounds tiles provide coverage in this sense, since
* there's no content that they would need to cover. Tiles at non-existent
* levels that are within the image bounds, however, do not.
*/
_providesCoverage: function(level, x, y) {
if (!this._coverage[level]) {
return false;
}
if (x === undefined || y === undefined) {
var rows = this._coverage[level];
for (var i in rows) {
if (rows.hasOwnProperty(i)) {
var cols = rows[i];
for (var j in cols) {
if (cols.hasOwnProperty(j) && !cols[j]) {
return false;
}
}
}
}
return true;
}
return (this._coverage[level][x] === undefined ||
this._coverage[level][x][y] === undefined ||
this._coverage[level][x][y] === true);
},
/**
* Returns true if the given tile is completely covered by higher-level
* tiles of higher resolution representing the same content. If neither x
* nor y is given, returns true if the entire visible level is covered.
*/
_isCovered: function(level, x, y) {
if (x === undefined || y === undefined) {
return this._providesCoverage(level + 1);
} else {
return (this._providesCoverage(level + 1, 2 * x, 2 * y) &&
this._providesCoverage(level + 1, 2 * x, 2 * y + 1) &&
this._providesCoverage(level + 1, 2 * x + 1, 2 * y) &&
this._providesCoverage(level + 1, 2 * x + 1, 2 * y + 1));
}
},
/**
* Sets whether the given tile provides coverage or not.
*/
_setCoverage: function(level, x, y, covers) {
if (!this._coverage[level]) {
$.Debug.error("Setting coverage for a tile before its " +
"level's coverage has been reset: " + level);
return;
}
if (!this._coverage[level][x]) {
this._coverage[level][x] = {};
}
this._coverage[level][x][y] = covers;
},
/**
* Resets coverage information for the given level. This should be called
* after every draw routine. Note that at the beginning of the next draw
* routine, coverage for every visible tile should be explicitly set.
*/
_resetCoverage: function(level) {
this._coverage[level] = {};
},
_compareTiles: function(prevBest, tile) {
if (!prevBest) {
return tile;
}
if (tile.visibility > prevBest.visibility) {
return tile;
} else if (tile.visibility == prevBest.visibility) {
if (tile.distance < prevBest.distance) {
return tile;
}
}
return prevBest;
},
_getOverlayIndex: function(elmt) {
for (var i = this._overlays.length - 1; i >= 0; i--) {
if (this._overlays[i].elmt == elmt) {
return i;
}
}
return -1;
},
_updateActual: function() {
this._updateAgain = false;
var _canvas = this._canvas;
var _context = this._context;
var _container = this._container;
var _useCanvas = useCanvas;
var _lastDrawn = this._lastDrawn;
while (_lastDrawn.length > 0) {
var tile = _lastDrawn.pop();
tile.beingDrawn = false;
}
var viewportSize = this._viewport.getContainerSize();
var viewportWidth = viewportSize.x;
var viewportHeight = viewportSize.y;
_canvas.innerHTML = "";
if (_useCanvas) {
_canvas.width = viewportWidth;
_canvas.height = viewportHeight;
_context.clearRect(0, 0, viewportWidth, viewportHeight);
}
var viewportBounds = this._viewport.getBounds(true);
var viewportTL = viewportBounds.getTopLeft();
var viewportBR = viewportBounds.getBottomRight();
if (!this.config.wrapHorizontal &&
(viewportBR.x < 0 || viewportTL.x > 1)) {
return;
} else if (!this.config.wrapVertical &&
(viewportBR.y < 0 || viewportTL.y > this._normHeight)) {
return;
}
var _abs = Math.abs;
var _ceil = Math.ceil;
var _floor = Math.floor;
var _log = Math.log;
var _max = Math.max;
var _min = Math.min;
var alwaysBlend = this.config.alwaysBlend;
var blendTimeMillis = 1000 * this.config.blendTime;
var immediateRender = this.config.immediateRender;
var wrapHorizontal = this.config.wrapHorizontal;
var wrapVertical = this.config.wrapVertical;
if (!wrapHorizontal) {
viewportTL.x = _max(viewportTL.x, 0);
viewportBR.x = _min(viewportBR.x, 1);
}
if (!wrapVertical) {
viewportTL.y = _max(viewportTL.y, 0);
viewportBR.y = _min(viewportBR.y, this._normHeight);
}
var best = null;
var haveDrawn = false;
var currentTime = new Date().getTime();
var viewportCenter = this._viewport.pixelFromPoint(this._viewport.getCenter());
var zeroRatioT = this._viewport.deltaPixelsFromPoints(this._source.getPixelRatio(0), false).x;
var optimalPixelRatio = immediateRender ? 1 : zeroRatioT;
var lowestLevel = _max(this._minLevel, _floor(_log(this.config.minZoomImageRatio) / _log(2)));
var zeroRatioC = this._viewport.deltaPixelsFromPoints(this._source.getPixelRatio(0), true).x;
var highestLevel = _min(this._maxLevel,
_floor(_log(zeroRatioC / MIN_PIXEL_RATIO) / _log(2)));
lowestLevel = _min(lowestLevel, highestLevel);
for (var level = highestLevel; level >= lowestLevel; level--) {
var drawLevel = false;
var renderPixelRatioC = this._viewport.deltaPixelsFromPoints(
this._source.getPixelRatio(level), true).x; // note the .x!
if ((!haveDrawn && renderPixelRatioC >= MIN_PIXEL_RATIO) ||
level == lowestLevel) {
drawLevel = true;
haveDrawn = true;
} else if (!haveDrawn) {
continue;
}
this._resetCoverage(level);
var levelOpacity = _min(1, (renderPixelRatioC - 0.5) / 0.5);
var renderPixelRatioT = this._viewport.deltaPixelsFromPoints(
this._source.getPixelRatio(level), false).x;
var levelVisibility = optimalPixelRatio /
_abs(optimalPixelRatio - renderPixelRatioT);
var tileTL = this._source.getTileAtPoint(level, viewportTL);
var tileBR = this._source.getTileAtPoint(level, viewportBR);
var numTiles = this._getNumTiles(level);
var numTilesX = numTiles.x;
var numTilesY = numTiles.y;
if (!wrapHorizontal) {
tileBR.x = _min(tileBR.x, numTilesX - 1);
}
if (!wrapVertical) {
tileBR.y = _min(tileBR.y, numTilesY - 1);
}
for (var x = tileTL.x; x <= tileBR.x; x++) {
for (var y = tileTL.y; y <= tileBR.y; y++) {
var tile = this._getTile(level, x, y, currentTime, numTilesX, numTilesY);
var drawTile = drawLevel;
this._setCoverage(level, x, y, false);
if (!tile.exists) {
continue;
}
if (haveDrawn && !drawTile) {
if (this._isCovered(level, x, y)) {
this._setCoverage(level, x, y, true);
} else {
drawTile = true;
}
}
if (!drawTile) {
continue;
}
var boundsTL = tile.bounds.getTopLeft();
var boundsSize = tile.bounds.getSize();
var positionC = this._viewport.pixelFromPoint(boundsTL, true);
var sizeC = this._viewport.deltaPixelsFromPoints(boundsSize, true);
if (!this._tileOverlap) {
sizeC = sizeC.plus(new $.Point(1, 1));
}
var positionT = this._viewport.pixelFromPoint(boundsTL, false);
var sizeT = this._viewport.deltaPixelsFromPoints(boundsSize, false);
var tileCenter = positionT.plus(sizeT.divide(2));
var tileDistance = viewportCenter.distanceTo(tileCenter);
tile.position = positionC;
tile.size = sizeC;
tile.distance = tileDistance;
tile.visibility = levelVisibility;
if (tile.loaded) {
if (!tile.blendStart) {
tile.blendStart = currentTime;
}
var deltaTime = currentTime - tile.blendStart;
var opacity = _min(1, deltaTime / blendTimeMillis);
if (alwaysBlend) {
opacity *= levelOpacity;
}
tile.opacity = opacity;
_lastDrawn.push(tile);
if (opacity == 1) {
this._setCoverage(level, x, y, true);
} else if (deltaTime < blendTimeMillis) {
updateAgain = true;
}
} else if (tile.Loading) {
} else {
best = this._compareTiles(best, tile);
}
}
}
if (this._providesCoverage(level)) {
break;
}
}
for (var i = _lastDrawn.length - 1; i >= 0; i--) {
var tile = _lastDrawn[i];
if (_useCanvas) {
tile.drawCanvas(_context);
} else {
tile.drawHTML(_canvas);
}
tile.beingDrawn = true;
}
var numOverlays = this._overlays.length;
for (var i = 0; i < numOverlays; i++) {
var overlay = this._overlays[i];
var bounds = overlay.bounds;
overlay.position = this._viewport.pixelFromPoint(bounds.getTopLeft(), true);
overlay.size = this._viewport.deltaPixelsFromPoints(bounds.getSize(), true);
overlay.drawHTML(_container);
}
if (best) {
this._loadTile(best, currentTime);
this._updateAgain = true; // because we haven't finished drawing, so
}
},
addOverlay: function(elmt, loc, placement) {
var elmt = $.Utils.getElement(elmt);
if (this._getOverlayIndex(elmt) >= 0) {
return; // they're trying to add a duplicate overlay
}
this._overlays.push(new $.Overlay(elmt, loc, placement));
this._updateAgain = true;
},
updateOverlay: function(elmt, loc, placement) {
var elmt = $.Utils.getElement(elmt);
var i = this._getOverlayIndex(elmt);
if (i >= 0) {
this._overlays[i].update(loc, placement);
this._updateAgain = true;
}
},
removeOverlay: function(elmt) {
var elmt = $.Utils.getElement(elmt);
var i = this._getOverlayIndex(elmt);
if (i >= 0) {
this._overlays[i].destroy();
this._overlays.splice(i, 1);
this._updateAgain = true;
}
},
clearOverlays: function() {
while (this._overlays.length > 0) {
this._overlays.pop().destroy();
this._updateAgain = true;
}
},
needsUpdate: function() {
return this._updateAgain;
},
numTilesLoaded: function() {
return this._tilesLoaded.length;
},
reset: function() {
this._clearTiles();
this._lastResetTime = new Date().getTime();
this._updateAgain = true;
},
update: function() {
this._profiler.beginUpdate();
this._midUpdate = true;
this._updateActual();
this._midUpdate = false;
this._profiler.endUpdate();
},
idle: function() {
}
};
}( OpenSeadragon ));
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