X-Git-Url: https://git-public.kairo.at/?p=lantea.git;a=blobdiff_plain;f=js%2Fmap.js;h=024eaf4e655b9a9f34df5e227070bfc87678b716;hp=dbc6904715b1e6c12d9a7d0feeef7dda6d04c711;hb=d7310ee2c8b72539147c6879be811a960fd2938a;hpb=0f6678faa1ae37dd652e341cb31e04b3f277b904 diff --git a/js/map.js b/js/map.js index dbc6904..024eaf4 100644 --- a/js/map.js +++ b/js/map.js @@ -121,12 +121,14 @@ function loadPrefs(aEvent) { document.getElementById("body").addEventListener("keydown", mapEvHandler, false); + console.log("Events added."); document.getElementById("copyright").innerHTML = gMapStyles[gMap.activeMap].copyright; gLoadingTile = new Image(); gLoadingTile.src = "style/loading.png"; gLoadingTile.onload = function() { + console.log("Loading Tile loaded."); var throwEv = new CustomEvent("prefload-done"); gAction.dispatchEvent(throwEv); }; @@ -203,7 +205,8 @@ var gMap = { glResolutionAttr: null, glMapTexture: null, glTextures: {}, - glTextureKeys: {}, + glTxCleanIntervalID: null, + glTexturesPerZoomLevel: 0, activeMap: "osm_mapnik", tileSize: 256, @@ -214,6 +217,11 @@ var gMap = { y: 23670000.0, // The range is 0-67108864 (2^gMap.maxZoom * gMap.tileSize) z: 5 // This could be fractional if supported being between zoom levels. }, + baseDim: { // Map width, height and tile size in level 18 pixels. + wid: null, + ht: null, + tsize: null, + }, get width() { return gMap.gl ? gMap.gl.drawingBufferWidth : gGLMapCanvas.width; }, get height() { return gMap.gl ? gMap.gl.drawingBufferHeight : gGLMapCanvas.height; }, @@ -229,7 +237,7 @@ var gMap = { ' gl_Position = vec4(clipSpace * vec2(1, -1), 0, 1);\n' + ' vTextureCoord = aTextureCoord;\n' + '}'; }, - getFragShaderSource:function() { + getFragShaderSource: function() { return 'varying highp vec2 vTextureCoord;\n\n' + 'uniform sampler2D uImage;\n\n' + 'void main(void) {\n' + @@ -238,12 +246,14 @@ var gMap = { initGL: function() { // When called from the event listener, the "this" reference doesn't work, so use the object name. + console.log("Initializing WebGL..."); if (gMap.gl) { gMap.gl.viewport(0, 0, gMap.gl.drawingBufferWidth, gMap.gl.drawingBufferHeight); gMap.gl.clearColor(0.0, 0.0, 0.0, 0.5); // Set clear color to black, fully opaque. gMap.gl.clear(gMap.gl.COLOR_BUFFER_BIT|gMap.gl.DEPTH_BUFFER_BIT); // Clear the color. // Create and initialize the shaders. + console.log("Create and compile shaders..."); var vertShader = gMap.gl.createShader(gMap.gl.VERTEX_SHADER); var fragShader = gMap.gl.createShader(gMap.gl.FRAGMENT_SHADER); gMap.gl.shaderSource(vertShader, gMap.getVertShaderSource()); @@ -263,6 +273,7 @@ var gMap = { return null; } + console.log("Create and link shader program..."); gMap.glShaderProgram = gMap.gl.createProgram(); gMap.gl.attachShader(gMap.glShaderProgram, vertShader); gMap.gl.attachShader(gMap.glShaderProgram, fragShader); @@ -277,6 +288,7 @@ var gMap = { gMap.glTextureCoordAttr = gMap.gl.getAttribLocation(gMap.glShaderProgram, "aTextureCoord"); gMap.glResolutionAttr = gMap.gl.getUniformLocation(gMap.glShaderProgram, "uResolution"); + console.log("Set up vertex buffer..."); var tileVerticesBuffer = gMap.gl.createBuffer(); gMap.gl.bindBuffer(gMap.gl.ARRAY_BUFFER, tileVerticesBuffer); // The vertices are the coordinates of the corner points of the square. @@ -292,15 +304,19 @@ var gMap = { gMap.gl.enableVertexAttribArray(gMap.glTextureCoordAttr); gMap.gl.vertexAttribPointer(gMap.glTextureCoordAttr, 2, gMap.gl.FLOAT, false, 0, 0); - gMap.loadImageToTexture(gLoadingTile, 0, "loading::0,0,0"); + gMap.loadImageToTexture(gLoadingTile, getTileKey("loading", {x: 0, y: 0, z: 0})); gMap.gl.uniform2f(gMap.glResolutionAttr, gGLMapCanvas.width, gGLMapCanvas.height); // Create a buffer for the position of the rectangle corners. + console.log("Set up coord buffer..."); var mapVerticesTextureCoordBuffer = gMap.gl.createBuffer(); gMap.gl.bindBuffer(gMap.gl.ARRAY_BUFFER, mapVerticesTextureCoordBuffer); gMap.gl.enableVertexAttribArray(gMap.glVertexPositionAttr); gMap.gl.vertexAttribPointer(gMap.glVertexPositionAttr, 2, gMap.gl.FLOAT, false, 0, 0); + + // Call texture cleaning every 30 seconds, for now (is 60 better?). + gMap.glTxCleanIntervalID = window.setInterval(gMap.cleanTextures, 30 * 1000); } var throwEv = new CustomEvent("mapinit-done"); @@ -317,25 +333,25 @@ var gMap = { document.getElementById("zoomLevel").textContent = gMap.pos.z; gMap.zoomFactor = Math.pow(2, gMap.maxZoom - gMap.pos.z); - var wid = gMap.gl.drawingBufferWidth * gMap.zoomFactor; // Width in level 18 pixels. - var ht = gMap.gl.drawingBufferHeight * gMap.zoomFactor; // Height in level 18 pixels. - var size = gMap.tileSize * gMap.zoomFactor; // Tile size in level 18 pixels. + gMap.baseDim.wid = gMap.gl.drawingBufferWidth * gMap.zoomFactor; + gMap.baseDim.ht = gMap.gl.drawingBufferHeight * gMap.zoomFactor; + gMap.baseDim.tsize = gMap.tileSize * gMap.zoomFactor; - var xMin = gMap.pos.x - wid / 2; // Corners of the window in level 18 pixels. - var yMin = gMap.pos.y - ht / 2; - var xMax = gMap.pos.x + wid / 2; - var yMax = gMap.pos.y + ht / 2; + var xMin = gMap.pos.x - gMap.baseDim.wid / 2; // Corners of the window in level 18 pixels. + var yMin = gMap.pos.y - gMap.baseDim.ht / 2; + var xMax = gMap.pos.x + gMap.baseDim.wid / 2; + var yMax = gMap.pos.y + gMap.baseDim.ht / 2; if (gMapPrefsLoaded && mainDB) gPrefs.set("position", gMap.pos); // Go through all the tiles in the map, find out if to draw them and do so. - for (var x = Math.floor(xMin / size); x < Math.ceil(xMax / size); x++) { - for (var y = Math.floor(yMin / size); y < Math.ceil(yMax / size); y++) { // slow script warnings on the tablet appear here! + for (var x = Math.floor(xMin / gMap.baseDim.tsize); x < Math.ceil(xMax / gMap.baseDim.tsize); x++) { + for (var y = Math.floor(yMin / gMap.baseDim.tsize); y < Math.ceil(yMax / gMap.baseDim.tsize); y++) { // Only go to loading step if we haven't loaded the texture. var coords = {x: x, y: y, z: gMap.pos.z}; var tileKey = getTileKey(gMap.activeMap, normalizeCoords(coords)); - if (!gMap.glTextureKeys[tileKey]) { + if (!gMap.glTextures[tileKey]) { // Initiate loading/drawing of the actual tile. gTileService.get(gMap.activeMap, coords, function(aImage, aStyle, aCoords, aTileKey) { @@ -345,10 +361,8 @@ var gMap = { var imgURL = URL.createObjectURL(aImage); var imgObj = new Image(); imgObj.onload = function() { - var txNr = 1; - while (gMap.glTextures["tx" + txNr]) { txNr++; } - gMap.loadImageToTexture(imgObj, txNr, aTileKey); - requestAnimationFrame(function(aTimestamp) { gMap.drawGL() }); + gMap.loadImageToTexture(imgObj, aTileKey); + window.requestAnimationFrame(function(aTimestamp) { gMap.drawGL() }); URL.revokeObjectURL(imgURL); } imgObj.src = imgURL; @@ -357,37 +371,30 @@ var gMap = { } } } - requestAnimationFrame(function(aTimestamp) { gMap.drawGL() }); + window.requestAnimationFrame(function(aTimestamp) { gMap.drawGL() }); }, drawGL: function() { - var wid = gMap.gl.drawingBufferWidth * gMap.zoomFactor; // Width in level 18 pixels. - var ht = gMap.gl.drawingBufferHeight * gMap.zoomFactor; // Height in level 18 pixels. - var size = gMap.tileSize * gMap.zoomFactor; // Tile size in level 18 pixels. + var xMin = gMap.pos.x - gMap.baseDim.wid / 2; // Corners of the window in level 18 pixels. + var yMin = gMap.pos.y - gMap.baseDim.ht / 2; + var xMax = gMap.pos.x + gMap.baseDim.wid / 2; + var yMax = gMap.pos.y + gMap.baseDim.ht / 2; - var xMin = gMap.pos.x - wid / 2; // Corners of the window in level 18 pixels. - var yMin = gMap.pos.y - ht / 2; - var xMax = gMap.pos.x + wid / 2; - var yMax = gMap.pos.y + ht / 2; - - var txIndexList = []; // Go through all the tiles in the map, find out if to draw them and do so. - for (var x = Math.floor(xMin / size); x < Math.ceil(xMax / size); x++) { - for (var y = Math.floor(yMin / size); y < Math.ceil(yMax / size); y++) { // slow script warnings on the tablet appear here! - // Round here is **CRUCIAL** otherwise the images are filtered - // and the performance sucks (more than expected). - var xoff = Math.round((x * size - xMin) / gMap.zoomFactor); - var yoff = Math.round((y * size - yMin) / gMap.zoomFactor); - // Draw the tile, first find out the index of the texture to use. + for (var x = Math.floor(xMin / gMap.baseDim.tsize); x < Math.ceil(xMax / gMap.baseDim.tsize); x++) { + for (var y = Math.floor(yMin / gMap.baseDim.tsize); y < Math.ceil(yMax / gMap.baseDim.tsize); y++) { + // Rounding the pixel offsets ensures we position the tiles precisely. + var xoff = Math.round((x * gMap.baseDim.tsize - xMin) / gMap.zoomFactor); + var yoff = Math.round((y * gMap.baseDim.tsize - yMin) / gMap.zoomFactor); + // Draw the tile, first find out the actual texture to use. var norm = normalizeCoords({x: x, y: y, z: gMap.pos.z}); var tileKey = getTileKey(gMap.activeMap, norm); - var txIndex = gMap.glTextureKeys[tileKey]; - if (!txIndex) { txIndex = 0; } - txIndexList.push(txIndex); - gMap.drawTileGL(xoff, yoff, txIndex); + if (!gMap.glTextures[tileKey]) { + tileKey = getTileKey("loading", {x: 0, y: 0, z: 0}); + } + gMap.drawTileGL(xoff, yoff, tileKey); } } - console.log("Used Indexes: " + txIndexList.join(",")); }, resizeAndDraw: function() { @@ -405,15 +412,17 @@ var gMap = { gMap.gl.clear(gMap.gl.COLOR_BUFFER_BIT); // Make sure the vertex shader get the right resolution. gMap.gl.uniform2f(gMap.glResolutionAttr, gGLMapCanvas.width, gGLMapCanvas.height); + // Prepare recalculation of textures to keep for one zoom level. + gMap.glTexturesPerZoomLevel = 0; } gMap.draw(); showUI(); } }, - drawTileGL: function(aLeft, aRight, aTextureIndex) { + drawTileGL: function(aLeft, aRight, aTileKey) { gMap.gl.activeTexture(gMap.gl.TEXTURE0); - gMap.gl.bindTexture(gMap.gl.TEXTURE_2D, gMap.glTextures["tx" + aTextureIndex]); + gMap.gl.bindTexture(gMap.gl.TEXTURE_2D, gMap.glTextures[aTileKey]); // Set uImage to refer to TEXTURE0 gMap.gl.uniform1i(gMap.gl.getUniformLocation(gMap.glShaderProgram, "uImage"), 0); var x_start = aLeft; @@ -434,18 +443,76 @@ var gMap = { gMap.gl.drawArrays(gMap.gl.TRIANGLES, 0, 6); }, - loadImageToTexture: function(aImage, aTextureIndex, aTileKey) { - // TODO: Get rid of old textures. - gMap.glTextureKeys[aTileKey] = aTextureIndex; + loadImageToTexture: function(aImage, aTileKey) { // Create and bind texture. - gMap.glTextures["tx" + aTextureIndex] = gMap.gl.createTexture(); - gMap.gl.bindTexture(gMap.gl.TEXTURE_2D, gMap.glTextures["tx" + aTextureIndex]); + gMap.glTextures[aTileKey] = gMap.gl.createTexture(); + gMap.gl.bindTexture(gMap.gl.TEXTURE_2D, gMap.glTextures[aTileKey]); // Set params for how the texture minifies and magnifies (wrap params are not needed as we're power-of-two). gMap.gl.texParameteri(gMap.gl.TEXTURE_2D, gMap.gl.TEXTURE_MIN_FILTER, gMap.gl.NEAREST); gMap.gl.texParameteri(gMap.gl.TEXTURE_2D, gMap.gl.TEXTURE_MAG_FILTER, gMap.gl.NEAREST); // Upload the image into the texture. gMap.gl.texImage2D(gMap.gl.TEXTURE_2D, 0, gMap.gl.RGBA, gMap.gl.RGBA, gMap.gl.UNSIGNED_BYTE, aImage); }, + + cleanTextures: function() { + // Get rid of unneeded textures to save memory. + // TODO: Be less aggressive, maybe keep neighboring zoom levels (but x/y coords there are zoom-specific). + if (!gMap.glTexturesPerZoomLevel) { + // Calculate how many textures we need to keep for one zoom level. + // ceil(width/size) gives us the minimum, keep one on either side as well. + gMap.glTexturesPerZoomLevel = + Math.ceil(gMap.gl.drawingBufferWidth / gMap.tileSize + 2) * + Math.ceil(gMap.gl.drawingBufferHeight / gMap.tileSize + 2); + console.log("Keeping " + gMap.glTexturesPerZoomLevel + " textures per level"); + } + if (Object.keys(gMap.glTextures).length > gMap.glTexturesPerZoomLevel) { + console.log("Cleaning textures... (have " + Object.keys(gMap.glTextures).length + " atm)"); + + // Find coordinate ranges for tiles to keep. + var tMin = normalizeCoords({x: Math.floor((gMap.pos.x - gMap.baseDim.wid / 2) / gMap.baseDim.tsize) - 1, + y: Math.floor((gMap.pos.y - gMap.baseDim.ht / 2) / gMap.baseDim.tsize) - 1, + z: gMap.pos.z}); + var tMax = normalizeCoords({x: Math.ceil((gMap.pos.x + gMap.baseDim.wid / 2) / gMap.baseDim.tsize) + 1, + y: Math.ceil((gMap.pos.y + gMap.baseDim.ht / 2) / gMap.baseDim.tsize) + 1, + z: gMap.pos.z}); + console.log("In range: " + tMin.x + "," + tMin.y + "," + tMin.z + " - " + tMax.x + "," + tMax.y + "," + tMax.z); + for (aTileKey in gMap.glTextures) { + var keyMatches = aTileKey.match(/([^:]+)::(\d+),(\d+),(\d+)/); + if (keyMatches && keyMatches[1] != "loading") { + var txData = { + style: keyMatches[1], + x: keyMatches[2], + y: keyMatches[3], + z: keyMatches[4], + } + var delTx = false; + if (txData.style != gMap.activeMap) { delTx = true; console.log("Different map style: " + txData.style); } + if (!delTx && (txData.z < tMin.z || txData.z > tMax.z)) { delTx = true; console.log("Out-of-range zoom: " + txData.z); } + if (tMin.x < tMax.x) { + if (!delTx && (txData.x < tMin.x || txData.x > tMax.x)) { delTx = true; console.log("Out-of-range X: " + txData.x); } + } + else { + // We are crossing over the 0 coordinate! + if (!delTx && (txData.x < tMin.x && txData.x > tMax.x)) { delTx = true; console.log("Out-of-range X: " + txData.x); } + } + if (tMin.y < tMax.y) { + if (!delTx && (txData.y < tMin.y || txData.y > tMax.y)) { delTx = true; console.log("Out-of-range Y: " + txData.y); } + } + else { + // We are crossing over the 0 coordinate! + if (!delTx && (txData.y < tMin.y && txData.y > tMax.y)) { delTx = true; console.log("Out-of-range Y: " + txData.y); } + } + if (delTx) { + // Delete texture from GL and from the array we are holding. + gMap.gl.deleteTexture(gMap.glTextures[aTileKey]); + delete gMap.glTextures[aTileKey]; + } + } + } + console.log("Cleaning complete, " + Object.keys(gMap.glTextures).length + " textures left)"); + //clearInterval(gMap.glTxCleanIntervalID); + } + }, } // Using scale(x, y) together with drawing old data on scaled canvas would be an improvement for zooming.