+function Map(textdef) {
+ // object for map operations (drawing coorinate transformation, etc.)
+ this.info = gamedata.load(textdef);
+ const tileset = gamedata.load(this.info.header.tileset);
+ const frametime = performance.now();
+ gfx.load(tileset.img);
+
+ const h = this.info.header.height, w = this.info.header.width;
+ const th = this.info.header.tileheight, tw = this.info.header.tilewidth;
+ var posx = canvas.canvas.width / 2, posy = canvas.canvas.height / 2 - h * th/2;
+
+ canvas.fillStyle = "rgba("+this.info.header.background_color+")";
+
+ // precalculated tile positions
+ // assign x/y coordinates to each tile index
+ // looks dumb but is faster than on the fly isometric calculations
+ const dx = [], dy = [];
+ for ( let y = 0; y < h; y++ ) for ( let x = 0; x < w; x++ ) {
+ dx[y * w + x] = (w + x - y) * tw / 2;
+ dy[y * w + x] = (x + y) * th / 2;
+ }
+
+ const npcs = [];
+ if (this.info.npc) for (let def of this.info.npc) {
+ let loc = def.location[1] * w + def.location[0];
+ npcs[loc] = new Npc(def.filename)
+ npcs[loc].place(dx[loc], dy[loc]);
+ this.info.layer.find(l => l.type == "collision").data[loc] = 1;
+ }
+
+ this.events = [];
+ for (let ev of this.info.event) {
+ for (let x = ev.location[0]; x < ev.location[0] + ev.location[2]; x++)
+ for (let y = ev.location[1]; y < ev.location[1] + ev.location[3]; y++) {
+ let loc = y * w + x;
+ if (!this.events[loc]) this.events[loc] = [];
+ this.events[loc].push(ev);
+ }
+ }
+
+ // tile index for pixel position on map
+ this.tileAt = function(x, y) {
+ var r = (y + th / 2) / th; var c = (x - w * tw /2) / tw;
+ var nx = r + c |0; var ny = r - c |0;
+ return ny * w + nx;
+ }
+
+ // vice versa the pixel coordinates of a given map tile
+ this.positionOf = (tl, ty = -1) => (~ty) ? [dx[ty * w + tl], dy[ty * w + tl]] : [ dx[tl], dy[tl] ];
+ this.xOf = (tl, ty = -1) => (~ty) ? dx[ty * w + tl] : dx[tl];
+ this.yOf = (tl, ty = -1) => (~ty) ? dy[ty * w + tl] : dy[tl];
+
+ // center map to pixel position (by setting drawing offsets)
+ this.center = function(x, y) {
+ posx = canvas.canvas.width / 2 - x;
+ posy = canvas.canvas.height / 2 - y;
+ return this;
+ }
+
+ // draw the entire map, including all mobs
+ // mobs in an array of all heros, enemies, loot, npcs, etc.
+ this.draw = function(mobs) {
+ const bg = this.info.layer.find(l => l.type == "background").data;
+ const ob = this.info.layer.find(l => l.type == "object").data;
+ var i, mm = [];
+
+ // mobs only have x/y pixel positions,
+ // to draw them in order with map tiles we set up
+ // an array with current tile positions of mobs
+ mobs.forEach(m => {
+ let i = this.tileAt(m.position[0], m.position[1]);
+ mm[i] = mobs.filter(m => i == this.tileAt(m.position[0], m.position[1]));
+ });
+ canvas.fillRect(0,0, canvas.canvas.width, canvas.canvas.height);
+
+ // draw background layer first
+ for ( i = 0; i < h * w; i++ ) draw_tile(bg[i], posx + dx[i], posy + dy[i]);
+
+ // draw object layer and mobs
+ for ( i = 0; i < h * w; i++ ) {
+ draw_tile(ob[i], posx + dx[i], posy + dy[i]);
+ if (mm[i]) mm[i].forEach(m => m.draw(posx + m.position[0], posy + m.position[1]));
+ if (npcs[i]) npcs[i].draw(posx + dx[i], posy + dy[i]);
+ }
+ }
+
+ // draw a single map tile at screen position x/y
+ // tile may be animated, if so defined in tiledef
+ function draw_tile(tile, x, y) {
+ const t = tileset.tile[tile];
+ const f = tileset.animation[tile];
+ x = x |0; y = y |0;
+
+ if (t && f) {
+ frame = ((performance.now() - frametime) / f[0][2] |0) % f.length;
+ canvas.drawImage(gfx[tileset.img], f[frame][0], f[frame][1], t[2], t[3],
+ x - t[4], y - t[5], t[2], t[3]);
+ } else if (t) {
+ canvas.drawImage(gfx[tileset.img], t[0], t[1], t[2], t[3],
+ x - t[4], y - t[5], t[2], t[3]);
+ }
+ }
+}
+