Draws 2D tile maps
MIT License
Simple 2D tile map renderer in WebGL.
var shell = require("gl-now")()
var ndarray = require("ndarray")
var tileMap = require("isabella-texture-pack")
var createTexture = require("gl-texture2d")
var glm = require("gl-matrix")
var createTileMap = require("gl-basic-tile-map")
var mat3 = glm.mat3
var tiles = ndarray(new Uint8Array(128*128*2), [128,128,2])
var cameraPosition = [0,0]
var cameraScale = 0.01
var tileMap
shell.on("gl-init", function() {
var gl = shell.gl
var tileSheet = createTexture(gl, tileMap)
tileMap = createTileMap(gl, tileSheet, tiles, [16,16])
//Randomize all the tiles every second
setInterval(function() {
for(var i=0; i<128; ++i) {
for(var j=0; j<128; ++j) {
tiles.set(i, j, 0, (Math.random()*16)|0)
tiles.set(i, j, 1, (Math.random()*16)|0)
}
}
tileMap.update(tiles)
}, 1000)
})
shell.on("gl-render", function() {
var view = [cameraScale, 0, 0,
0, cameraScale, 0,
cameraPosition[0], cameraPosition[1], 1]
tileMap.draw(view)
})
shell.on("tick", function() {
if(shell.wasDown("mouse-1")) {
cameraPosition[0] += (shell.mouseX - shell.prevMouseX) / shell.width
cameraPosition[1] -= (shell.mouseY - shell.prevMouseY) / shell.height
}
if(shell.scroll[1]) {
cameraScale *= Math.exp(shell.scroll[1] / shell.height)
}
})
Try it out now in your browser
npm install gl-basic-tile-map
var createTileMap = require("gl-basic-tile-map")
var tileMap = createTileMap(gl, tileSheet, tileData, tileShape)
Creates a tile map object.
gl
is a handle to a WebGL contexttileSheet
is an instance of a gl-texture2d
objecttileData
is an [m,n,2]
shaped ndarray
tileShape
is a length 2 array describing the size of each tileReturns A TileMap object
tileMap.draw(view)
Draws the tilemap with the given view matrix. view
is a homography represented by a 3x3 matrix giving the transformation from the world coordinates to the viewing frustum, which is in the coordinate system [-1,1] x [-1,1].
tileMap.update(data[, x, y])
Updates a region of the underlying tileIds.
data
is an ndarray containing the new pixels to updatex
is the x-offset of the region to updatey
is the y-offset of the region to updatetileMap.dispose()
Releases the resources associated with the tile map object.
(c) 2013 Mikola Lysenko. MIT License