2b36445ecc
Now most attributes will be custom ones defined by the user of the renderer. The hit detection is broken for now and still has to be fixed. Also it is not possible anymore to give a texture to the renderer, this will have to be fixed as well.
200 lines
6.9 KiB
JavaScript
200 lines
6.9 KiB
JavaScript
import WebGLLayerRenderer, {
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colorDecodeId,
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colorEncodeId,
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getBlankImageData,
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writePointFeatureToBuffers
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} from '../../../../../src/ol/renderer/webgl/Layer.js';
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import Layer from '../../../../../src/ol/layer/Layer.js';
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describe('ol.renderer.webgl.Layer', function() {
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describe('constructor', function() {
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let target;
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beforeEach(function() {
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target = document.createElement('div');
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target.style.width = '256px';
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target.style.height = '256px';
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document.body.appendChild(target);
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});
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afterEach(function() {
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document.body.removeChild(target);
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});
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it('creates a new instance', function() {
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const layer = new Layer({});
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const renderer = new WebGLLayerRenderer(layer);
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expect(renderer).to.be.a(WebGLLayerRenderer);
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});
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});
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describe('writePointFeatureToBuffers', function() {
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let vertexBuffer, indexBuffer, instructions, elementIndex;
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beforeEach(function() {
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vertexBuffer = new Float32Array(100);
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indexBuffer = new Uint32Array(100);
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instructions = new Float32Array(100);
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instructions.set([0, 0, 0, 0, 10, 11]);
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});
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it('writes correctly to the buffers (without custom attributes)', function() {
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const stride = 3;
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const positions = writePointFeatureToBuffers(instructions, 4, vertexBuffer, indexBuffer, 0);
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expect(vertexBuffer[0]).to.eql(10);
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expect(vertexBuffer[1]).to.eql(11);
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expect(vertexBuffer[2]).to.eql(0);
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expect(vertexBuffer[stride + 0]).to.eql(10);
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expect(vertexBuffer[stride + 1]).to.eql(11);
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expect(vertexBuffer[stride + 2]).to.eql(1);
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expect(vertexBuffer[stride * 2 + 0]).to.eql(10);
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expect(vertexBuffer[stride * 2 + 1]).to.eql(11);
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expect(vertexBuffer[stride * 2 + 2]).to.eql(2);
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expect(vertexBuffer[stride * 3 + 0]).to.eql(10);
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expect(vertexBuffer[stride * 3 + 1]).to.eql(11);
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expect(vertexBuffer[stride * 3 + 2]).to.eql(3);
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expect(indexBuffer[0]).to.eql(0);
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expect(indexBuffer[1]).to.eql(1);
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expect(indexBuffer[2]).to.eql(3);
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expect(indexBuffer[3]).to.eql(1);
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expect(indexBuffer[4]).to.eql(2);
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expect(indexBuffer[5]).to.eql(3);
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expect(positions.indexPosition).to.eql(6);
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expect(positions.vertexPosition).to.eql(stride * 4);
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});
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it('writes correctly to the buffers (with 2 custom attributes)', function() {
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instructions.set([0, 0, 0, 0, 0, 0, 0, 0, 10, 11, 12, 13]);
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const stride = 5;
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const positions = writePointFeatureToBuffers(instructions, 8, vertexBuffer, indexBuffer, 2);
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expect(vertexBuffer[0]).to.eql(10);
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expect(vertexBuffer[1]).to.eql(11);
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expect(vertexBuffer[2]).to.eql(0);
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expect(vertexBuffer[3]).to.eql(12);
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expect(vertexBuffer[4]).to.eql(13);
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expect(vertexBuffer[stride + 0]).to.eql(10);
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expect(vertexBuffer[stride + 1]).to.eql(11);
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expect(vertexBuffer[stride + 2]).to.eql(1);
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expect(vertexBuffer[stride + 3]).to.eql(12);
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expect(vertexBuffer[stride + 4]).to.eql(13);
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expect(vertexBuffer[stride * 2 + 0]).to.eql(10);
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expect(vertexBuffer[stride * 2 + 1]).to.eql(11);
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expect(vertexBuffer[stride * 2 + 2]).to.eql(2);
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expect(vertexBuffer[stride * 2 + 3]).to.eql(12);
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expect(vertexBuffer[stride * 2 + 4]).to.eql(13);
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expect(vertexBuffer[stride * 3 + 0]).to.eql(10);
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expect(vertexBuffer[stride * 3 + 1]).to.eql(11);
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expect(vertexBuffer[stride * 3 + 2]).to.eql(3);
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expect(vertexBuffer[stride * 3 + 3]).to.eql(12);
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expect(vertexBuffer[stride * 3 + 4]).to.eql(13);
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expect(indexBuffer[0]).to.eql(0);
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expect(indexBuffer[1]).to.eql(1);
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expect(indexBuffer[2]).to.eql(3);
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expect(indexBuffer[3]).to.eql(1);
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expect(indexBuffer[4]).to.eql(2);
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expect(indexBuffer[5]).to.eql(3);
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expect(positions.indexPosition).to.eql(6);
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expect(positions.vertexPosition).to.eql(stride * 4);
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});
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it('correctly chains buffer writes', function() {
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instructions.set([10, 11, 20, 21, 30, 31]);
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const stride = 3;
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let positions = writePointFeatureToBuffers(instructions, 0, vertexBuffer, indexBuffer, 0);
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positions = writePointFeatureToBuffers(instructions, 2, vertexBuffer, indexBuffer, 0, positions);
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positions = writePointFeatureToBuffers(instructions, 4, vertexBuffer, indexBuffer, 0, positions);
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expect(vertexBuffer[0]).to.eql(10);
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expect(vertexBuffer[1]).to.eql(11);
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expect(vertexBuffer[2]).to.eql(0);
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expect(vertexBuffer[stride * 4 + 0]).to.eql(20);
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expect(vertexBuffer[stride * 4 + 1]).to.eql(21);
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expect(vertexBuffer[stride * 4 + 2]).to.eql(0);
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expect(vertexBuffer[stride * 8 + 0]).to.eql(30);
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expect(vertexBuffer[stride * 8 + 1]).to.eql(31);
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expect(vertexBuffer[stride * 8 + 2]).to.eql(0);
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expect(indexBuffer[6 + 0]).to.eql(4);
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expect(indexBuffer[6 + 1]).to.eql(5);
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expect(indexBuffer[6 + 2]).to.eql(7);
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expect(indexBuffer[6 + 3]).to.eql(5);
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expect(indexBuffer[6 + 4]).to.eql(6);
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expect(indexBuffer[6 + 5]).to.eql(7);
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expect(indexBuffer[6 * 2 + 0]).to.eql(8);
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expect(indexBuffer[6 * 2 + 1]).to.eql(9);
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expect(indexBuffer[6 * 2 + 2]).to.eql(11);
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expect(indexBuffer[6 * 2 + 3]).to.eql(9);
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expect(indexBuffer[6 * 2 + 4]).to.eql(10);
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expect(indexBuffer[6 * 2 + 5]).to.eql(11);
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expect(positions.indexPosition).to.eql(6 * 3);
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expect(positions.vertexPosition).to.eql(stride * 4 * 3);
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});
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});
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describe('getBlankImageData', function() {
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it('creates a 1x1 white texture', function() {
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const texture = getBlankImageData();
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expect(texture.height).to.eql(1);
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expect(texture.width).to.eql(1);
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expect(texture.data[0]).to.eql(255);
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expect(texture.data[1]).to.eql(255);
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expect(texture.data[2]).to.eql(255);
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expect(texture.data[3]).to.eql(255);
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});
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});
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describe('colorEncodeId and colorDecodeId', function() {
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it('correctly encodes and decodes ids', function() {
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expect(colorDecodeId(colorEncodeId(0))).to.eql(0);
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expect(colorDecodeId(colorEncodeId(1))).to.eql(1);
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expect(colorDecodeId(colorEncodeId(123))).to.eql(123);
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expect(colorDecodeId(colorEncodeId(12345))).to.eql(12345);
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expect(colorDecodeId(colorEncodeId(123456))).to.eql(123456);
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expect(colorDecodeId(colorEncodeId(91612))).to.eql(91612);
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expect(colorDecodeId(colorEncodeId(1234567890))).to.eql(1234567890);
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});
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it('correctly reuses array', function() {
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const arr = [];
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expect(colorEncodeId(123, arr)).to.be(arr);
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});
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it('is compatible with Uint8Array storage', function() {
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const encoded = colorEncodeId(91612);
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const typed = Uint8Array.of(encoded[0] * 255, encoded[1] * 255,
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encoded[2] * 255, encoded[3] * 255);
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const arr = [
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typed[0] / 255,
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typed[1] / 255,
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typed[2] / 255,
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typed[3] / 255
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];
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const decoded = colorDecodeId(arr);
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expect(decoded).to.eql(91612);
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});
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});
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});
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