const { assert, skip, test, module: describe, only } = require('qunit'); const { GPU } = require('../../../../../../src'); describe('feature: to-string unsigned precision constants MemoryOptimizedNumberTexture'); function testConstant(mode, context, canvas) { const gpu = new GPU({ mode, context, canvas }); const texture = gpu.createKernel(function() { return this.thread.x; }, { output: [4], optimizeFloatMemory: true, precision: 'unsigned', pipeline: true, })(); const texture2 = gpu.createKernel(function() { return this.output.x - this.thread.x; }, { output: [4], optimizeFloatMemory: true, precision: 'unsigned', pipeline: true, })(); const originalKernel = gpu.createKernel(function() { return this.constants.a[this.thread.x]; }, { output: [4], precision: 'unsigned', constants: { a: texture } }); assert.deepEqual(originalKernel(), new Float32Array([0,1,2,3])); const kernelString = originalKernel.toString(); const Kernel = new Function('return ' + kernelString)(); const newKernel = Kernel({ context, constants: { a: texture } }); const newKernel2 = Kernel({ context, constants: { a: texture2 } }); assert.deepEqual(texture2.toArray ? texture2.toArray() : texture2, new Float32Array([4,3,2,1])); assert.deepEqual(texture.toArray ? texture.toArray() : texture, new Float32Array([0,1,2,3])); assert.deepEqual(newKernel(), new Float32Array([0,1,2,3])); assert.deepEqual(newKernel2(), new Float32Array([4,3,2,1])); gpu.destroy(); } (GPU.isWebGLSupported ? test : skip)('webgl', () => { const canvas = document.createElement('canvas'); const context = canvas.getContext('webgl'); testConstant('webgl', context, canvas); }); (GPU.isWebGL2Supported ? test : skip)('webgl2', () => { const canvas = document.createElement('canvas'); const context = canvas.getContext('webgl2'); testConstant('webgl2', context, canvas); }); (GPU.isHeadlessGLSupported ? test : skip)('headlessgl', () => { testConstant('headlessgl', require('gl')(1, 1), null); }); test('cpu', () => { testConstant('cpu'); });