/* ** Copyright (c) 2012 The Khronos Group Inc. ** ** Permission is hereby granted, free of charge, to any person obtaining a ** copy of this software and/or associated documentation files (the ** "Materials"), to deal in the Materials without restriction, including ** without limitation the rights to use, copy, modify, merge, publish, ** distribute, sublicense, and/or sell copies of the Materials, and to ** permit persons to whom the Materials are furnished to do so, subject to ** the following conditions: ** ** The above copyright notice and this permission notice shall be included ** in all copies or substantial portions of the Materials. ** ** THE MATERIALS ARE PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, ** EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF ** MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. ** IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY ** CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, ** TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE ** MATERIALS OR THE USE OR OTHER DEALINGS IN THE MATERIALS. */ GLSLConformanceTester = (function(){ var wtu = WebGLTestUtils; var defaultVertexShader = [ "attribute vec4 vPosition;", "void main()", "{", " gl_Position = vPosition;", "}" ].join('\n'); var defaultFragmentShader = [ "precision mediump float;", "void main()", "{", " gl_FragColor = vec4(1.0,0.0,0.0,1.0);", "}" ].join('\n'); var defaultESSL3VertexShader = [ "#version 300 es", "in vec4 vPosition;", "void main()", "{", " gl_Position = vPosition;", "}" ].join('\n'); var defaultESSL3FragmentShader = [ "#version 300 es", "precision mediump float;", "out vec4 my_FragColor;", "void main()", "{", " my_FragColor = vec4(1.0,0.0,0.0,1.0);", "}" ].join('\n'); function log(msg) { bufferedLogToConsole(msg); } var vShaderDB = {}; var fShaderDB = {}; /** * The info parameter should contain the following keys. Note that you may leave * the parameters for one shader out, in which case the default shader will be * used. * vShaderSource: the source code for vertex shader * vShaderId: id of an element containing vertex shader source code. Used if * vShaderSource is not specified. * vShaderSuccess: true if vertex shader compilation should * succeed. * fShaderSource: the source code for fragment shader * fShaderId: id of an element containing fragment shader source code. Used if * fShaderSource is not specified. * fShaderSuccess: true if fragment shader compilation should * succeed. * linkSuccess: true if link should succeed * passMsg: msg to describe success condition. * render: if true render to unit quad. Green = success * uniforms: an array of objects specifying uniforms to set prior to rendering. * Each object should have the following keys: * name: uniform variable name in the shader source. Uniform location will * be queried based on its name. * functionName: name of the function used to set the uniform. For example: * 'uniform1i' * value: value of the uniform to set. */ function runOneTest(gl, info) { var passMsg = info.passMsg debug(""); debug("test: " + passMsg); var consoleDiv = document.getElementById("console"); var vIsDefault = false; var fIsDefault = false; if (info.vShaderSource === undefined) { if (info.vShaderId) { info.vShaderSource = document.getElementById(info.vShaderId).text; } else { vIsDefault = true; } } if (info.fShaderSource === undefined) { if (info.fShaderId) { info.fShaderSource = document.getElementById(info.fShaderId).text; } else { fIsDefault = true; } } var vLabel = (vIsDefault ? "default" : "test") + " vertex shader"; var fLabel = (fIsDefault ? "default" : "test") + " fragment shader"; if (vIsDefault) { info.vShaderSource = defaultVertexShader; info.vShaderSuccess = true; } if (fIsDefault) { info.fShaderSource = defaultFragmentShader; info.fShaderSuccess = true; } if (vIsDefault != fIsDefault) { // The language version of the default shader is chosen // according to the language version of the other shader. // We rely on "#version 300 es" being in this usual format. // It must be on the first line of the shader according to the spec. if (fIsDefault) { // If we're using the default fragment shader, we need to make sure that // it's language version matches with the vertex shader. if (info.vShaderSource.split('\n')[0] == '#version 300 es') { info.fShaderSource = defaultESSL3FragmentShader; } } else { // If we're using the default vertex shader, we need to make sure that // it's language version matches with the fragment shader. if (info.fShaderSource.split('\n')[0] == '#version 300 es') { info.vShaderSource = defaultESSL3VertexShader; } } } var vSource = info.vShaderPrep ? info.vShaderPrep(info.vShaderSource) : info.vShaderSource; if (!quietMode()) wtu.addShaderSource(consoleDiv, vLabel, vSource); // Reuse identical shaders so we test shared shader. var vShader = vShaderDB[vSource]; if (!vShader) { vShader = wtu.loadShader(gl, vSource, gl.VERTEX_SHADER); if (info.vShaderTest) { if (!info.vShaderTest(vShader)) { testFailed("[vertex shader test] " + passMsg); return; } } // As per GLSL 1.0.17 10.27 we can only check for success on // compileShader, not failure. if (!info.ignoreResults && info.vShaderSuccess && !vShader) { testFailed("[unexpected vertex shader compile status] (expected: " + info.vShaderSuccess + ") " + passMsg); } // Save the shaders so we test shared shader. if (vShader) { vShaderDB[vSource] = vShader; } } var debugShaders = gl.getExtension('WEBGL_debug_shaders'); if (debugShaders && vShader && !quietMode()) { wtu.addShaderSource(consoleDiv, vLabel + " translated for driver", debugShaders.getTranslatedShaderSource(vShader)); } var fSource = info.fShaderPrep ? info.fShaderPrep(info.fShaderSource) : info.fShaderSource; if (!quietMode()) wtu.addShaderSource(consoleDiv, fLabel, fSource); // Reuse identical shaders so we test shared shader. var fShader = fShaderDB[fSource]; if (!fShader) { fShader = wtu.loadShader(gl, fSource, gl.FRAGMENT_SHADER); if (info.fShaderTest) { if (!info.fShaderTest(fShader)) { testFailed("[fragment shader test] " + passMsg); return; } } //debug(fShader == null ? "fail" : "succeed"); // As per GLSL 1.0.17 10.27 we can only check for success on // compileShader, not failure. if (!info.ignoreResults && info.fShaderSuccess && !fShader) { testFailed("[unexpected fragment shader compile status] (expected: " + info.fShaderSuccess + ") " + passMsg); return; } // Safe the shaders so we test shared shader. if (fShader) { fShaderDB[fSource] = fShader; } } if (debugShaders && fShader && !quietMode()) { wtu.addShaderSource(consoleDiv, fLabel + " translated for driver", debugShaders.getTranslatedShaderSource(fShader)); } if (vShader && fShader) { var program = gl.createProgram(); gl.attachShader(program, vShader); gl.attachShader(program, fShader); if (vSource.indexOf("vPosition") >= 0) { gl.bindAttribLocation(program, 0, "vPosition"); } if (vSource.indexOf("texCoord0") >= 0) { gl.bindAttribLocation(program, 1, "texCoord0"); } gl.linkProgram(program); var linked = (gl.getProgramParameter(program, gl.LINK_STATUS) != 0); if (!linked) { var error = gl.getProgramInfoLog(program); log("*** Error linking program '"+program+"':"+error); } if (!info.ignoreResults && linked != info.linkSuccess) { testFailed("[unexpected link status] " + passMsg); return; } } else { if (!info.ignoreResults && info.linkSuccess) { testFailed("[link failed] " + passMsg); return; } } if (parseInt(wtu.getUrlOptions().dumpShaders)) { var vInfo = { shader: vShader, shaderSuccess: info.vShaderSuccess, label: vLabel, source: vSource }; var fInfo = { shader: fShader, shaderSuccess: info.fShaderSuccess, label: fLabel, source: fSource }; wtu.dumpShadersInfo(gl, window.location.pathname, passMsg, vInfo, fInfo); } if (!info.render) { testPassed(passMsg); return; } gl.useProgram(program); if (info.uniforms !== undefined) { for (var i = 0; i < info.uniforms.length; ++i) { var uniformLocation = gl.getUniformLocation(program, info.uniforms[i].name); gl[info.uniforms[i].functionName](uniformLocation, info.uniforms[i].value); debug(info.uniforms[i].name + ' set to ' + info.uniforms[i].value); } } wtu.setupUnitQuad(gl); wtu.clearAndDrawUnitQuad(gl); var div = document.createElement("div"); div.className = "testimages"; wtu.insertImage(div, "result", wtu.makeImageFromCanvas(gl.canvas)); div.appendChild(document.createElement('br')); consoleDiv.appendChild(div); var tolerance = 0; if (info.renderTolerance !== undefined) { tolerance = info.renderTolerance; } wtu.checkCanvas(gl, [0, 255, 0, 255], "should be green", tolerance); } function runTests(shaderInfos, opt_contextVersion) { var wtu = WebGLTestUtils; var canvas = document.createElement('canvas'); canvas.width = 32; canvas.height = 32; var gl = wtu.create3DContext(canvas, undefined, opt_contextVersion); if (!gl) { testFailed("context does not exist"); finishTest(); return; } var testIndex = 0; var runNextTest = function() { if (testIndex == shaderInfos.length) { finishTest(); return; } runOneTest(gl, shaderInfos[testIndex++]); setTimeout(runNextTest, 1); } runNextTest(); }; function getSource(elem) { var str = elem.text; return str.replace(/^\s*/, '').replace(/\s*$/, ''); } function getPassMessage(source) { var lines = source.split('\n'); return lines[0].substring(3); } function getSuccess(msg) { if (msg.indexOf("fail") >= 0) { return false; } if (msg.indexOf("succeed") >= 0) { return true; } testFailed("bad test description. Must have 'fail' or 'succeed'"); } function setupTest() { var info = {}; var vShaderElem = document.getElementById('vertexShader'); if (vShaderElem) { info.vShaderSource = getSource(vShaderElem); info.passMsg = getPassMessage(info.vShaderSource); info.vShaderSuccess = getSuccess(info.passMsg); } var fShaderElem = document.getElementById('fragmentShader'); if (fShaderElem) { info.fShaderSource = getSource(fShaderElem); info.passMsg = getPassMessage(info.fShaderSource); info.fShaderSuccess = getSuccess(info.passMsg); } // linkSuccess should be true if shader success value is undefined or true for both shaders. info.linkSuccess = info.vShaderSuccess !== false && info.fShaderSuccess !== false; if (info.passMsg === undefined) { testFailed("no test shader found."); finishTest(); return; } return info; } function runTest() { var info = setupTest(); description(info.passMsg); runTests([info]); } function runRenderTests(tests, opt_contextVersion) { for (var ii = 0; ii < tests.length; ++ii) { tests[ii].render = true } runTests(tests, opt_contextVersion); } function runRenderTest() { var info = setupTest(); description(info.passMsg); runRenderTests([info]); } return { runTest: runTest, runTests: runTests, runRenderTest: runRenderTest, runRenderTests: runRenderTests }; }());