// // Copyright (c) 2015 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // UnrollFlatten_test.cpp: // Test for the outputting of [[unroll]] and [[flatten]] for the D3D compiler. // This test can only be enabled when HLSL support is enabled. // #include "angle_gl.h" #include "common/angleutils.h" #include "gtest/gtest.h" #include "GLSLANG/ShaderLang.h" #include "tests/test_utils/compiler_test.h" namespace { class UnrollFlattenTest : public testing::Test { public: UnrollFlattenTest() {} protected: void compile(const std::string &shaderString) { std::string infoLog; bool compilationSuccess = compileTestShader(GL_FRAGMENT_SHADER, SH_GLES2_SPEC, SH_HLSL_4_1_OUTPUT, shaderString, SH_VARIABLES, &mTranslatedSource, &infoLog); if (!compilationSuccess) { FAIL() << "Shader compilation failed " << infoLog; } // Ignore the beginning of the shader to avoid the definitions of LOOP and FLATTEN mCurrentPosition = static_cast(mTranslatedSource.find("GL_USES_FRAG_COLOR")); } void expect(const char *patterns[], size_t count) { const char *badPatterns[] = { UNROLL, FLATTEN }; for (size_t i = 0; i < count; i++) { const char *pattern = patterns[i]; auto position = mTranslatedSource.find(pattern, mCurrentPosition); if (position == std::string::npos) { FAIL() << "Couldn't find '" << pattern << "' after expectations '" << mExpectationList << "' in translated source:\n" << mTranslatedSource; } for (size_t j = 0; j < ArraySize(badPatterns); j++) { const char *badPattern = badPatterns[j]; if (pattern != badPattern && mTranslatedSource.find(badPattern, mCurrentPosition) < position) { FAIL() << "Found '" << badPattern << "' before '" << pattern << "' after expectations '" << mExpectationList << "' in translated source:\n" << mTranslatedSource; } } mExpectationList += " - " + std::string(pattern); mCurrentPosition = static_cast(position) + 1; } } static const char *UNROLL; static const char *FLATTEN; private: std::string mTranslatedSource; int mCurrentPosition; std::string mExpectationList; }; const char *UnrollFlattenTest::UNROLL = "LOOP"; const char *UnrollFlattenTest::FLATTEN = "FLATTEN"; // Check that the nothing is added if there is no gradient operation // even when there is ifs and discontinuous loops TEST_F(UnrollFlattenTest, NoGradient) { const std::string &shaderString = "precision mediump float;\n" "uniform float f;\n" "float fun(float a){\n" // 1 " if (a > 1.0) {return f;}\n" // 2 " else {return a + 1.0;}\n" "}\n" "float fun2(float a){\n" // 3 " for (int i = 0; i < 10; i++) {\n" // 4 " if (a > 1.0) {break;}\n" // 5 " a = fun(a);\n" // 6 " }\n" " return a;\n" "}\n" "void main() {\n" " float accum = 0.0;\n" " if (f < 5.0) {accum = fun2(accum);}\n" // 7 " gl_FragColor = vec4(accum);\n" "}\n"; compile(shaderString); // 1 - shouldn't get a Lod0 version generated // 2 - no FLATTEN because does not contain discont loop // 3 - shouldn't get a Lod0 version generated // 4 - no LOOP because discont, and also no gradient // 5 - no FLATTEN because does not contain loop with a gradient // 6 - call non-Lod0 version // 7 - no FLATTEN const char *expectations[] = { "fun(", "if", "fun2(", "for", "if", "break", "fun(", "main(", "if", "fun2(" }; expect(expectations, ArraySize(expectations)); } // Check that when we have a gradient in a non-discontinuous loop // we use the regular version of the functions. Also checks that // LOOP is generated for the loop containing the gradient. TEST_F(UnrollFlattenTest, GradientNotInDiscont) { const std::string &shaderString = "precision mediump float;\n" "uniform float f;\n" "uniform sampler2D tex;" "float fun(float a){\n" // 1 " return texture2D(tex, vec2(0.5, f)).x;\n" // 2 "}\n" "float fun2(float a){\n" // 3 " for (int i = 0; i < 10; i++) {\n" // 4 " if (a > 1.0) {}\n" // 5 " a = fun(a);\n" // 6 " a += texture2D(tex, vec2(a, 0.0)).x;" // 7 " }\n" " return a;\n" "}\n" "void main() {\n" " float accum = 0.0;\n" " if (f < 5.0) {accum = fun2(accum);}\n" // 8 " gl_FragColor = vec4(accum);\n" "}\n"; // 1 - shouldn't get a Lod0 version generated // 2 - no Lod0 version generated // 3 - shouldn't get a Lod0 version generated (not in discont loop) // 4 - should have LOOP because it contains a gradient operation (even if Lod0) // 5 - no FLATTEN because doesn't contain loop with a gradient // 6 - call non-Lod0 version // 7 - call non-Lod0 version // 8 - FLATTEN because it contains a loop with a gradient compile(shaderString); const char *expectations[] = { "fun(", "texture2D(", "fun2(", "LOOP", "for", "if", "fun(", "texture2D(", "main(", "FLATTEN", "if", "fun2(" }; expect(expectations, ArraySize(expectations)); } // Check that when we have a gradient in a discontinuous loop // we use the Lod0 version of the functions. TEST_F(UnrollFlattenTest, GradientInDiscont) { const std::string &shaderString = "precision mediump float;\n" "uniform float f;\n" "uniform sampler2D tex;" "float fun(float a){\n" // 1 " return texture2D(tex, vec2(0.5, f)).x;\n" // 2 "}\n" "float fun2(float a){\n" // 3 " for (int i = 0; i < 10; i++) {\n" // 4 " if (a > 1.0) {break;}\n" // 5 " a = fun(a);\n" // 6 " a += texture2D(tex, vec2(a, 0.0)).x;" // 7 " }\n" " return a;\n" "}\n" "void main() {\n" " float accum = 0.0;\n" " if (f < 5.0) {accum = fun2(accum);}\n" // 8 " gl_FragColor = vec4(accum);\n" "}\n"; // 1 - should get a Lod0 version generated (gradient + discont loop) // 2 - will get the Lod0 if in funLod0 // 3 - shouldn't get a Lod0 version generated (not in discont loop) // 4 - should have LOOP because it contains a gradient operation (even if Lod0) // 5 - no FLATTEN because doesn't contain a loop with a gradient // 6 - call Lod0 version // 7 - call Lod0 version // 8 - FLATTEN because it contains a loop with a gradient compile(shaderString); const char *expectations[] = { "fun(", "texture2D(", "funLod0(", "texture2DLod0(", "fun2(", "LOOP", "for", "if", "break", "funLod0(", "texture2DLod0", "main(", "FLATTEN", "if", "fun2(" }; expect(expectations, ArraySize(expectations)); } }