/*------------------------------------------------------------------------- * drawElements Quality Program OpenGL ES 2.0 Module * ------------------------------------------------- * * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *//*! * \file * \brief GLES2 shader constant expression tests *//*--------------------------------------------------------------------*/ #include "es2fShaderConstExprTests.hpp" #include "glsShaderLibrary.hpp" #include "glsShaderConstExprTests.hpp" #include "tcuStringTemplate.hpp" #include "deStringUtil.hpp" #include "deMath.h" namespace deqp { namespace gles2 { namespace Functional { // builtins class ShaderConstExprBuiltinTests : public TestCaseGroup { public: ShaderConstExprBuiltinTests (Context& context) : TestCaseGroup (context, "builtin_functions", "Builtin functions") {} virtual ~ShaderConstExprBuiltinTests (void) {} void init (void); void addChildGroup (const char* name, const char* desc, const gls::ShaderConstExpr::TestParams* cases, int numCases); }; void ShaderConstExprBuiltinTests::addChildGroup (const char* name, const char* desc, const gls::ShaderConstExpr::TestParams* cases, int numCases) { const std::vector<tcu::TestNode*> children = createTests(m_testCtx, m_context.getRenderContext(), m_context.getContextInfo(), cases, numCases, glu::GLSL_VERSION_100_ES); tcu::TestCaseGroup* group = new tcu::TestCaseGroup(m_testCtx, name, desc); addChild(group); for (int i = 0; i < (int)children.size(); i++) group->addChild(children[i]); } void ShaderConstExprBuiltinTests::init (void) { using namespace gls::ShaderConstExpr; // ${T} => final type, ${MT} => final type but with scalar version usable even when T is a vector // Trigonometry { const TestParams cases[] = { {"radians", "radians(${T} (90.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatRadians(90.0f) }, {"degrees", "degrees(${T} (2.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatDegrees(2.0f) }, {"sin", "sin(${T} (3.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatSin(3.0f) }, {"cos", "cos(${T} (3.2))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatCos(3.2f) }, {"tan", "tan(${T} (1.5))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatTan(1.5f) }, {"asin", "asin(${T} (0.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatAsin(0.0f) }, {"acos", "acos(${T} (1.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatAcos(1.0f) }, {"atan_separate", "atan(${T} (-1.0), ${T} (-1.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatAtan2(-1.0f, -1.0f) }, {"atan_combined", "atan(${T} (2.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatAtanOver(2.0f) }, }; addChildGroup("trigonometry", "Trigonometry", cases, DE_LENGTH_OF_ARRAY(cases)); } // Exponential { const TestParams cases[] = { {"pow", "pow(${T} (1.7), ${T} (3.5))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatPow(1.7f, 3.5f) }, {"exp", "exp(${T} (4.2))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatExp(4.2f) }, {"log", "log(${T} (42.12))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatLog(42.12f) }, {"exp2", "exp2(${T} (6.7))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatExp2(6.7f) }, {"log2", "log2(${T} (100.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatLog2(100.0f) }, {"sqrt", "sqrt(${T} (10.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatSqrt(10.0f) }, {"inversesqrt", "inversesqrt(${T} (10.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatRsq(10.0f) }, }; addChildGroup("exponential", "Exponential", cases, DE_LENGTH_OF_ARRAY(cases)); } // Common { const TestParams cases[] = { {"abs", "abs(${T} (-42.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, 42.0f }, {"sign", "sign(${T} (-18.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, -1.0f }, {"floor", "floor(${T} (37.3))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatFloor(37.3f) }, {"ceil", "ceil(${T} (82.2))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatCeil(82.2f) }, {"fract", "fract(${T} (17.75))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatFrac(17.75f) }, {"mod", "mod(${T} (87.65), ${MT} (3.7))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, deFloatMod(87.65f, 3.7f) }, {"min", "min(${T} (12.3), ${MT} (32.1))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, 12.3f }, {"max", "max(${T} (12.3), ${MT} (32.1))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, 32.1f }, {"clamp", "clamp(${T} (42.1), ${MT} (10.0), ${MT} (15.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, 15.0f }, {"mix", "mix(${T} (10.0), ${T} (20.0), ${MT}(0.75))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, 17.5f }, {"step", "step(${MT} (3.2), ${T} (4.2))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, 1.0f }, {"smoothstep", "smoothstep(${MT} (3.0), ${MT} (5.0), ${T} (4.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, 0.5f }, }; addChildGroup("common", "Common", cases, DE_LENGTH_OF_ARRAY(cases)); } // Geometric { const TestParams cases[] = { {"length_float", "length(1.0)", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 1.0f }, {"length_vec2", "length(vec2(1.0))", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, deFloatSqrt(2.0f) }, {"length_vec3", "length(vec3(1.0))", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, deFloatSqrt(3.0f) }, {"length_vec4", "length(vec4(1.0))", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, deFloatSqrt(4.0f) }, {"distance_float", "distance(1.0, 2.0)", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 1.0f }, {"distance_vec2", "distance(vec2(1.0), vec2(2.0))", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, deFloatSqrt(2.0f) }, {"distance_vec3", "distance(vec3(1.0), vec3(2.0))", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, deFloatSqrt(3.0f) }, {"distance_vec4", "distance(vec4(1.0), vec4(2.0))", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, deFloatSqrt(4.0f) }, {"dot_float", "dot(1.0, 1.0)", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 1.0f }, {"dot_vec2", "dot(vec2(1.0), vec2(1.0))", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 2.0f }, {"dot_vec3", "dot(vec3(1.0), vec3(1.0))", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 3.0f }, {"dot_vec4", "dot(vec4(1.0), vec4(1.0))", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 4.0f }, {"normalize_float", "normalize(1.0)", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 1.0f }, {"normalize_vec2", "normalize(vec2(1.0)).x", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, deFloatRsq(2.0f) }, {"normalize_vec3", "normalize(vec3(1.0)).x", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, deFloatRsq(3.0f) }, {"normalize_vec4", "normalize(vec4(1.0)).x", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, deFloatRsq(4.0f) }, {"faceforward", "faceforward(${T} (1.0), ${T} (1.0), ${T} (1.0))", glu::TYPE_FLOAT, 1, 4, glu::TYPE_FLOAT, -1.0f }, // reflect(I, N) => I - 2*dot(N, I)*N {"reflect_float", "reflect(1.0, 1.0)", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, -1.0f }, {"reflect_vec2", "reflect(vec2(1.0), vec2(1.0, 0.0)).x", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, -1.0f }, {"reflect_vec3", "reflect(vec3(1.0), vec3(1.0, 0.0, 0.0)).x", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, -1.0f }, {"reflect_vec4", "reflect(vec4(1.0), vec4(1.0, 0.0, 0.0, 0.0)).x", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, -1.0f }, /* genType refract(genType I, genType N, float eta) => k = 1.0 - (eta^2)*(1.0-dot(N,I)^2) if k < 0 return 0.0 else return eta*I - (eta*dot(N,I) + sqrt(k))*N */ {"refract_float", "refract(1.0, 1.0, 0.5)", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, -1.0f }, {"refract_vec2", "refract(vec2(1.0), vec2(1.0, 0.0), 0.5).x", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, -1.0f }, {"refract_vec3", "refract(vec3(1.0), vec3(1.0, 0.0, 0.0), 0.5).x", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, -1.0f }, {"refract_vec4", "refract(vec4(1.0), vec4(1.0, 0.0, 0.0, 0.0), 0.5).x", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, -1.0f }, }; addChildGroup("geometric", "Geometric", cases, DE_LENGTH_OF_ARRAY(cases)); } // Matrix { const TestParams cases[] = { {"compMult_mat2", "matrixCompMult(mat2(1.0), mat2(1.0))[0][0]", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 1.0f }, {"compMult_mat3", "matrixCompMult(mat3(1.0), mat3(1.0))[0][0]", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 1.0f }, {"compMult_mat4", "matrixCompMult(mat4(1.0), mat4(1.0))[0][0]", glu::TYPE_FLOAT, 1, 1, glu::TYPE_FLOAT, 1.0f }, }; addChildGroup("matrix", "Matrix", cases, DE_LENGTH_OF_ARRAY(cases)); } // Vector relational { const TestParams cases[] = { {"lessThan", "lessThan(${T} (1.0), ${T} (2.0))", glu::TYPE_FLOAT, 2, 4, glu::TYPE_BOOL, 1.0f }, {"lessThan", "lessThan(${T} (1), ${T} (2))", glu::TYPE_INT, 2, 4, glu::TYPE_BOOL, 1.0f }, {"lessThanEqual", "lessThanEqual(${T} (1.0), ${T} (1.0))", glu::TYPE_FLOAT, 2, 4, glu::TYPE_BOOL, 1.0f }, {"lessThanEqual", "lessThanEqual(${T} (1), ${T} (1))", glu::TYPE_INT, 2, 4, glu::TYPE_BOOL, 1.0f }, {"greaterThan", "greaterThan(${T} (1.0), ${T} (2.0))", glu::TYPE_FLOAT, 2, 4, glu::TYPE_BOOL, 0.0f }, {"greaterThan", "greaterThan(${T} (1), ${T} (2))", glu::TYPE_INT, 2, 4, glu::TYPE_BOOL, 0.0f }, {"greaterThanEqual","greaterThanEqual(${T} (1.0), ${T} (2.0))", glu::TYPE_FLOAT, 2, 4, glu::TYPE_BOOL, 0.0f }, {"greaterThanEqual","greaterThanEqual(${T} (1), ${T} (2))", glu::TYPE_INT, 2, 4, glu::TYPE_BOOL, 0.0f }, {"equal", "equal(${T} (1.0), ${T} (1.2))", glu::TYPE_FLOAT, 2, 4, glu::TYPE_BOOL, 0.0f }, {"equal", "equal(${T} (1), ${T} (2))", glu::TYPE_INT, 2, 4, glu::TYPE_BOOL, 0.0f }, {"equal", "equal(${T} (true), ${T} (false))", glu::TYPE_BOOL, 2, 4, glu::TYPE_BOOL, 0.0f }, {"notEqual", "notEqual(${T} (1.0), ${T} (1.2))", glu::TYPE_FLOAT, 2, 4, glu::TYPE_BOOL, 1.0f }, {"notEqual", "notEqual(${T} (1), ${T} (2))", glu::TYPE_INT, 2, 4, glu::TYPE_BOOL, 1.0f }, {"notEqual", "notEqual(${T} (true), ${T} (false))", glu::TYPE_BOOL, 2, 4, glu::TYPE_BOOL, 1.0f }, {"any_bvec2", "any(bvec2(true, false))", glu::TYPE_BOOL, 1, 1, glu::TYPE_BOOL, 1.0f }, {"any_bvec3", "any(bvec3(true, false, false))", glu::TYPE_BOOL, 1, 1, glu::TYPE_BOOL, 1.0f }, {"any_bvec4", "any(bvec4(true, false, false, false))", glu::TYPE_BOOL, 1, 1, glu::TYPE_BOOL, 1.0f }, {"all_bvec2", "all(bvec2(true, false))", glu::TYPE_BOOL, 1, 1, glu::TYPE_BOOL, 0.0f }, {"all_bvec3", "all(bvec3(true, false, false))", glu::TYPE_BOOL, 1, 1, glu::TYPE_BOOL, 0.0f }, {"all_bvec4", "all(bvec4(true, false, false, false))", glu::TYPE_BOOL, 1, 1, glu::TYPE_BOOL, 0.0f }, {"not", "not(${T} (false))", glu::TYPE_BOOL, 2, 4, glu::TYPE_BOOL, 1.0f } }; addChildGroup("vector_relational", "Vector relational", cases, DE_LENGTH_OF_ARRAY(cases)); } } ShaderConstExprTests::ShaderConstExprTests (Context& context) : TestCaseGroup (context, "constant_expressions", "Constant expressions") { } ShaderConstExprTests::~ShaderConstExprTests (void) { } // all void ShaderConstExprTests::init (void) { const std::vector<tcu::TestNode*> children = gls::ShaderLibrary(m_testCtx, m_context.getRenderContext(), m_context.getContextInfo()).loadShaderFile("shaders/constant_expressions.test"); for (int i = 0; i < (int)children.size(); i++) addChild(children[i]); addChild(new ShaderConstExprBuiltinTests(m_context)); // Negative cases. { gls::ShaderLibrary library(m_testCtx, m_context.getRenderContext(), m_context.getContextInfo()); std::vector<tcu::TestNode*> negativeCases = library.loadShaderFile("shaders/invalid_constant_expressions.test"); tcu::TestCaseGroup* group = new tcu::TestCaseGroup(m_testCtx, "invalid", "Invalid constant expressions", negativeCases); addChild(group); } } } // Functional } // gles2 } // deqp