/*------------------------------------------------------------------------- * 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 Shader loop tests. * * \todo [petri] * - loop body cases (do different operations inside the loops) * - more complex nested loops * * random generated? * * dataflow variations * * mixed loop types * - *//*--------------------------------------------------------------------*/ #include "es2fShaderLoopTests.hpp" #include "glsShaderLibrary.hpp" #include "glsShaderRenderCase.hpp" #include "gluShaderUtil.hpp" #include "tcuStringTemplate.hpp" #include "deStringUtil.hpp" #include "deInt32.h" #include "deMemory.h" #include using namespace std; using namespace tcu; using namespace glu; using namespace deqp::gls; namespace deqp { namespace gles2 { namespace Functional { // Repeated with for, while, do-while. Examples given as 'for' loops. // Repeated for const, uniform, dynamic loops. enum LoopCase { LOOPCASE_EMPTY_BODY = 0, // for (...) { } LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_FIRST, // for (...) { break; ; } LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_LAST, // for (...) { ; break; } LOOPCASE_INFINITE_WITH_CONDITIONAL_BREAK, // for (...) { ; if (cond) break; } LOOPCASE_SINGLE_STATEMENT, // for (...) statement; LOOPCASE_COMPOUND_STATEMENT, // for (...) { statement; statement; } LOOPCASE_SEQUENCE_STATEMENT, // for (...) statement, statement; LOOPCASE_NO_ITERATIONS, // for (i=0; i<0; i++) ... LOOPCASE_SINGLE_ITERATION, // for (i=0; i<1; i++) ... LOOPCASE_SELECT_ITERATION_COUNT, // for (i=0; i; continue; } LOOPCASE_ONLY_CONTINUE, // for (...) { continue; } LOOPCASE_DOUBLE_CONTINUE, // for (...) { if (cond) continue; ; continue; } LOOPCASE_CONDITIONAL_BREAK, // for (...) { if (cond) break; } LOOPCASE_UNCONDITIONAL_BREAK, // for (...) { ; break; } LOOPCASE_PRE_INCREMENT, // for (...; ++i) { ; } LOOPCASE_POST_INCREMENT, // for (...; i++) { ; } LOOPCASE_MIXED_BREAK_CONTINUE, LOOPCASE_VECTOR_COUNTER, // for (ivec3 ndx = ...; ndx.x < ndx.y; ndx.x += ndx.z) { ... } LOOPCASE_101_ITERATIONS, // loop for 101 iterations LOOPCASE_SEQUENCE, // two loops in sequence LOOPCASE_NESTED, // two nested loops LOOPCASE_NESTED_SEQUENCE, // two loops in sequence nested inside a third LOOPCASE_NESTED_TRICKY_DATAFLOW_1, // nested loops with tricky data flow LOOPCASE_NESTED_TRICKY_DATAFLOW_2, // nested loops with tricky data flow LOOPCASE_CONDITIONAL_BODY, // conditional body in loop LOOPCASE_FUNCTION_CALL_RETURN, // function call in loop with return value usage LOOPCASE_FUNCTION_CALL_INOUT, // function call with inout parameter usage LOOPCASE_LAST }; enum LoopRequirement { LOOPREQUIREMENT_STANDARD = 0, //!< Minimum requirements by standard (constant for loop with simple iterator). LOOPREQUIREMENT_UNIFORM, LOOPREQUIREMENT_DYNAMIC, LOOPREQUIREMENT_LAST }; static const char* getLoopCaseName (LoopCase loopCase) { static const char* s_names[] = { "empty_body", "infinite_with_unconditional_break_first", "infinite_with_unconditional_break_last", "infinite_with_conditional_break", "single_statement", "compound_statement", "sequence_statement", "no_iterations", "single_iteration", "select_iteration_count", "conditional_continue", "unconditional_continue", "only_continue", "double_continue", "conditional_break", "unconditional_break", "pre_increment", "post_increment", "mixed_break_continue", "vector_counter", "101_iterations", "sequence", "nested", "nested_sequence", "nested_tricky_dataflow_1", "nested_tricky_dataflow_2", "conditional_body", "function_call_return", "function_call_inout" }; DE_STATIC_ASSERT(DE_LENGTH_OF_ARRAY(s_names) == LOOPCASE_LAST); DE_ASSERT(deInBounds32((int)loopCase, 0, LOOPCASE_LAST)); return s_names[(int)loopCase]; } enum LoopType { LOOPTYPE_FOR = 0, LOOPTYPE_WHILE, LOOPTYPE_DO_WHILE, LOOPTYPE_LAST }; static const char* getLoopTypeName (LoopType loopType) { static const char* s_names[] = { "for", "while", "do_while" }; DE_STATIC_ASSERT(DE_LENGTH_OF_ARRAY(s_names) == LOOPTYPE_LAST); DE_ASSERT(deInBounds32((int)loopType, 0, LOOPTYPE_LAST)); return s_names[(int)loopType]; } enum LoopCountType { LOOPCOUNT_CONSTANT = 0, LOOPCOUNT_UNIFORM, LOOPCOUNT_DYNAMIC, LOOPCOUNT_LAST }; static const char* getLoopCountTypeName (LoopCountType countType) { static const char* s_names[] = { "constant", "uniform", "dynamic" }; DE_STATIC_ASSERT(DE_LENGTH_OF_ARRAY(s_names) == LOOPCOUNT_LAST); DE_ASSERT(deInBounds32((int)countType, 0, LOOPCOUNT_LAST)); return s_names[(int)countType]; } static void evalLoop0Iters (ShaderEvalContext& c) { c.color.xyz() = c.coords.swizzle(0,1,2); } static void evalLoop1Iters (ShaderEvalContext& c) { c.color.xyz() = c.coords.swizzle(1,2,3); } static void evalLoop2Iters (ShaderEvalContext& c) { c.color.xyz() = c.coords.swizzle(2,3,0); } static void evalLoop3Iters (ShaderEvalContext& c) { c.color.xyz() = c.coords.swizzle(3,0,1); } static ShaderEvalFunc getLoopEvalFunc (int numIters) { switch (numIters % 4) { case 0: return evalLoop0Iters; case 1: return evalLoop1Iters; case 2: return evalLoop2Iters; case 3: return evalLoop3Iters; } DE_FATAL("Invalid loop iteration count."); return NULL; } // ShaderLoopCase class ShaderLoopCase : public ShaderRenderCase { public: ShaderLoopCase (Context& context, const char* name, const char* description, bool isVertexCase, ShaderEvalFunc evalFunc, LoopRequirement requirement, const char* vertShaderSource, const char* fragShaderSource); virtual ~ShaderLoopCase (void); void init (void); private: ShaderLoopCase (const ShaderLoopCase&); // not allowed! ShaderLoopCase& operator= (const ShaderLoopCase&); // not allowed! virtual void setup (int programID); virtual void setupUniforms (int programID, const Vec4& constCoords); LoopRequirement m_requirement; }; ShaderLoopCase::ShaderLoopCase (Context& context, const char* name, const char* description, bool isVertexCase, ShaderEvalFunc evalFunc, LoopRequirement requirement, const char* vertShaderSource, const char* fragShaderSource) : ShaderRenderCase (context.getTestContext(), context.getRenderContext(), context.getContextInfo(), name, description, isVertexCase, evalFunc) , m_requirement (requirement) { m_vertShaderSource = vertShaderSource; m_fragShaderSource = fragShaderSource; } ShaderLoopCase::~ShaderLoopCase (void) { } void ShaderLoopCase::init (void) { bool isSupported = true; if (m_requirement == LOOPREQUIREMENT_UNIFORM) isSupported = m_isVertexCase ? m_ctxInfo.isVertexUniformLoopSupported() : m_ctxInfo.isFragmentUniformLoopSupported(); else if (m_requirement == LOOPREQUIREMENT_DYNAMIC) isSupported = m_isVertexCase ? m_ctxInfo.isVertexDynamicLoopSupported() : m_ctxInfo.isFragmentDynamicLoopSupported(); try { ShaderRenderCase::init(); } catch (const CompileFailed&) { if (!isSupported) throw tcu::NotSupportedError("Loop type is not supported"); else throw; } } void ShaderLoopCase::setup (int programID) { DE_UNREF(programID); } void ShaderLoopCase::setupUniforms (int programID, const Vec4& constCoords) { DE_UNREF(programID); DE_UNREF(constCoords); } // Test case creation. static ShaderLoopCase* createGenericLoopCase (Context& context, const char* caseName, const char* description, bool isVertexCase, LoopType loopType, LoopCountType loopCountType, Precision loopCountPrecision, DataType loopCountDataType) { std::ostringstream vtx; std::ostringstream frag; std::ostringstream& op = isVertexCase ? vtx : frag; vtx << "attribute highp vec4 a_position;\n"; vtx << "attribute highp vec4 a_coords;\n"; if (loopCountType == LOOPCOUNT_DYNAMIC) vtx << "attribute mediump float a_one;\n"; if (isVertexCase) { vtx << "varying mediump vec3 v_color;\n"; frag << "varying mediump vec3 v_color;\n"; } else { vtx << "varying mediump vec4 v_coords;\n"; frag << "varying mediump vec4 v_coords;\n"; if (loopCountType == LOOPCOUNT_DYNAMIC) { vtx << "varying mediump float v_one;\n"; frag << "varying mediump float v_one;\n"; } } // \todo [petri] Pass numLoopIters from outside? int numLoopIters = 3; bool isIntCounter = isDataTypeIntOrIVec(loopCountDataType); if (isIntCounter) { if (loopCountType == LOOPCOUNT_UNIFORM || loopCountType == LOOPCOUNT_DYNAMIC) op << "uniform ${COUNTER_PRECISION} int " << getIntUniformName(numLoopIters) << ";\n"; } else { if (loopCountType == LOOPCOUNT_UNIFORM || loopCountType == LOOPCOUNT_DYNAMIC) op << "uniform ${COUNTER_PRECISION} float " << getFloatFractionUniformName(numLoopIters) << ";\n"; if (numLoopIters != 1) op << "uniform ${COUNTER_PRECISION} float uf_one;\n"; } vtx << "\n"; vtx << "void main()\n"; vtx << "{\n"; vtx << " gl_Position = a_position;\n"; frag << "\n"; frag << "void main()\n"; frag << "{\n"; if (isVertexCase) vtx << " ${PRECISION} vec4 coords = a_coords;\n"; else frag << " ${PRECISION} vec4 coords = v_coords;\n"; if (loopCountType == LOOPCOUNT_DYNAMIC) { if (isIntCounter) { if (isVertexCase) vtx << " ${COUNTER_PRECISION} int one = int(a_one + 0.5);\n"; else frag << " ${COUNTER_PRECISION} int one = int(v_one + 0.5);\n"; } else { if (isVertexCase) vtx << " ${COUNTER_PRECISION} float one = a_one;\n"; else frag << " ${COUNTER_PRECISION} float one = v_one;\n"; } } // Read array. op << " ${PRECISION} vec4 res = coords;\n"; // Loop iteration count. string iterMaxStr; if (isIntCounter) { if (loopCountType == LOOPCOUNT_CONSTANT) iterMaxStr = de::toString(numLoopIters); else if (loopCountType == LOOPCOUNT_UNIFORM) iterMaxStr = getIntUniformName(numLoopIters); else if (loopCountType == LOOPCOUNT_DYNAMIC) iterMaxStr = string(getIntUniformName(numLoopIters)) + "*one"; else DE_ASSERT(false); } else { if (loopCountType == LOOPCOUNT_CONSTANT) iterMaxStr = "1.0"; else if (loopCountType == LOOPCOUNT_UNIFORM) iterMaxStr = "uf_one"; else if (loopCountType == LOOPCOUNT_DYNAMIC) iterMaxStr = "uf_one*one"; else DE_ASSERT(false); } // Loop operations. string initValue = isIntCounter ? "0" : "0.05"; string loopCountDeclStr = "${COUNTER_PRECISION} ${LOOP_VAR_TYPE} ndx = " + initValue; string loopCmpStr = ("ndx < " + iterMaxStr); string incrementStr; if (isIntCounter) incrementStr = "ndx++"; else { if (loopCountType == LOOPCOUNT_CONSTANT) incrementStr = string("ndx += ") + de::toString(1.0f / (float)numLoopIters); else if (loopCountType == LOOPCOUNT_UNIFORM) incrementStr = string("ndx += ") + getFloatFractionUniformName(numLoopIters); else if (loopCountType == LOOPCOUNT_DYNAMIC) incrementStr = string("ndx += ") + getFloatFractionUniformName(numLoopIters) + "*one"; else DE_ASSERT(false); } // Loop body. string loopBody; loopBody = " res = res.yzwx;\n"; if (loopType == LOOPTYPE_FOR) { op << " for (" + loopCountDeclStr + "; " + loopCmpStr + "; " + incrementStr + ")\n"; op << " {\n"; op << loopBody; op << " }\n"; } else if (loopType == LOOPTYPE_WHILE) { op << "\t" << loopCountDeclStr + ";\n"; op << " while (" + loopCmpStr + ")\n"; op << " {\n"; op << loopBody; op << "\t\t" + incrementStr + ";\n"; op << " }\n"; } else if (loopType == LOOPTYPE_DO_WHILE) { op << "\t" << loopCountDeclStr + ";\n"; op << " do\n"; op << " {\n"; op << loopBody; op << "\t\t" + incrementStr + ";\n"; op << " } while (" + loopCmpStr + ");\n"; } else DE_ASSERT(false); if (isVertexCase) { vtx << " v_color = res.rgb;\n"; frag << " gl_FragColor = vec4(v_color.rgb, 1.0);\n"; } else { vtx << " v_coords = a_coords;\n"; frag << " gl_FragColor = vec4(res.rgb, 1.0);\n"; if (loopCountType == LOOPCOUNT_DYNAMIC) vtx << " v_one = a_one;\n"; } vtx << "}\n"; frag << "}\n"; // Fill in shader templates. map params; params.insert(pair("LOOP_VAR_TYPE", getDataTypeName(loopCountDataType))); params.insert(pair("PRECISION", "mediump")); params.insert(pair("COUNTER_PRECISION", getPrecisionName(loopCountPrecision))); StringTemplate vertTemplate(vtx.str().c_str()); StringTemplate fragTemplate(frag.str().c_str()); string vertexShaderSource = vertTemplate.specialize(params); string fragmentShaderSource = fragTemplate.specialize(params); // Create the case. ShaderEvalFunc evalFunc = getLoopEvalFunc(numLoopIters); LoopRequirement requirement; if (loopType == LOOPTYPE_FOR) { if (loopCountType == LOOPCOUNT_CONSTANT) requirement = LOOPREQUIREMENT_STANDARD; else if (loopCountType == LOOPCOUNT_UNIFORM) requirement = LOOPREQUIREMENT_UNIFORM; else requirement = LOOPREQUIREMENT_DYNAMIC; } else requirement = LOOPREQUIREMENT_DYNAMIC; return new ShaderLoopCase(context, caseName, description, isVertexCase, evalFunc, requirement, vertexShaderSource.c_str(), fragmentShaderSource.c_str()); } // \todo [petri] Generalize to float as well? static ShaderLoopCase* createSpecialLoopCase (Context& context, const char* caseName, const char* description, bool isVertexCase, LoopCase loopCase, LoopType loopType, LoopCountType loopCountType) { std::ostringstream vtx; std::ostringstream frag; std::ostringstream& op = isVertexCase ? vtx : frag; vtx << "attribute highp vec4 a_position;\n"; vtx << "attribute highp vec4 a_coords;\n"; if (loopCountType == LOOPCOUNT_DYNAMIC) vtx << "attribute mediump float a_one;\n"; // Attribute and varyings. if (isVertexCase) { vtx << "varying mediump vec3 v_color;\n"; frag << "varying mediump vec3 v_color;\n"; } else { vtx << "varying mediump vec4 v_coords;\n"; frag << "varying mediump vec4 v_coords;\n"; if (loopCountType == LOOPCOUNT_DYNAMIC) { vtx << "varying mediump float v_one;\n"; frag << "varying mediump float v_one;\n"; } } if (loopCase == LOOPCASE_SELECT_ITERATION_COUNT) op << "uniform bool ub_true;\n"; op << "uniform ${COUNTER_PRECISION} int ui_zero, ui_one, ui_two, ui_three, ui_four, ui_five, ui_six;\n"; if (loopCase == LOOPCASE_101_ITERATIONS) op << "uniform ${COUNTER_PRECISION} int ui_oneHundredOne;\n"; int iterCount = 3; // value to use in loop int numIters = 3; // actual number of iterations // Generate helpers if necessary. if (loopCase == LOOPCASE_FUNCTION_CALL_RETURN) op << "\n${PRECISION} vec4 func (in ${PRECISION} vec4 coords) { return coords.yzwx; }\n"; else if (loopCase == LOOPCASE_FUNCTION_CALL_INOUT) op << "\nvoid func (inout ${PRECISION} vec4 coords) { coords = coords.yzwx; }\n"; vtx << "\n"; vtx << "void main()\n"; vtx << "{\n"; vtx << " gl_Position = a_position;\n"; frag << "\n"; frag << "void main()\n"; frag << "{\n"; if (loopCountType == LOOPCOUNT_DYNAMIC) { if (isVertexCase) vtx << " ${COUNTER_PRECISION} int one = int(a_one + 0.5);\n"; else frag << " ${COUNTER_PRECISION} int one = int(v_one + 0.5);\n"; } if (isVertexCase) vtx << " ${PRECISION} vec4 coords = a_coords;\n"; else frag << " ${PRECISION} vec4 coords = v_coords;\n"; // Read array. op << " ${PRECISION} vec4 res = coords;\n"; // Handle all loop types. string counterPrecisionStr = "mediump"; string forLoopStr; string whileLoopStr; string doWhileLoopPreStr; string doWhileLoopPostStr; if (loopType == LOOPTYPE_FOR) { switch (loopCase) { case LOOPCASE_EMPTY_BODY: numIters = 0; op << " ${FOR_LOOP} {}\n"; break; case LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_FIRST: numIters = 0; op << " for (;;) { break; res = res.yzwx; }\n"; break; case LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_LAST: numIters = 1; op << " for (;;) { res = res.yzwx; break; }\n"; break; case LOOPCASE_INFINITE_WITH_CONDITIONAL_BREAK: numIters = 2; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " for (;;) { res = res.yzwx; if (i == ${ONE}) break; i++; }\n"; break; case LOOPCASE_SINGLE_STATEMENT: op << " ${FOR_LOOP} res = res.yzwx;\n"; break; case LOOPCASE_COMPOUND_STATEMENT: iterCount = 2; numIters = 2 * iterCount; op << " ${FOR_LOOP} { res = res.yzwx; res = res.yzwx; }\n"; break; case LOOPCASE_SEQUENCE_STATEMENT: iterCount = 2; numIters = 2 * iterCount; op << " ${FOR_LOOP} res = res.yzwx, res = res.yzwx;\n"; break; case LOOPCASE_NO_ITERATIONS: iterCount = 0; numIters = 0; op << " ${FOR_LOOP} res = res.yzwx;\n"; break; case LOOPCASE_SINGLE_ITERATION: iterCount = 1; numIters = 1; op << " ${FOR_LOOP} res = res.yzwx;\n"; break; case LOOPCASE_SELECT_ITERATION_COUNT: op << " for (int i = 0; i < (ub_true ? ${ITER_COUNT} : 0); i++) res = res.yzwx;\n"; break; case LOOPCASE_CONDITIONAL_CONTINUE: numIters = iterCount - 1; op << " ${FOR_LOOP} { if (i == ${TWO}) continue; res = res.yzwx; }\n"; break; case LOOPCASE_UNCONDITIONAL_CONTINUE: op << " ${FOR_LOOP} { res = res.yzwx; continue; }\n"; break; case LOOPCASE_ONLY_CONTINUE: numIters = 0; op << " ${FOR_LOOP} { continue; }\n"; break; case LOOPCASE_DOUBLE_CONTINUE: numIters = iterCount - 1; op << " ${FOR_LOOP} { if (i == ${TWO}) continue; res = res.yzwx; continue; }\n"; break; case LOOPCASE_CONDITIONAL_BREAK: numIters = 2; op << " ${FOR_LOOP} { if (i == ${TWO}) break; res = res.yzwx; }\n"; break; case LOOPCASE_UNCONDITIONAL_BREAK: numIters = 1; op << " ${FOR_LOOP} { res = res.yzwx; break; }\n"; break; case LOOPCASE_PRE_INCREMENT: op << " for (int i = 0; i < ${ITER_COUNT}; ++i) { res = res.yzwx; }\n"; break; case LOOPCASE_POST_INCREMENT: op << " ${FOR_LOOP} { res = res.yzwx; }\n"; break; case LOOPCASE_MIXED_BREAK_CONTINUE: numIters = 2; iterCount = 5; op << " ${FOR_LOOP} { if (i == 0) continue; else if (i == 3) break; res = res.yzwx; }\n"; break; case LOOPCASE_VECTOR_COUNTER: op << " for (${COUNTER_PRECISION} ivec4 i = ivec4(0, 1, ${ITER_COUNT}, 0); i.x < i.z; i.x += i.y) { res = res.yzwx; }\n"; break; case LOOPCASE_101_ITERATIONS: numIters = iterCount = 101; op << " ${FOR_LOOP} res = res.yzwx;\n"; break; case LOOPCASE_SEQUENCE: iterCount = 5; numIters = 5; op << " ${COUNTER_PRECISION} int i;\n"; op << " for (i = 0; i < ${TWO}; i++) { res = res.yzwx; }\n"; op << " for (; i < ${ITER_COUNT}; i++) { res = res.yzwx; }\n"; break; case LOOPCASE_NESTED: numIters = 2 * iterCount; op << " for (${COUNTER_PRECISION} int i = 0; i < ${TWO}; i++)\n"; op << " {\n"; op << " for (${COUNTER_PRECISION} int j = 0; j < ${ITER_COUNT}; j++)\n"; op << " res = res.yzwx;\n"; op << " }\n"; break; case LOOPCASE_NESTED_SEQUENCE: numIters = 3 * iterCount; op << " for (${COUNTER_PRECISION} int i = 0; i < ${ITER_COUNT}; i++)\n"; op << " {\n"; op << " for (${COUNTER_PRECISION} int j = 0; j < ${TWO}; j++)\n"; op << " res = res.yzwx;\n"; op << " for (${COUNTER_PRECISION} int j = 0; j < ${ONE}; j++)\n"; op << " res = res.yzwx;\n"; op << " }\n"; break; case LOOPCASE_NESTED_TRICKY_DATAFLOW_1: numIters = 2; op << " ${FOR_LOOP}\n"; op << " {\n"; op << " res = coords; // ignore outer loop effect \n"; op << " for (${COUNTER_PRECISION} int j = 0; j < ${TWO}; j++)\n"; op << " res = res.yzwx;\n"; op << " }\n"; break; case LOOPCASE_NESTED_TRICKY_DATAFLOW_2: numIters = iterCount; op << " ${FOR_LOOP}\n"; op << " {\n"; op << " res = coords.wxyz;\n"; op << " for (${COUNTER_PRECISION} int j = 0; j < ${TWO}; j++)\n"; op << " res = res.yzwx;\n"; op << " coords = res;\n"; op << " }\n"; break; case LOOPCASE_CONDITIONAL_BODY: numIters = de::min(2, iterCount); op << " ${FOR_LOOP} if (i < 2) res = res.yzwx;\n"; break; case LOOPCASE_FUNCTION_CALL_RETURN: numIters = iterCount; op << " ${FOR_LOOP}\n"; op << " {\n"; op << " res = func(res);\n"; op << " }\n"; break; case LOOPCASE_FUNCTION_CALL_INOUT: numIters = iterCount; op << " ${FOR_LOOP}\n"; op << " {\n"; op << " func(res);\n"; op << " }\n"; break; default: DE_ASSERT(false); } if (loopCountType == LOOPCOUNT_CONSTANT) forLoopStr = string("for (") + counterPrecisionStr + " int i = 0; i < " + de::toString(iterCount) + "; i++)"; else if (loopCountType == LOOPCOUNT_UNIFORM) forLoopStr = string("for (") + counterPrecisionStr + " int i = 0; i < " + getIntUniformName(iterCount) + "; i++)"; else if (loopCountType == LOOPCOUNT_DYNAMIC) forLoopStr = string("for (") + counterPrecisionStr + " int i = 0; i < one*" + getIntUniformName(iterCount) + "; i++)"; else DE_ASSERT(false); } else if (loopType == LOOPTYPE_WHILE) { switch (loopCase) { case LOOPCASE_EMPTY_BODY: numIters = 0; op << " ${WHILE_LOOP} {}\n"; break; case LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_FIRST: numIters = 0; op << " while (true) { break; res = res.yzwx; }\n"; break; case LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_LAST: numIters = 1; op << " while (true) { res = res.yzwx; break; }\n"; break; case LOOPCASE_INFINITE_WITH_CONDITIONAL_BREAK: numIters = 2; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " while (true) { res = res.yzwx; if (i == ${ONE}) break; i++; }\n"; break; case LOOPCASE_SINGLE_STATEMENT: op << " ${WHILE_LOOP} res = res.yzwx;\n"; break; case LOOPCASE_COMPOUND_STATEMENT: iterCount = 2; numIters = 2 * iterCount; op << " ${WHILE_LOOP} { res = res.yzwx; res = res.yzwx; }\n"; break; case LOOPCASE_SEQUENCE_STATEMENT: iterCount = 2; numIters = 2 * iterCount; op << " ${WHILE_LOOP} res = res.yzwx, res = res.yzwx;\n"; break; case LOOPCASE_NO_ITERATIONS: iterCount = 0; numIters = 0; op << " ${WHILE_LOOP} res = res.yzwx;\n"; break; case LOOPCASE_SINGLE_ITERATION: iterCount = 1; numIters = 1; op << " ${WHILE_LOOP} res = res.yzwx;\n"; break; case LOOPCASE_SELECT_ITERATION_COUNT: op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " while (i < (ub_true ? ${ITER_COUNT} : 0)) { res = res.yzwx; i++; }\n"; break; case LOOPCASE_CONDITIONAL_CONTINUE: numIters = iterCount - 1; op << " ${WHILE_LOOP} { if (i == ${TWO}) continue; res = res.yzwx; }\n"; break; case LOOPCASE_UNCONDITIONAL_CONTINUE: op << " ${WHILE_LOOP} { res = res.yzwx; continue; }\n"; break; case LOOPCASE_ONLY_CONTINUE: numIters = 0; op << " ${WHILE_LOOP} { continue; }\n"; break; case LOOPCASE_DOUBLE_CONTINUE: numIters = iterCount - 1; op << " ${WHILE_LOOP} { if (i == ${ONE}) continue; res = res.yzwx; continue; }\n"; break; case LOOPCASE_CONDITIONAL_BREAK: numIters = 2; op << " ${WHILE_LOOP} { if (i == ${THREE}) break; res = res.yzwx; }\n"; break; case LOOPCASE_UNCONDITIONAL_BREAK: numIters = 1; op << " ${WHILE_LOOP} { res = res.yzwx; break; }\n"; break; case LOOPCASE_PRE_INCREMENT: numIters = iterCount - 1; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " while (++i < ${ITER_COUNT}) { res = res.yzwx; }\n"; break; case LOOPCASE_POST_INCREMENT: op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " while (i++ < ${ITER_COUNT}) { res = res.yzwx; }\n"; break; case LOOPCASE_MIXED_BREAK_CONTINUE: numIters = 2; iterCount = 5; op << " ${WHILE_LOOP} { if (i == 0) continue; else if (i == 3) break; res = res.yzwx; }\n"; break; case LOOPCASE_VECTOR_COUNTER: op << " ${COUNTER_PRECISION} ivec4 i = ivec4(0, 1, ${ITER_COUNT}, 0);\n"; op << " while (i.x < i.z) { res = res.yzwx; i.x += i.y; }\n"; break; case LOOPCASE_101_ITERATIONS: numIters = iterCount = 101; op << " ${WHILE_LOOP} res = res.yzwx;\n"; break; case LOOPCASE_SEQUENCE: iterCount = 6; numIters = iterCount - 1; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " while (i++ < ${TWO}) { res = res.yzwx; }\n"; op << " while (i++ < ${ITER_COUNT}) { res = res.yzwx; }\n"; // \note skips one iteration break; case LOOPCASE_NESTED: numIters = 2 * iterCount; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " while (i++ < ${TWO})\n"; op << " {\n"; op << " ${COUNTER_PRECISION} int j = 0;\n"; op << " while (j++ < ${ITER_COUNT})\n"; op << " res = res.yzwx;\n"; op << " }\n"; break; case LOOPCASE_NESTED_SEQUENCE: numIters = 2 * iterCount; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " while (i++ < ${ITER_COUNT})\n"; op << " {\n"; op << " ${COUNTER_PRECISION} int j = 0;\n"; op << " while (j++ < ${ONE})\n"; op << " res = res.yzwx;\n"; op << " while (j++ < ${THREE})\n"; // \note skips one iteration op << " res = res.yzwx;\n"; op << " }\n"; break; case LOOPCASE_NESTED_TRICKY_DATAFLOW_1: numIters = 2; op << " ${WHILE_LOOP}\n"; op << " {\n"; op << " res = coords; // ignore outer loop effect \n"; op << " ${COUNTER_PRECISION} int j = 0;\n"; op << " while (j++ < ${TWO})\n"; op << " res = res.yzwx;\n"; op << " }\n"; break; case LOOPCASE_NESTED_TRICKY_DATAFLOW_2: numIters = iterCount; op << " ${WHILE_LOOP}\n"; op << " {\n"; op << " res = coords.wxyz;\n"; op << " ${COUNTER_PRECISION} int j = 0;\n"; op << " while (j++ < ${TWO})\n"; op << " res = res.yzwx;\n"; op << " coords = res;\n"; op << " }\n"; break; case LOOPCASE_CONDITIONAL_BODY: numIters = de::min(1, iterCount); op << " ${WHILE_LOOP} if (i < 2) res = res.yzwx;\n"; break; case LOOPCASE_FUNCTION_CALL_RETURN: numIters = iterCount; op << " ${WHILE_LOOP}\n"; op << " {\n"; op << " res = func(res);\n"; op << " }\n"; break; case LOOPCASE_FUNCTION_CALL_INOUT: numIters = iterCount; op << " ${WHILE_LOOP}\n"; op << " {\n"; op << " func(res);\n"; op << " }\n"; break; default: DE_ASSERT(false); } if (loopCountType == LOOPCOUNT_CONSTANT) whileLoopStr = string("\t") + counterPrecisionStr + " int i = 0;\n" + " while(i++ < " + de::toString(iterCount) + ")"; else if (loopCountType == LOOPCOUNT_UNIFORM) whileLoopStr = string("\t") + counterPrecisionStr + " int i = 0;\n" + " while(i++ < " + getIntUniformName(iterCount) + ")"; else if (loopCountType == LOOPCOUNT_DYNAMIC) whileLoopStr = string("\t") + counterPrecisionStr + " int i = 0;\n" + " while(i++ < one*" + getIntUniformName(iterCount) + ")"; else DE_ASSERT(false); } else { DE_ASSERT(loopType == LOOPTYPE_DO_WHILE); switch (loopCase) { case LOOPCASE_EMPTY_BODY: numIters = 0; op << " ${DO_WHILE_PRE} {} ${DO_WHILE_POST}\n"; break; case LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_FIRST: numIters = 0; op << " do { break; res = res.yzwx; } while (true);\n"; break; case LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_LAST: numIters = 1; op << " do { res = res.yzwx; break; } while (true);\n"; break; case LOOPCASE_INFINITE_WITH_CONDITIONAL_BREAK: numIters = 2; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " do { res = res.yzwx; if (i == ${ONE}) break; i++; } while (true);\n"; break; case LOOPCASE_SINGLE_STATEMENT: op << " ${DO_WHILE_PRE} res = res.yzwx; ${DO_WHILE_POST}\n"; break; case LOOPCASE_COMPOUND_STATEMENT: iterCount = 2; numIters = 2 * iterCount; op << " ${DO_WHILE_PRE} { res = res.yzwx; res = res.yzwx; } ${DO_WHILE_POST}\n"; break; case LOOPCASE_SEQUENCE_STATEMENT: iterCount = 2; numIters = 2 * iterCount; op << " ${DO_WHILE_PRE} res = res.yzwx, res = res.yzwx; ${DO_WHILE_POST}\n"; break; case LOOPCASE_NO_ITERATIONS: DE_ASSERT(false); break; case LOOPCASE_SINGLE_ITERATION: iterCount = 1; numIters = 1; op << " ${DO_WHILE_PRE} res = res.yzwx; ${DO_WHILE_POST}\n"; break; case LOOPCASE_SELECT_ITERATION_COUNT: op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " do { res = res.yzwx; } while (++i < (ub_true ? ${ITER_COUNT} : 0));\n"; break; case LOOPCASE_CONDITIONAL_CONTINUE: numIters = iterCount - 1; op << " ${DO_WHILE_PRE} { if (i == ${TWO}) continue; res = res.yzwx; } ${DO_WHILE_POST}\n"; break; case LOOPCASE_UNCONDITIONAL_CONTINUE: op << " ${DO_WHILE_PRE} { res = res.yzwx; continue; } ${DO_WHILE_POST}\n"; break; case LOOPCASE_ONLY_CONTINUE: numIters = 0; op << " ${DO_WHILE_PRE} { continue; } ${DO_WHILE_POST}\n"; break; case LOOPCASE_DOUBLE_CONTINUE: numIters = iterCount - 1; op << " ${DO_WHILE_PRE} { if (i == ${TWO}) continue; res = res.yzwx; continue; } ${DO_WHILE_POST}\n"; break; case LOOPCASE_CONDITIONAL_BREAK: numIters = 2; op << " ${DO_WHILE_PRE} { res = res.yzwx; if (i == ${ONE}) break; } ${DO_WHILE_POST}\n"; break; case LOOPCASE_UNCONDITIONAL_BREAK: numIters = 1; op << " ${DO_WHILE_PRE} { res = res.yzwx; break; } ${DO_WHILE_POST}\n"; break; case LOOPCASE_PRE_INCREMENT: op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " do { res = res.yzwx; } while (++i < ${ITER_COUNT});\n"; break; case LOOPCASE_POST_INCREMENT: numIters = iterCount + 1; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " do { res = res.yzwx; } while (i++ < ${ITER_COUNT});\n"; break; case LOOPCASE_MIXED_BREAK_CONTINUE: numIters = 2; iterCount = 5; op << " ${DO_WHILE_PRE} { if (i == 0) continue; else if (i == 3) break; res = res.yzwx; } ${DO_WHILE_POST}\n"; break; case LOOPCASE_VECTOR_COUNTER: op << " ${COUNTER_PRECISION} ivec4 i = ivec4(0, 1, ${ITER_COUNT}, 0);\n"; op << " do { res = res.yzwx; } while ((i.x += i.y) < i.z);\n"; break; case LOOPCASE_101_ITERATIONS: numIters = iterCount = 101; op << " ${DO_WHILE_PRE} res = res.yzwx; ${DO_WHILE_POST}\n"; break; case LOOPCASE_SEQUENCE: iterCount = 5; numIters = 5; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " do { res = res.yzwx; } while (++i < ${TWO});\n"; op << " do { res = res.yzwx; } while (++i < ${ITER_COUNT});\n"; break; case LOOPCASE_NESTED: numIters = 2 * iterCount; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " do\n"; op << " {\n"; op << " ${COUNTER_PRECISION} int j = 0;\n"; op << " do\n"; op << " res = res.yzwx;\n"; op << " while (++j < ${ITER_COUNT});\n"; op << " } while (++i < ${TWO});\n"; break; case LOOPCASE_NESTED_SEQUENCE: numIters = 3 * iterCount; op << " ${COUNTER_PRECISION} int i = 0;\n"; op << " do\n"; op << " {\n"; op << " ${COUNTER_PRECISION} int j = 0;\n"; op << " do\n"; op << " res = res.yzwx;\n"; op << " while (++j < ${TWO});\n"; op << " do\n"; op << " res = res.yzwx;\n"; op << " while (++j < ${THREE});\n"; op << " } while (++i < ${ITER_COUNT});\n"; break; case LOOPCASE_NESTED_TRICKY_DATAFLOW_1: numIters = 2; op << " ${DO_WHILE_PRE}\n"; op << " {\n"; op << " res = coords; // ignore outer loop effect \n"; op << " ${COUNTER_PRECISION} int j = 0;\n"; op << " do\n"; op << " res = res.yzwx;\n"; op << " while (++j < ${TWO});\n"; op << " } ${DO_WHILE_POST}\n"; break; case LOOPCASE_NESTED_TRICKY_DATAFLOW_2: numIters = iterCount; op << " ${DO_WHILE_PRE}\n"; op << " {\n"; op << " res = coords.wxyz;\n"; op << " ${COUNTER_PRECISION} int j = 0;\n"; op << " while (j++ < ${TWO})\n"; op << " res = res.yzwx;\n"; op << " coords = res;\n"; op << " } ${DO_WHILE_POST}\n"; break; case LOOPCASE_CONDITIONAL_BODY: numIters = de::min(2, iterCount); op << " ${DO_WHILE_PRE} if (i < 2) res = res.yzwx; ${DO_WHILE_POST}\n"; break; case LOOPCASE_FUNCTION_CALL_RETURN: numIters = iterCount; op << " ${DO_WHILE_PRE}\n"; op << " {\n"; op << " res = func(res);\n"; op << " } ${DO_WHILE_POST}\n"; break; case LOOPCASE_FUNCTION_CALL_INOUT: numIters = iterCount; op << " ${DO_WHILE_PRE}\n"; op << " {\n"; op << " func(res);\n"; op << " } ${DO_WHILE_POST}\n"; break; default: DE_ASSERT(false); } doWhileLoopPreStr = string("\t") + counterPrecisionStr + " int i = 0;\n" + "\tdo "; if (loopCountType == LOOPCOUNT_CONSTANT) doWhileLoopPostStr = string(" while (++i < ") + de::toString(iterCount) + ");\n"; else if (loopCountType == LOOPCOUNT_UNIFORM) doWhileLoopPostStr = string(" while (++i < ") + getIntUniformName(iterCount) + ");\n"; else if (loopCountType == LOOPCOUNT_DYNAMIC) doWhileLoopPostStr = string(" while (++i < one*") + getIntUniformName(iterCount) + ");\n"; else DE_ASSERT(false); } // Shader footers. if (isVertexCase) { vtx << " v_color = res.rgb;\n"; frag << " gl_FragColor = vec4(v_color.rgb, 1.0);\n"; } else { vtx << " v_coords = a_coords;\n"; frag << " gl_FragColor = vec4(res.rgb, 1.0);\n"; if (loopCountType == LOOPCOUNT_DYNAMIC) vtx << " v_one = a_one;\n"; } vtx << "}\n"; frag << "}\n"; // Constants. string oneStr; string twoStr; string threeStr; string iterCountStr; if (loopCountType == LOOPCOUNT_CONSTANT) { oneStr = "1"; twoStr = "2"; threeStr = "3"; iterCountStr = de::toString(iterCount); } else if (loopCountType == LOOPCOUNT_UNIFORM) { oneStr = "ui_one"; twoStr = "ui_two"; threeStr = "ui_three"; iterCountStr = getIntUniformName(iterCount); } else if (loopCountType == LOOPCOUNT_DYNAMIC) { oneStr = "one*ui_one"; twoStr = "one*ui_two"; threeStr = "one*ui_three"; iterCountStr = string("one*") + getIntUniformName(iterCount); } else DE_ASSERT(false); // Fill in shader templates. map params; params.insert(pair("PRECISION", "mediump")); params.insert(pair("ITER_COUNT", iterCountStr)); params.insert(pair("COUNTER_PRECISION", counterPrecisionStr)); params.insert(pair("FOR_LOOP", forLoopStr)); params.insert(pair("WHILE_LOOP", whileLoopStr)); params.insert(pair("DO_WHILE_PRE", doWhileLoopPreStr)); params.insert(pair("DO_WHILE_POST", doWhileLoopPostStr)); params.insert(pair("ONE", oneStr)); params.insert(pair("TWO", twoStr)); params.insert(pair("THREE", threeStr)); StringTemplate vertTemplate(vtx.str().c_str()); StringTemplate fragTemplate(frag.str().c_str()); string vertexShaderSource = vertTemplate.specialize(params); string fragmentShaderSource = fragTemplate.specialize(params); // Create the case. ShaderEvalFunc evalFunc = getLoopEvalFunc(numIters); LoopRequirement requirement; if (loopType == LOOPTYPE_FOR && loopCountType == LOOPCOUNT_CONSTANT) { if (loopCase == LOOPCASE_INFINITE_WITH_CONDITIONAL_BREAK || loopCase == LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_FIRST || loopCase == LOOPCASE_INFINITE_WITH_UNCONDITIONAL_BREAK_LAST || loopCase == LOOPCASE_SELECT_ITERATION_COUNT || loopCase == LOOPCASE_VECTOR_COUNTER || loopCase == LOOPCASE_SEQUENCE) requirement = LOOPREQUIREMENT_DYNAMIC; else requirement = LOOPREQUIREMENT_STANDARD; } else requirement = LOOPREQUIREMENT_DYNAMIC; return new ShaderLoopCase(context, caseName, description, isVertexCase, evalFunc, requirement, vertexShaderSource.c_str(), fragmentShaderSource.c_str()); }; // ShaderLoopTests. ShaderLoopTests::ShaderLoopTests(Context& context) : TestCaseGroup(context, "loops", "Loop Tests") { } ShaderLoopTests::~ShaderLoopTests (void) { } void ShaderLoopTests::init (void) { // Loop cases. static const ShaderType s_shaderTypes[] = { SHADERTYPE_VERTEX, SHADERTYPE_FRAGMENT }; static const DataType s_countDataType[] = { TYPE_INT, TYPE_FLOAT }; for (int loopType = 0; loopType < LOOPTYPE_LAST; loopType++) { const char* loopTypeName = getLoopTypeName((LoopType)loopType); for (int loopCountType = 0; loopCountType < LOOPCOUNT_LAST; loopCountType++) { const char* loopCountName = getLoopCountTypeName((LoopCountType)loopCountType); string groupName = string(loopTypeName) + "_" + string(loopCountName) + "_iterations"; string groupDesc = string("Loop tests with ") + loopCountName + " loop counter."; TestCaseGroup* group = new TestCaseGroup(m_context, groupName.c_str(), groupDesc.c_str()); addChild(group); // Generic cases. for (int precision = 0; precision < PRECISION_LAST; precision++) { const char* precisionName = getPrecisionName((Precision)precision); for (int dataTypeNdx = 0; dataTypeNdx < DE_LENGTH_OF_ARRAY(s_countDataType); dataTypeNdx++) { DataType loopDataType = s_countDataType[dataTypeNdx]; const char* dataTypeName = getDataTypeName(loopDataType); for (int shaderTypeNdx = 0; shaderTypeNdx < DE_LENGTH_OF_ARRAY(s_shaderTypes); shaderTypeNdx++) { ShaderType shaderType = s_shaderTypes[shaderTypeNdx]; const char* shaderTypeName = getShaderTypeName(shaderType); bool isVertexCase = (shaderType == SHADERTYPE_VERTEX); string name = string("basic_") + precisionName + "_" + dataTypeName + "_" + shaderTypeName; string desc = string(loopTypeName) + " loop with " + precisionName + dataTypeName + " " + loopCountName + " iteration count in " + shaderTypeName + " shader."; group->addChild(createGenericLoopCase(m_context, name.c_str(), desc.c_str(), isVertexCase, (LoopType)loopType, (LoopCountType)loopCountType, (Precision)precision, loopDataType)); } } } // Special cases. for (int loopCase = 0; loopCase < LOOPCASE_LAST; loopCase++) { const char* loopCaseName = getLoopCaseName((LoopCase)loopCase); // no-iterations not possible with do-while. if ((loopCase == LOOPCASE_NO_ITERATIONS) && (loopType == LOOPTYPE_DO_WHILE)) continue; for (int shaderTypeNdx = 0; shaderTypeNdx < DE_LENGTH_OF_ARRAY(s_shaderTypes); shaderTypeNdx++) { ShaderType shaderType = s_shaderTypes[shaderTypeNdx]; const char* shaderTypeName = getShaderTypeName(shaderType); bool isVertexCase = (shaderType == SHADERTYPE_VERTEX); string name = string(loopCaseName) + "_" + shaderTypeName; string desc = string(loopCaseName) + " loop with " + loopTypeName + " iteration count in " + shaderTypeName + " shader."; group->addChild(createSpecialLoopCase(m_context, name.c_str(), desc.c_str(), isVertexCase, (LoopCase)loopCase, (LoopType)loopType, (LoopCountType)loopCountType)); } } } } // Additional smaller handwritten tests. const std::vector children = gls::ShaderLibrary(m_context.getTestContext(), m_context.getRenderContext(), m_context.getContextInfo()).loadShaderFile("shaders/loops.test"); for (int i = 0; i < (int)children.size(); i++) addChild(children[i]); } } // Functional } // gles2 } // deqp