// // Copyright 2002 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. // #include "compiler/translator/glsl/VersionGLSL.h" #include "angle_gl.h" #include "compiler/translator/Symbol.h" namespace sh { namespace { constexpr const ImmutableString kGlPointCoordString("gl_PointCoord"); } // anonymous namespace int ShaderOutputTypeToGLSLVersion(ShShaderOutput output) { switch (output) { case SH_GLSL_130_OUTPUT: return GLSL_VERSION_130; case SH_GLSL_140_OUTPUT: return GLSL_VERSION_140; case SH_GLSL_150_CORE_OUTPUT: return GLSL_VERSION_150; case SH_GLSL_330_CORE_OUTPUT: return GLSL_VERSION_330; case SH_GLSL_400_CORE_OUTPUT: return GLSL_VERSION_400; case SH_GLSL_410_CORE_OUTPUT: return GLSL_VERSION_410; case SH_GLSL_420_CORE_OUTPUT: return GLSL_VERSION_420; case SH_GLSL_430_CORE_OUTPUT: return GLSL_VERSION_430; case SH_GLSL_440_CORE_OUTPUT: return GLSL_VERSION_440; case SH_GLSL_450_CORE_OUTPUT: return GLSL_VERSION_450; case SH_GLSL_COMPATIBILITY_OUTPUT: return GLSL_VERSION_110; default: UNREACHABLE(); return 0; } } // We need to scan for the following: // 1. "invariant" keyword: This can occur in both - vertex and fragment shaders // but only at the global scope. // 2. "gl_PointCoord" built-in variable: This can only occur in fragment shader // but inside any scope. // 3. Call to a matrix constructor with another matrix as argument. // (These constructors were reserved in GLSL version 1.10.) // 4. Arrays as "out" function parameters. // GLSL spec section 6.1.1: "When calling a function, expressions that do // not evaluate to l-values cannot be passed to parameters declared as // out or inout." // GLSL 1.1 section 5.8: "Other binary or unary expressions, // non-dereferenced arrays, function names, swizzles with repeated fields, // and constants cannot be l-values." // GLSL 1.2 relaxed the restriction on arrays, section 5.8: "Variables that // are built-in types, entire structures or arrays... are all l-values." // TVersionGLSL::TVersionGLSL(sh::GLenum type, const TPragma &pragma, ShShaderOutput output) : TIntermTraverser(true, false, false) { mVersion = ShaderOutputTypeToGLSLVersion(output); if (pragma.stdgl.invariantAll) { ensureVersionIsAtLeast(GLSL_VERSION_120); } if (type == GL_COMPUTE_SHADER) { ensureVersionIsAtLeast(GLSL_VERSION_430); } } void TVersionGLSL::visitSymbol(TIntermSymbol *node) { if (node->variable().symbolType() == SymbolType::BuiltIn && node->getName() == kGlPointCoordString) { ensureVersionIsAtLeast(GLSL_VERSION_120); } } bool TVersionGLSL::visitDeclaration(Visit, TIntermDeclaration *node) { const TIntermSequence &sequence = *(node->getSequence()); if (sequence.front()->getAsTyped()->getType().isInvariant()) { ensureVersionIsAtLeast(GLSL_VERSION_120); } return true; } bool TVersionGLSL::visitGlobalQualifierDeclaration(Visit, TIntermGlobalQualifierDeclaration *node) { if (node->isPrecise()) { ensureVersionIsAtLeast(GLSL_VERSION_420); } else { ensureVersionIsAtLeast(GLSL_VERSION_120); } return true; } void TVersionGLSL::visitFunctionPrototype(TIntermFunctionPrototype *node) { size_t paramCount = node->getFunction()->getParamCount(); for (size_t i = 0; i < paramCount; ++i) { const TVariable *param = node->getFunction()->getParam(i); const TType &type = param->getType(); if (type.isArray()) { TQualifier qualifier = type.getQualifier(); if ((qualifier == EvqParamOut) || (qualifier == EvqParamInOut)) { ensureVersionIsAtLeast(GLSL_VERSION_120); break; } } } } bool TVersionGLSL::visitAggregate(Visit, TIntermAggregate *node) { if (node->getOp() == EOpConstruct && node->getType().isMatrix()) { const TIntermSequence &sequence = *(node->getSequence()); if (sequence.size() == 1) { TIntermTyped *typed = sequence.front()->getAsTyped(); if (typed && typed->isMatrix()) { ensureVersionIsAtLeast(GLSL_VERSION_120); } } } return true; } void TVersionGLSL::ensureVersionIsAtLeast(int version) { mVersion = std::max(version, mVersion); } } // namespace sh