// // Copyright (C) 2002-2005 3Dlabs Inc. Ltd. // Copyright (C) 2012-2013 LunarG, Inc. // Copyright (C) 2017 ARM Limited. // Copyright (C) 2015-2018 Google, Inc. // Modifications Copyright (C) 2020 Advanced Micro Devices, Inc. All rights reserved. // // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // // Neither the name of 3Dlabs Inc. Ltd. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS // FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE // COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, // INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, // BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; // LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT // LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN // ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE // POSSIBILITY OF SUCH DAMAGE. // // // Symbol table for parsing. Most functionality and main ideas // are documented in the header file. // #include "SymbolTable.h" namespace glslang { // // TType helper function needs a place to live. // // // Recursively generate mangled names. // void TType::buildMangledName(TString& mangledName) const { if (isMatrix()) mangledName += 'm'; else if (isVector()) mangledName += 'v'; switch (basicType) { case EbtFloat: mangledName += 'f'; break; case EbtInt: mangledName += 'i'; break; case EbtUint: mangledName += 'u'; break; case EbtBool: mangledName += 'b'; break; #ifndef GLSLANG_WEB case EbtDouble: mangledName += 'd'; break; case EbtFloat16: mangledName += "f16"; break; case EbtInt8: mangledName += "i8"; break; case EbtUint8: mangledName += "u8"; break; case EbtInt16: mangledName += "i16"; break; case EbtUint16: mangledName += "u16"; break; case EbtInt64: mangledName += "i64"; break; case EbtUint64: mangledName += "u64"; break; case EbtAtomicUint: mangledName += "au"; break; case EbtAccStruct: mangledName += "as"; break; case EbtRayQuery: mangledName += "rq"; break; case EbtSpirvType: mangledName += "spv-t"; break; case EbtHitObjectNV: mangledName += "ho"; break; #endif case EbtSampler: switch (sampler.type) { #ifndef GLSLANG_WEB case EbtFloat16: mangledName += "f16"; break; #endif case EbtInt: mangledName += "i"; break; case EbtUint: mangledName += "u"; break; case EbtInt64: mangledName += "i64"; break; case EbtUint64: mangledName += "u64"; break; default: break; // some compilers want this } if (sampler.isImageClass()) mangledName += "I"; // a normal image or subpass else if (sampler.isPureSampler()) mangledName += "p"; // a "pure" sampler else if (!sampler.isCombined()) mangledName += "t"; // a "pure" texture else mangledName += "s"; // traditional combined sampler if (sampler.isArrayed()) mangledName += "A"; if (sampler.isShadow()) mangledName += "S"; if (sampler.isExternal()) mangledName += "E"; if (sampler.isYuv()) mangledName += "Y"; switch (sampler.dim) { case Esd2D: mangledName += "2"; break; case Esd3D: mangledName += "3"; break; case EsdCube: mangledName += "C"; break; #ifndef GLSLANG_WEB case Esd1D: mangledName += "1"; break; case EsdRect: mangledName += "R2"; break; case EsdBuffer: mangledName += "B"; break; case EsdSubpass: mangledName += "P"; break; #endif default: break; // some compilers want this } #ifdef ENABLE_HLSL if (sampler.hasReturnStruct()) { // Name mangle for sampler return struct uses struct table index. mangledName += "-tx-struct"; char text[16]; // plenty enough space for the small integers. snprintf(text, sizeof(text), "%u-", sampler.getStructReturnIndex()); mangledName += text; } else { switch (sampler.getVectorSize()) { case 1: mangledName += "1"; break; case 2: mangledName += "2"; break; case 3: mangledName += "3"; break; case 4: break; // default to prior name mangle behavior } } #endif if (sampler.isMultiSample()) mangledName += "M"; break; case EbtStruct: case EbtBlock: if (basicType == EbtStruct) mangledName += "struct-"; else mangledName += "block-"; if (typeName) mangledName += *typeName; for (unsigned int i = 0; i < structure->size(); ++i) { if ((*structure)[i].type->getBasicType() == EbtVoid) continue; mangledName += '-'; (*structure)[i].type->buildMangledName(mangledName); } default: break; } if (getVectorSize() > 0) mangledName += static_cast('0' + getVectorSize()); else { mangledName += static_cast('0' + getMatrixCols()); mangledName += static_cast('0' + getMatrixRows()); } if (arraySizes) { const int maxSize = 11; char buf[maxSize]; for (int i = 0; i < arraySizes->getNumDims(); ++i) { if (arraySizes->getDimNode(i)) { if (arraySizes->getDimNode(i)->getAsSymbolNode()) snprintf(buf, maxSize, "s%lld", arraySizes->getDimNode(i)->getAsSymbolNode()->getId()); else snprintf(buf, maxSize, "s%p", arraySizes->getDimNode(i)); } else snprintf(buf, maxSize, "%d", arraySizes->getDimSize(i)); mangledName += '['; mangledName += buf; mangledName += ']'; } } } #if !defined(GLSLANG_WEB) // // Dump functions. // void TSymbol::dumpExtensions(TInfoSink& infoSink) const { int numExtensions = getNumExtensions(); if (numExtensions) { infoSink.debug << " <"; for (int i = 0; i < numExtensions; i++) infoSink.debug << getExtensions()[i] << ","; infoSink.debug << ">"; } } void TVariable::dump(TInfoSink& infoSink, bool complete) const { if (complete) { infoSink.debug << getName().c_str() << ": " << type.getCompleteString(); dumpExtensions(infoSink); } else { infoSink.debug << getName().c_str() << ": " << type.getStorageQualifierString() << " " << type.getBasicTypeString(); if (type.isArray()) infoSink.debug << "[0]"; } infoSink.debug << "\n"; } void TFunction::dump(TInfoSink& infoSink, bool complete) const { if (complete) { infoSink.debug << getName().c_str() << ": " << returnType.getCompleteString() << " " << getName().c_str() << "("; int numParams = getParamCount(); for (int i = 0; i < numParams; i++) { const TParameter ¶m = parameters[i]; infoSink.debug << param.type->getCompleteString() << " " << (param.type->isStruct() ? "of " + param.type->getTypeName() + " " : "") << (param.name ? *param.name : "") << (i < numParams - 1 ? "," : ""); } infoSink.debug << ")"; dumpExtensions(infoSink); } else { infoSink.debug << getName().c_str() << ": " << returnType.getBasicTypeString() << " " << getMangledName().c_str() << "n"; } infoSink.debug << "\n"; } void TAnonMember::dump(TInfoSink& TInfoSink, bool) const { TInfoSink.debug << "anonymous member " << getMemberNumber() << " of " << getAnonContainer().getName().c_str() << "\n"; } void TSymbolTableLevel::dump(TInfoSink& infoSink, bool complete) const { tLevel::const_iterator it; for (it = level.begin(); it != level.end(); ++it) (*it).second->dump(infoSink, complete); } void TSymbolTable::dump(TInfoSink& infoSink, bool complete) const { for (int level = currentLevel(); level >= 0; --level) { infoSink.debug << "LEVEL " << level << "\n"; table[level]->dump(infoSink, complete); } } #endif // // Functions have buried pointers to delete. // TFunction::~TFunction() { for (TParamList::iterator i = parameters.begin(); i != parameters.end(); ++i) delete (*i).type; } // // Symbol table levels are a map of pointers to symbols that have to be deleted. // TSymbolTableLevel::~TSymbolTableLevel() { for (tLevel::iterator it = level.begin(); it != level.end(); ++it) { const TString& name = it->first; auto retargetIter = std::find_if(retargetedSymbols.begin(), retargetedSymbols.end(), [&name](const std::pair& i) { return i.first == name; }); if (retargetIter == retargetedSymbols.end()) delete (*it).second; } delete [] defaultPrecision; } // // Change all function entries in the table with the non-mangled name // to be related to the provided built-in operation. // void TSymbolTableLevel::relateToOperator(const char* name, TOperator op) { tLevel::const_iterator candidate = level.lower_bound(name); while (candidate != level.end()) { const TString& candidateName = (*candidate).first; TString::size_type parenAt = candidateName.find_first_of('('); if (parenAt != candidateName.npos && candidateName.compare(0, parenAt, name) == 0) { TFunction* function = (*candidate).second->getAsFunction(); function->relateToOperator(op); } else break; ++candidate; } } // Make all function overloads of the given name require an extension(s). // Should only be used for a version/profile that actually needs the extension(s). void TSymbolTableLevel::setFunctionExtensions(const char* name, int num, const char* const extensions[]) { tLevel::const_iterator candidate = level.lower_bound(name); while (candidate != level.end()) { const TString& candidateName = (*candidate).first; TString::size_type parenAt = candidateName.find_first_of('('); if (parenAt != candidateName.npos && candidateName.compare(0, parenAt, name) == 0) { TSymbol* symbol = candidate->second; symbol->setExtensions(num, extensions); } else break; ++candidate; } } // // Make all symbols in this table level read only. // void TSymbolTableLevel::readOnly() { for (tLevel::iterator it = level.begin(); it != level.end(); ++it) (*it).second->makeReadOnly(); } // // Copy a symbol, but the copy is writable; call readOnly() afterward if that's not desired. // TSymbol::TSymbol(const TSymbol& copyOf) { name = NewPoolTString(copyOf.name->c_str()); uniqueId = copyOf.uniqueId; writable = true; } TVariable::TVariable(const TVariable& copyOf) : TSymbol(copyOf) { type.deepCopy(copyOf.type); userType = copyOf.userType; // we don't support specialization-constant subtrees in cloned tables, only extensions constSubtree = nullptr; extensions = nullptr; memberExtensions = nullptr; if (copyOf.getNumExtensions() > 0) setExtensions(copyOf.getNumExtensions(), copyOf.getExtensions()); if (copyOf.hasMemberExtensions()) { for (int m = 0; m < (int)copyOf.type.getStruct()->size(); ++m) { if (copyOf.getNumMemberExtensions(m) > 0) setMemberExtensions(m, copyOf.getNumMemberExtensions(m), copyOf.getMemberExtensions(m)); } } if (! copyOf.constArray.empty()) { assert(! copyOf.type.isStruct()); TConstUnionArray newArray(copyOf.constArray, 0, copyOf.constArray.size()); constArray = newArray; } } TVariable* TVariable::clone() const { TVariable *variable = new TVariable(*this); return variable; } TFunction::TFunction(const TFunction& copyOf) : TSymbol(copyOf) { for (unsigned int i = 0; i < copyOf.parameters.size(); ++i) { TParameter param{}; parameters.push_back(param); (void)parameters.back().copyParam(copyOf.parameters[i]); } extensions = nullptr; if (copyOf.getNumExtensions() > 0) setExtensions(copyOf.getNumExtensions(), copyOf.getExtensions()); returnType.deepCopy(copyOf.returnType); mangledName = copyOf.mangledName; op = copyOf.op; defined = copyOf.defined; prototyped = copyOf.prototyped; implicitThis = copyOf.implicitThis; illegalImplicitThis = copyOf.illegalImplicitThis; defaultParamCount = copyOf.defaultParamCount; #ifndef GLSLANG_WEB spirvInst = copyOf.spirvInst; #endif } TFunction* TFunction::clone() const { TFunction *function = new TFunction(*this); return function; } TAnonMember* TAnonMember::clone() const { // Anonymous members of a given block should be cloned at a higher level, // where they can all be assured to still end up pointing to a single // copy of the original container. assert(0); return nullptr; } TSymbolTableLevel* TSymbolTableLevel::clone() const { TSymbolTableLevel *symTableLevel = new TSymbolTableLevel(); symTableLevel->anonId = anonId; symTableLevel->thisLevel = thisLevel; symTableLevel->retargetedSymbols.clear(); for (auto &s : retargetedSymbols) { symTableLevel->retargetedSymbols.push_back({s.first, s.second}); } std::vector containerCopied(anonId, false); tLevel::const_iterator iter; for (iter = level.begin(); iter != level.end(); ++iter) { const TAnonMember* anon = iter->second->getAsAnonMember(); if (anon) { // Insert all the anonymous members of this same container at once, // avoid inserting the remaining members in the future, once this has been done, // allowing them to all be part of the same new container. if (! containerCopied[anon->getAnonId()]) { TVariable* container = anon->getAnonContainer().clone(); container->changeName(NewPoolTString("")); // insert the container and all its members symTableLevel->insert(*container, false); containerCopied[anon->getAnonId()] = true; } } else { const TString& name = iter->first; auto retargetIter = std::find_if(retargetedSymbols.begin(), retargetedSymbols.end(), [&name](const std::pair& i) { return i.first == name; }); if (retargetIter != retargetedSymbols.end()) continue; symTableLevel->insert(*iter->second->clone(), false); } } // Now point retargeted symbols to the newly created versions of them for (auto &s : retargetedSymbols) { TSymbol* sym = symTableLevel->find(s.second); if (!sym) continue; symTableLevel->insert(s.first, sym); } return symTableLevel; } void TSymbolTable::copyTable(const TSymbolTable& copyOf) { assert(adoptedLevels == copyOf.adoptedLevels); uniqueId = copyOf.uniqueId; noBuiltInRedeclarations = copyOf.noBuiltInRedeclarations; separateNameSpaces = copyOf.separateNameSpaces; for (unsigned int i = copyOf.adoptedLevels; i < copyOf.table.size(); ++i) table.push_back(copyOf.table[i]->clone()); } } // end namespace glslang