Mercurial > projects > ldc
view gen/typinf.cpp @ 1168:ab186e535e72
A different fix to #218 and DMD2682 that does not lead to constant folding regressions.
Fixes run/const_15, run/c/const_16_B.
The price is removing the lvalueness of struct literals. If it turns out too
much code depends on this behavior or we don't want to break with DMD, we
could keep struct literals as lvalues and instead convert struct literals used
as expression initializers into struct initializers.
author | Christian Kamm <kamm incasoftware de> |
---|---|
date | Sun, 29 Mar 2009 11:43:45 +0200 |
parents | 19d4ded7204a |
children | 79758fd2f48a |
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// Copyright (c) 1999-2004 by Digital Mars // All Rights Reserved // written by Walter Bright // www.digitalmars.com // License for redistribution is by either the Artistic License // in artistic.txt, or the GNU General Public License in gnu.txt. // See the included readme.txt for details. // Modifications for LDC: // Copyright (c) 2007 by Tomas Lindquist Olsen // tomas at famolsen dk #include <cstdio> #include <cassert> #include "gen/llvm.h" #include "mars.h" #include "module.h" #include "mtype.h" #include "scope.h" #include "init.h" #include "expression.h" #include "attrib.h" #include "declaration.h" #include "template.h" #include "id.h" #include "enum.h" #include "import.h" #include "aggregate.h" #include "gen/irstate.h" #include "gen/logger.h" #include "gen/runtime.h" #include "gen/tollvm.h" #include "gen/llvmhelpers.h" #include "gen/arrays.h" #include "gen/structs.h" #include "gen/classes.h" #include "gen/linkage.h" #include "ir/irvar.h" /******************************************* * Get a canonicalized form of the TypeInfo for use with the internal * runtime library routines. Canonicalized in that static arrays are * represented as dynamic arrays, enums are represented by their * underlying type, etc. This reduces the number of TypeInfo's needed, * so we can use the custom internal ones more. */ Expression *Type::getInternalTypeInfo(Scope *sc) { TypeInfoDeclaration *tid; Expression *e; Type *t; static TypeInfoDeclaration *internalTI[TMAX]; //printf("Type::getInternalTypeInfo() %s\n", toChars()); t = toBasetype(); switch (t->ty) { case Tsarray: #if 0 // convert to corresponding dynamic array type t = t->nextOf()->mutableOf()->arrayOf(); #endif break; case Tclass: if (((TypeClass *)t)->sym->isInterfaceDeclaration()) break; goto Linternal; case Tarray: #if DMDV2 // convert to corresponding dynamic array type t = t->nextOf()->mutableOf()->arrayOf(); #endif if (t->nextOf()->ty != Tclass) break; goto Linternal; case Tfunction: case Tdelegate: case Tpointer: Linternal: tid = internalTI[t->ty]; if (!tid) { tid = new TypeInfoDeclaration(t, 1); internalTI[t->ty] = tid; } e = new VarExp(0, tid); e = e->addressOf(sc); e->type = tid->type; // do this so we don't get redundant dereference return e; default: break; } //printf("\tcalling getTypeInfo() %s\n", t->toChars()); return t->getTypeInfo(sc); } /**************************************************** * Get the exact TypeInfo. */ Expression *Type::getTypeInfo(Scope *sc) { Expression *e; Type *t; //printf("Type::getTypeInfo() %p, %s\n", this, toChars()); t = merge(); // do this since not all Type's are merge'd if (!t->vtinfo) { #if DMDV2 if (t->isConst()) t->vtinfo = new TypeInfoConstDeclaration(t); else if (t->isInvariant()) t->vtinfo = new TypeInfoInvariantDeclaration(t); else #endif t->vtinfo = t->getTypeInfoDeclaration(); assert(t->vtinfo); /* If this has a custom implementation in std/typeinfo, then * do not generate a COMDAT for it. */ if (!t->builtinTypeInfo()) { // Generate COMDAT if (sc) // if in semantic() pass { // Find module that will go all the way to an object file Module *m = sc->module->importedFrom; m->members->push(t->vtinfo); } else // if in obj generation pass { #if IN_DMD t->vtinfo->toObjFile(0); // TODO: multiobj #else t->vtinfo->codegen(sir); #endif } } } e = new VarExp(0, t->vtinfo); e = e->addressOf(sc); e->type = t->vtinfo->type; // do this so we don't get redundant dereference return e; } enum RET TypeFunction::retStyle() { return RETstack; } TypeInfoDeclaration *Type::getTypeInfoDeclaration() { //printf("Type::getTypeInfoDeclaration() %s\n", toChars()); return new TypeInfoDeclaration(this, 0); } TypeInfoDeclaration *TypeTypedef::getTypeInfoDeclaration() { return new TypeInfoTypedefDeclaration(this); } TypeInfoDeclaration *TypePointer::getTypeInfoDeclaration() { return new TypeInfoPointerDeclaration(this); } TypeInfoDeclaration *TypeDArray::getTypeInfoDeclaration() { return new TypeInfoArrayDeclaration(this); } TypeInfoDeclaration *TypeSArray::getTypeInfoDeclaration() { return new TypeInfoStaticArrayDeclaration(this); } TypeInfoDeclaration *TypeAArray::getTypeInfoDeclaration() { return new TypeInfoAssociativeArrayDeclaration(this); } TypeInfoDeclaration *TypeStruct::getTypeInfoDeclaration() { return new TypeInfoStructDeclaration(this); } TypeInfoDeclaration *TypeClass::getTypeInfoDeclaration() { if (sym->isInterfaceDeclaration()) return new TypeInfoInterfaceDeclaration(this); else return new TypeInfoClassDeclaration(this); } TypeInfoDeclaration *TypeEnum::getTypeInfoDeclaration() { return new TypeInfoEnumDeclaration(this); } TypeInfoDeclaration *TypeFunction::getTypeInfoDeclaration() { return new TypeInfoFunctionDeclaration(this); } TypeInfoDeclaration *TypeDelegate::getTypeInfoDeclaration() { return new TypeInfoDelegateDeclaration(this); } TypeInfoDeclaration *TypeTuple::getTypeInfoDeclaration() { return new TypeInfoTupleDeclaration(this); } /* ========================================================================= */ /* These decide if there's an instance for them already in std.typeinfo, * because then the compiler doesn't need to build one. */ int Type::builtinTypeInfo() { return 0; } int TypeBasic::builtinTypeInfo() { #if DMDV2 return !mod; #else return 1; #endif } int TypeDArray::builtinTypeInfo() { #if DMDV2 return !mod && next->isTypeBasic() != NULL && !next->mod; #else return next->isTypeBasic() != NULL; #endif } /* ========================================================================= */ /*************************************** * Create a static array of TypeInfo references * corresponding to an array of Expression's. * Used to supply hidden _arguments[] value for variadic D functions. */ Expression *createTypeInfoArray(Scope *sc, Expression *exps[], int dim) { assert(0); // done elsewhere in LDC return NULL; } /* ========================================================================= */ ////////////////////////////////////////////////////////////////////////////// // MAGIC PLACE ////////////////////////////////////////////////////////////////////////////// void DtoResolveTypeInfo(TypeInfoDeclaration* tid); void DtoDeclareTypeInfo(TypeInfoDeclaration* tid); void DtoConstInitTypeInfo(TypeInfoDeclaration* tid); void TypeInfoDeclaration::codegen(Ir*) { DtoResolveTypeInfo(this); } void DtoResolveTypeInfo(TypeInfoDeclaration* tid) { if (tid->ir.resolved) return; tid->ir.resolved = true; Logger::println("DtoResolveTypeInfo(%s)", tid->toChars()); LOG_SCOPE; IrGlobal* irg = new IrGlobal(tid); std::string mangle(tid->mangle()); irg->value = gIR->module->getGlobalVariable(mangle); if (!irg->value) irg->value = new llvm::GlobalVariable(irg->type.get(), true, TYPEINFO_LINKAGE_TYPE, NULL, mangle, gIR->module); tid->ir.irGlobal = irg; DtoDeclareTypeInfo(tid); } void DtoDeclareTypeInfo(TypeInfoDeclaration* tid) { DtoResolveTypeInfo(tid); if (tid->ir.declared) return; tid->ir.declared = true; Logger::println("DtoDeclareTypeInfo(%s)", tid->toChars()); LOG_SCOPE; IrGlobal* irg = tid->ir.irGlobal; std::string mangled(tid->mangle()); Logger::println("type = '%s'", tid->tinfo->toChars()); Logger::println("typeinfo mangle: %s", mangled.c_str()); assert(irg->value != NULL); // this is a declaration of a builtin __initZ var if (tid->tinfo->builtinTypeInfo()) { // fixup the global const llvm::Type* rty = Type::typeinfo->type->ir.type->get(); llvm::cast<llvm::OpaqueType>(irg->type.get())->refineAbstractTypeTo(rty); LLGlobalVariable* g = isaGlobalVar(irg->value); g->setLinkage(llvm::GlobalValue::ExternalLinkage); return; } // custom typedef DtoConstInitTypeInfo(tid); } void DtoConstInitTypeInfo(TypeInfoDeclaration* tid) { if (tid->ir.initialized) return; tid->ir.initialized = true; Logger::println("DtoConstInitTypeInfo(%s)", tid->toChars()); LOG_SCOPE; tid->llvmDefine(); } void DtoDefineTypeInfo(TypeInfoDeclaration* tid) { if (tid->ir.defined) return; tid->ir.defined = true; Logger::println("DtoDefineTypeInfo(%s)", tid->toChars()); LOG_SCOPE; tid->llvmDefine(); } /* ========================================================================= */ void TypeInfoDeclaration::llvmDefine() { assert(0 && "TypeInfoDeclaration::llvmDeclare"); } /* ========================================================================= */ void TypeInfoTypedefDeclaration::llvmDefine() { Logger::println("TypeInfoTypedefDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; ClassDeclaration* base = Type::typeinfotypedef; base->codegen(Type::sir); // vtbl std::vector<LLConstant*> sinits; sinits.push_back(base->ir.irStruct->vtbl); // monitor sinits.push_back(getNullPtr(getPtrToType(LLType::Int8Ty))); assert(tinfo->ty == Ttypedef); TypeTypedef *tc = (TypeTypedef *)tinfo; TypedefDeclaration *sd = tc->sym; // TypeInfo base sd->basetype = sd->basetype->merge(); // DMD does this! LLConstant* castbase = DtoTypeInfoOf(sd->basetype, true); sinits.push_back(castbase); // char[] name char *name = sd->toPrettyChars(); sinits.push_back(DtoConstString(name)); // void[] init const LLPointerType* initpt = getPtrToType(LLType::Int8Ty); if (tinfo->isZeroInit() || !sd->init) // 0 initializer, or the same as the base type { sinits.push_back(DtoConstSlice(DtoConstSize_t(0), getNullPtr(initpt))); } else { LLConstant* ci = DtoConstInitializer(sd->loc, sd->basetype, sd->init); std::string ciname(sd->mangle()); ciname.append("__init"); llvm::GlobalVariable* civar = new llvm::GlobalVariable(DtoType(sd->basetype),true,llvm::GlobalValue::InternalLinkage,ci,ciname,gIR->module); LLConstant* cicast = llvm::ConstantExpr::getBitCast(civar, initpt); size_t cisize = getTypeStoreSize(DtoType(sd->basetype)); sinits.push_back(DtoConstSlice(DtoConstSize_t(cisize), cicast)); } // create the inititalizer LLConstant* tiInit = llvm::ConstantStruct::get(sinits); // refine global type llvm::cast<llvm::OpaqueType>(ir.irGlobal->type.get())->refineAbstractTypeTo(tiInit->getType()); // set the initializer isaGlobalVar(ir.irGlobal->value)->setInitializer(tiInit); } /* ========================================================================= */ void TypeInfoEnumDeclaration::llvmDefine() { Logger::println("TypeInfoEnumDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; ClassDeclaration* base = Type::typeinfoenum; base->codegen(Type::sir); // vtbl std::vector<LLConstant*> sinits; sinits.push_back(base->ir.irStruct->vtbl); // monitor sinits.push_back(llvm::ConstantPointerNull::get(getPtrToType(LLType::Int8Ty))); assert(tinfo->ty == Tenum); TypeEnum *tc = (TypeEnum *)tinfo; EnumDeclaration *sd = tc->sym; // TypeInfo base LLConstant* castbase = DtoTypeInfoOf(sd->memtype, true); sinits.push_back(castbase); // char[] name char *name = sd->toPrettyChars(); sinits.push_back(DtoConstString(name)); // void[] init const LLPointerType* initpt = getPtrToType(LLType::Int8Ty); if (tinfo->isZeroInit() || !sd->defaultval) // 0 initializer, or the same as the base type { sinits.push_back(DtoConstSlice(DtoConstSize_t(0), llvm::ConstantPointerNull::get(initpt))); } else { #if DMDV2 assert(0 && "initializer not implemented"); #else const LLType* memty = DtoType(sd->memtype); LLConstant* ci = llvm::ConstantInt::get(memty, sd->defaultval, !sd->memtype->isunsigned()); std::string ciname(sd->mangle()); ciname.append("__init"); llvm::GlobalVariable* civar = new llvm::GlobalVariable(memty,true,llvm::GlobalValue::InternalLinkage,ci,ciname,gIR->module); LLConstant* cicast = llvm::ConstantExpr::getBitCast(civar, initpt); size_t cisize = getTypeStoreSize(memty); sinits.push_back(DtoConstSlice(DtoConstSize_t(cisize), cicast)); #endif } // create the inititalizer LLConstant* tiInit = llvm::ConstantStruct::get(sinits); // refine global type llvm::cast<llvm::OpaqueType>(ir.irGlobal->type.get())->refineAbstractTypeTo(tiInit->getType()); // set the initializer isaGlobalVar(ir.irGlobal->value)->setInitializer(tiInit); } /* ========================================================================= */ static void LLVM_D_Define_TypeInfoBase(Type* basetype, TypeInfoDeclaration* tid, ClassDeclaration* cd) { ClassDeclaration* base = cd; base->codegen(Type::sir); // vtbl std::vector<LLConstant*> sinits; sinits.push_back(base->ir.irStruct->vtbl); // monitor sinits.push_back(llvm::ConstantPointerNull::get(getPtrToType(LLType::Int8Ty))); // TypeInfo base LLConstant* castbase = DtoTypeInfoOf(basetype, true); sinits.push_back(castbase); // create the inititalizer LLConstant* tiInit = llvm::ConstantStruct::get(sinits); // refine global type llvm::cast<llvm::OpaqueType>(tid->ir.irGlobal->type.get())->refineAbstractTypeTo(tiInit->getType()); // set the initializer isaGlobalVar(tid->ir.irGlobal->value)->setInitializer(tiInit); } /* ========================================================================= */ void TypeInfoPointerDeclaration::llvmDefine() { Logger::println("TypeInfoPointerDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; assert(tinfo->ty == Tpointer); TypePointer *tc = (TypePointer *)tinfo; LLVM_D_Define_TypeInfoBase(tc->next, this, Type::typeinfopointer); } /* ========================================================================= */ void TypeInfoArrayDeclaration::llvmDefine() { Logger::println("TypeInfoArrayDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; assert(tinfo->ty == Tarray); TypeDArray *tc = (TypeDArray *)tinfo; LLVM_D_Define_TypeInfoBase(tc->next, this, Type::typeinfoarray); } /* ========================================================================= */ void TypeInfoStaticArrayDeclaration::llvmDefine() { Logger::println("TypeInfoStaticArrayDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; // init typeinfo class ClassDeclaration* base = Type::typeinfostaticarray; base->codegen(Type::sir); // get type of typeinfo class const LLStructType* stype = isaStruct(base->type->ir.type->get()); // initializer vector std::vector<LLConstant*> sinits; // first is always the vtable sinits.push_back(base->ir.irStruct->vtbl); // monitor sinits.push_back(llvm::ConstantPointerNull::get(getPtrToType(LLType::Int8Ty))); // value typeinfo assert(tinfo->ty == Tsarray); TypeSArray *tc = (TypeSArray *)tinfo; LLConstant* castbase = DtoTypeInfoOf(tc->next, true); assert(castbase->getType() == stype->getElementType(2)); sinits.push_back(castbase); // length sinits.push_back(DtoConstSize_t(tc->dim->toInteger())); // create the inititalizer LLConstant* tiInit = llvm::ConstantStruct::get(sinits); // refine global type llvm::cast<llvm::OpaqueType>(ir.irGlobal->type.get())->refineAbstractTypeTo(tiInit->getType()); // set the initializer isaGlobalVar(ir.irGlobal->value)->setInitializer(tiInit); } /* ========================================================================= */ void TypeInfoAssociativeArrayDeclaration::llvmDefine() { Logger::println("TypeInfoAssociativeArrayDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; // init typeinfo class ClassDeclaration* base = Type::typeinfoassociativearray; base->codegen(Type::sir); // initializer vector std::vector<LLConstant*> sinits; // first is always the vtable sinits.push_back(base->ir.irStruct->vtbl); // monitor sinits.push_back(llvm::ConstantPointerNull::get(getPtrToType(LLType::Int8Ty))); // get type assert(tinfo->ty == Taarray); TypeAArray *tc = (TypeAArray *)tinfo; // value typeinfo LLConstant* castbase = DtoTypeInfoOf(tc->next, true); sinits.push_back(castbase); // key typeinfo castbase = DtoTypeInfoOf(tc->index, true); sinits.push_back(castbase); // create the inititalizer LLConstant* tiInit = llvm::ConstantStruct::get(sinits); // refine global type llvm::cast<llvm::OpaqueType>(ir.irGlobal->type.get())->refineAbstractTypeTo(tiInit->getType()); // set the initializer isaGlobalVar(ir.irGlobal->value)->setInitializer(tiInit); } /* ========================================================================= */ void TypeInfoFunctionDeclaration::llvmDefine() { Logger::println("TypeInfoFunctionDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; assert(tinfo->ty == Tfunction); TypeFunction *tc = (TypeFunction *)tinfo; LLVM_D_Define_TypeInfoBase(tc->next, this, Type::typeinfofunction); } /* ========================================================================= */ void TypeInfoDelegateDeclaration::llvmDefine() { Logger::println("TypeInfoDelegateDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; assert(tinfo->ty == Tdelegate); TypeDelegate *tc = (TypeDelegate *)tinfo; LLVM_D_Define_TypeInfoBase(tc->nextOf()->nextOf(), this, Type::typeinfodelegate); } /* ========================================================================= */ void TypeInfoStructDeclaration::llvmDefine() { Logger::println("TypeInfoStructDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; assert(tinfo->ty == Tstruct); TypeStruct *tc = (TypeStruct *)tinfo; StructDeclaration *sd = tc->sym; sd->codegen(Type::sir); ClassDeclaration* base = Type::typeinfostruct; base->codegen(Type::sir); const LLStructType* stype = isaStruct(base->type->ir.type->get()); // vtbl std::vector<LLConstant*> sinits; sinits.push_back(base->ir.irStruct->vtbl); // monitor sinits.push_back(llvm::ConstantPointerNull::get(getPtrToType(LLType::Int8Ty))); // char[] name char *name = sd->toPrettyChars(); sinits.push_back(DtoConstString(name)); //Logger::println("************** A"); assert(sinits.back()->getType() == stype->getElementType(2)); // void[] init const LLPointerType* initpt = getPtrToType(LLType::Int8Ty); #if 0 // the implementation of TypeInfo_Struct uses this to determine size. :/ if (sd->zeroInit) // 0 initializer, or the same as the base type { sinits.push_back(DtoConstSlice(DtoConstSize_t(0), llvm::ConstantPointerNull::get(initpt))); } else #endif { size_t cisize = getTypeStoreSize(tc->ir.type->get()); LLConstant* cicast = llvm::ConstantExpr::getBitCast(sd->ir.irStruct->init, initpt); sinits.push_back(DtoConstSlice(DtoConstSize_t(cisize), cicast)); } // toX functions ground work FuncDeclaration *fd; FuncDeclaration *fdx; TypeFunction *tf; Type *ta; Dsymbol *s; static TypeFunction *tftohash; static TypeFunction *tftostring; if (!tftohash) { Scope sc; tftohash = new TypeFunction(NULL, Type::thash_t, 0, LINKd); tftohash = (TypeFunction *)tftohash->semantic(0, &sc); tftostring = new TypeFunction(NULL, Type::tchar->arrayOf(), 0, LINKd); tftostring = (TypeFunction *)tftostring->semantic(0, &sc); } TypeFunction *tfeqptr; { Scope sc; Arguments *arguments = new Arguments; Argument *arg = new Argument(STCin, tc->pointerTo(), NULL, NULL); arguments->push(arg); tfeqptr = new TypeFunction(arguments, Type::tint32, 0, LINKd); tfeqptr = (TypeFunction *)tfeqptr->semantic(0, &sc); } #if 0 TypeFunction *tfeq; { Scope sc; Array *arguments = new Array; Argument *arg = new Argument(In, tc, NULL, NULL); arguments->push(arg); tfeq = new TypeFunction(arguments, Type::tint32, 0, LINKd); tfeq = (TypeFunction *)tfeq->semantic(0, &sc); } #endif //Logger::println("************** B"); const LLPointerType* ptty = isaPointer(stype->getElementType(4)); assert(ptty); s = search_function(sd, Id::tohash); fdx = s ? s->isFuncDeclaration() : NULL; if (fdx) { fd = fdx->overloadExactMatch(tftohash); if (fd) { fd->codegen(Type::sir); assert(fd->ir.irFunc->func != 0); LLConstant* c = isaConstant(fd->ir.irFunc->func); assert(c); c = llvm::ConstantExpr::getBitCast(c, ptty); sinits.push_back(c); } else { //fdx->error("must be declared as extern (D) uint toHash()"); sinits.push_back(llvm::ConstantPointerNull::get(ptty)); } } else { sinits.push_back(llvm::ConstantPointerNull::get(ptty)); } s = search_function(sd, Id::eq); fdx = s ? s->isFuncDeclaration() : NULL; for (int i = 0; i < 2; i++) { //Logger::println("************** C %d", i); ptty = isaPointer(stype->getElementType(5+i)); if (fdx) { fd = fdx->overloadExactMatch(tfeqptr); if (fd) { fd->codegen(Type::sir); assert(fd->ir.irFunc->func != 0); LLConstant* c = isaConstant(fd->ir.irFunc->func); assert(c); c = llvm::ConstantExpr::getBitCast(c, ptty); sinits.push_back(c); } else { //fdx->error("must be declared as extern (D) int %s(%s*)", fdx->toChars(), sd->toChars()); sinits.push_back(llvm::ConstantPointerNull::get(ptty)); } } else { sinits.push_back(llvm::ConstantPointerNull::get(ptty)); } s = search_function(sd, Id::cmp); fdx = s ? s->isFuncDeclaration() : NULL; } //Logger::println("************** D"); ptty = isaPointer(stype->getElementType(7)); s = search_function(sd, Id::tostring); fdx = s ? s->isFuncDeclaration() : NULL; if (fdx) { fd = fdx->overloadExactMatch(tftostring); if (fd) { fd->codegen(Type::sir); assert(fd->ir.irFunc->func != 0); LLConstant* c = isaConstant(fd->ir.irFunc->func); assert(c); c = llvm::ConstantExpr::getBitCast(c, ptty); sinits.push_back(c); } else { //fdx->error("must be declared as extern (D) char[] toString()"); sinits.push_back(llvm::ConstantPointerNull::get(ptty)); } } else { sinits.push_back(llvm::ConstantPointerNull::get(ptty)); } // uint m_flags; sinits.push_back(DtoConstUint(tc->hasPointers())); #if DMDV2 // const(MemberInfo[]) function(in char[]) xgetMembers; sinits.push_back(LLConstant::getNullValue(stype->getElementType(sinits.size()))); //void function(void*) xdtor; sinits.push_back(LLConstant::getNullValue(stype->getElementType(sinits.size()))); //void function(void*) xpostblit; sinits.push_back(LLConstant::getNullValue(stype->getElementType(sinits.size()))); #endif // create the inititalizer LLConstant* tiInit = llvm::ConstantStruct::get(sinits); // refine global type llvm::cast<llvm::OpaqueType>(ir.irGlobal->type.get())->refineAbstractTypeTo(tiInit->getType()); // set the initializer isaGlobalVar(ir.irGlobal->value)->setInitializer(tiInit); } /* ========================================================================= */ void TypeInfoClassDeclaration::llvmDefine() { Logger::println("TypeInfoClassDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; // init typeinfo class ClassDeclaration* base = Type::typeinfoclass; assert(base); base->codegen(Type::sir); // initializer vector std::vector<LLConstant*> sinits; // first is always the vtable sinits.push_back(base->ir.irStruct->vtbl); // monitor sinits.push_back(llvm::ConstantPointerNull::get(getPtrToType(LLType::Int8Ty))); // get classinfo assert(tinfo->ty == Tclass); TypeClass *tc = (TypeClass *)tinfo; tc->sym->codegen(Type::sir);; assert(tc->sym->ir.irStruct->classInfo); sinits.push_back(tc->sym->ir.irStruct->classInfo); // create the inititalizer LLConstant* tiInit = llvm::ConstantStruct::get(sinits); // refine global type llvm::cast<llvm::OpaqueType>(ir.irGlobal->type.get())->refineAbstractTypeTo(tiInit->getType()); // set the initializer isaGlobalVar(ir.irGlobal->value)->setInitializer(tiInit); } /* ========================================================================= */ void TypeInfoInterfaceDeclaration::llvmDefine() { Logger::println("TypeInfoInterfaceDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; // init typeinfo class ClassDeclaration* base = Type::typeinfointerface; assert(base); base->codegen(Type::sir); // get type of typeinfo class const LLStructType* stype = isaStruct(base->type->ir.type->get()); // initializer vector std::vector<LLConstant*> sinits; // first is always the vtable sinits.push_back(base->ir.irStruct->vtbl); // monitor sinits.push_back(llvm::ConstantPointerNull::get(getPtrToType(LLType::Int8Ty))); // get classinfo assert(tinfo->ty == Tclass); TypeClass *tc = (TypeClass *)tinfo; assert(tc->sym->ir.irStruct->classInfo); sinits.push_back(tc->sym->ir.irStruct->classInfo); // create the inititalizer LLConstant* tiInit = llvm::ConstantStruct::get(sinits); // refine global type llvm::cast<llvm::OpaqueType>(ir.irGlobal->type.get())->refineAbstractTypeTo(tiInit->getType()); // set the initializer isaGlobalVar(ir.irGlobal->value)->setInitializer(tiInit); } /* ========================================================================= */ void TypeInfoTupleDeclaration::llvmDefine() { Logger::println("TypeInfoTupleDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; // init typeinfo class ClassDeclaration* base = Type::typeinfotypelist; assert(base); base->codegen(Type::sir); // get type of typeinfo class const LLStructType* stype = isaStruct(base->type->ir.type->get()); // initializer vector std::vector<LLConstant*> sinits; // first is always the vtable sinits.push_back(base->ir.irStruct->vtbl); // monitor sinits.push_back(llvm::ConstantPointerNull::get(getPtrToType(LLType::Int8Ty))); // create elements array assert(tinfo->ty == Ttuple); TypeTuple *tu = (TypeTuple *)tinfo; size_t dim = tu->arguments->dim; std::vector<LLConstant*> arrInits; const LLType* tiTy = Type::typeinfo->type->ir.type->get(); tiTy = getPtrToType(tiTy); for (size_t i = 0; i < dim; i++) { Argument *arg = (Argument *)tu->arguments->data[i]; LLConstant* castbase = DtoTypeInfoOf(arg->type, true); assert(castbase->getType() == tiTy); arrInits.push_back(castbase); } // build array type const LLArrayType* arrTy = LLArrayType::get(tiTy, dim); LLConstant* arrC = llvm::ConstantArray::get(arrTy, arrInits); // need the pointer to the first element of arrC, so create a global for it llvm::GlobalValue::LinkageTypes _linkage = llvm::GlobalValue::InternalLinkage; llvm::GlobalVariable* gvar = new llvm::GlobalVariable(arrTy,true,_linkage,arrC,".tupleelements",gIR->module); // get pointer to first element llvm::ConstantInt* zero = DtoConstSize_t(0); LLConstant* idxs[2] = { zero, zero }; LLConstant* arrptr = llvm::ConstantExpr::getGetElementPtr(gvar, idxs, 2); // build the slice LLConstant* slice = DtoConstSlice(DtoConstSize_t(dim), arrptr); sinits.push_back(slice); // create the inititalizer LLConstant* tiInit = llvm::ConstantStruct::get(sinits); // refine global type llvm::cast<llvm::OpaqueType>(ir.irGlobal->type.get())->refineAbstractTypeTo(tiInit->getType()); // set the initializer isaGlobalVar(ir.irGlobal->value)->setInitializer(tiInit); } /* ========================================================================= */ #if DMDV2 void TypeInfoConstDeclaration::llvmDefine() { Logger::println("TypeInfoConstDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; Type *tm = tinfo->mutableOf(); tm = tm->merge(); LLVM_D_Define_TypeInfoBase(tm, this, Type::typeinfoconst); } /* ========================================================================= */ void TypeInfoInvariantDeclaration::llvmDefine() { Logger::println("TypeInfoInvariantDeclaration::llvmDefine() %s", toChars()); LOG_SCOPE; Type *tm = tinfo->mutableOf(); tm = tm->merge(); LLVM_D_Define_TypeInfoBase(tm, this, Type::typeinfoinvariant); } #endif