Mercurial > projects > ldc
view gen/arrays.cpp @ 86:fd32135dca3e trunk
[svn r90] Major updates to the gen directory. Redesigned the 'elem' struct. Much more... !!!
Lots of bugfixes.
Added support for special foreach on strings.
Added std.array, std.utf, std.ctype and std.uni to phobos.
Changed all the .c files in the gen dir to .cpp (it *is* C++ after all)
| author | lindquist |
|---|---|
| date | Sat, 03 Nov 2007 14:44:58 +0100 |
| parents | gen/arrays.c@3587401b6eeb |
| children | 058d3925950e |
line wrap: on
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#include "gen/llvm.h" #include "mtype.h" #include "dsymbol.h" #include "aggregate.h" #include "declaration.h" #include "init.h" #include "gen/irstate.h" #include "gen/tollvm.h" #include "gen/arrays.h" #include "gen/runtime.h" #include "gen/logger.h" #include "gen/dvalue.h" ////////////////////////////////////////////////////////////////////////////////////////// const llvm::StructType* DtoArrayType(Type* t) { assert(t->next); const llvm::Type* at = DtoType(t->next); const llvm::Type* arrty; /*if (t->ty == Tsarray) { TypeSArray* tsa = (TypeSArray*)t; assert(tsa->dim->type->isintegral()); arrty = llvm::ArrayType::get(at,tsa->dim->toUInteger()); } else { arrty = llvm::ArrayType::get(at,0); }*/ if (at == llvm::Type::VoidTy) { at = llvm::Type::Int8Ty; } arrty = llvm::PointerType::get(at); std::vector<const llvm::Type*> members; if (global.params.is64bit) members.push_back(llvm::Type::Int64Ty); else members.push_back(llvm::Type::Int32Ty); members.push_back(arrty); return llvm::StructType::get(members); } ////////////////////////////////////////////////////////////////////////////////////////// const llvm::ArrayType* DtoStaticArrayType(Type* t) { if (t->llvmType) return llvm::cast<llvm::ArrayType>(t->llvmType); assert(t->ty == Tsarray); assert(t->next); const llvm::Type* at = DtoType(t->next); TypeSArray* tsa = (TypeSArray*)t; assert(tsa->dim->type->isintegral()); const llvm::ArrayType* arrty = llvm::ArrayType::get(at,tsa->dim->toUInteger()); tsa->llvmType = arrty; return arrty; } ////////////////////////////////////////////////////////////////////////////////////////// void DtoNullArray(llvm::Value* v) { assert(gIR); llvm::Value* len = DtoGEPi(v,0,0,"tmp",gIR->scopebb()); llvm::Value* zerolen = llvm::ConstantInt::get(len->getType()->getContainedType(0), 0, false); new llvm::StoreInst(zerolen, len, gIR->scopebb()); llvm::Value* ptr = DtoGEPi(v,0,1,"tmp",gIR->scopebb()); const llvm::PointerType* pty = llvm::cast<llvm::PointerType>(ptr->getType()->getContainedType(0)); llvm::Value* nullptr = llvm::ConstantPointerNull::get(pty); new llvm::StoreInst(nullptr, ptr, gIR->scopebb()); } ////////////////////////////////////////////////////////////////////////////////////////// void DtoArrayAssign(llvm::Value* dst, llvm::Value* src) { assert(gIR); if (dst->getType() == src->getType()) { llvm::Value* ptr = DtoGEPi(src,0,0,"tmp",gIR->scopebb()); llvm::Value* val = new llvm::LoadInst(ptr,"tmp",gIR->scopebb()); ptr = DtoGEPi(dst,0,0,"tmp",gIR->scopebb()); new llvm::StoreInst(val, ptr, gIR->scopebb()); ptr = DtoGEPi(src,0,1,"tmp",gIR->scopebb()); val = new llvm::LoadInst(ptr,"tmp",gIR->scopebb()); ptr = DtoGEPi(dst,0,1,"tmp",gIR->scopebb()); new llvm::StoreInst(val, ptr, gIR->scopebb()); } else { Logger::cout() << "array assignment type dont match: " << *dst->getType() << '\n' << *src->getType() << '\n'; if (!llvm::isa<llvm::ArrayType>(src->getType()->getContainedType(0))) { Logger::cout() << "invalid: " << *src << '\n'; assert(0); } const llvm::ArrayType* arrty = llvm::cast<llvm::ArrayType>(src->getType()->getContainedType(0)); llvm::Type* dstty = llvm::PointerType::get(arrty->getElementType()); llvm::Value* dstlen = DtoGEPi(dst,0,0,"tmp",gIR->scopebb()); llvm::Value* srclen = DtoConstSize_t(arrty->getNumElements()); new llvm::StoreInst(srclen, dstlen, gIR->scopebb()); llvm::Value* dstptr = DtoGEPi(dst,0,1,"tmp",gIR->scopebb()); llvm::Value* srcptr = new llvm::BitCastInst(src,dstty,"tmp",gIR->scopebb()); new llvm::StoreInst(srcptr, dstptr, gIR->scopebb()); } } ////////////////////////////////////////////////////////////////////////////////////////// void DtoArrayInit(llvm::Value* l, llvm::Value* r) { const llvm::PointerType* ptrty = llvm::cast<llvm::PointerType>(l->getType()); const llvm::Type* t = ptrty->getContainedType(0); const llvm::ArrayType* arrty = llvm::dyn_cast<llvm::ArrayType>(t); if (arrty) { llvm::Value* ptr = DtoGEPi(l,0,0,"tmp",gIR->scopebb()); llvm::Value* dim = llvm::ConstantInt::get(DtoSize_t(), arrty->getNumElements(), false); DtoArrayInit(ptr, dim, r); } else if (llvm::isa<llvm::StructType>(t)) { llvm::Value* dim = DtoLoad(DtoGEPi(l, 0,0, "tmp")); llvm::Value* ptr = DtoLoad(DtoGEPi(l, 0,1, "tmp")); DtoArrayInit(ptr, dim, r); } else assert(0); } ////////////////////////////////////////////////////////////////////////////////////////// typedef const llvm::Type* constLLVMTypeP; static size_t checkRectArrayInit(const llvm::Type* pt, constLLVMTypeP& finalty) { if (llvm::isa<llvm::ArrayType>(pt)) { size_t n = checkRectArrayInit(pt->getContainedType(0), finalty); size_t ne = llvm::cast<llvm::ArrayType>(pt)->getNumElements(); if (n) return n * ne; return ne; } finalty = pt; return 0; } void DtoArrayInit(llvm::Value* ptr, llvm::Value* dim, llvm::Value* val) { Logger::println("HELLO"); Logger::cout() << "array: " << *ptr << " dim: " << *dim << " val: " << *val << '\n'; const llvm::Type* pt = ptr->getType()->getContainedType(0); const llvm::Type* t = val->getType(); const llvm::Type* finalTy; if (size_t arrsz = checkRectArrayInit(pt, finalTy)) { assert(finalTy == t); llvm::Constant* c = llvm::cast_or_null<llvm::Constant>(dim); assert(c); dim = llvm::ConstantExpr::getMul(c, DtoConstSize_t(arrsz)); ptr = gIR->ir->CreateBitCast(ptr, llvm::PointerType::get(finalTy), "tmp"); } else if (llvm::isa<llvm::StructType>(t)) { assert(0); } else { assert(t == pt); } std::vector<llvm::Value*> args; args.push_back(ptr); args.push_back(dim); args.push_back(val); const char* funcname = NULL; if (llvm::isa<llvm::PointerType>(t)) { funcname = "_d_array_init_pointer"; const llvm::Type* dstty = llvm::PointerType::get(llvm::PointerType::get(llvm::Type::Int8Ty)); if (args[0]->getType() != dstty) args[0] = new llvm::BitCastInst(args[0],dstty,"tmp",gIR->scopebb()); const llvm::Type* valty = llvm::PointerType::get(llvm::Type::Int8Ty); if (args[2]->getType() != valty) args[2] = new llvm::BitCastInst(args[2],valty,"tmp",gIR->scopebb()); } else if (t == llvm::Type::Int1Ty) { funcname = "_d_array_init_i1"; } else if (t == llvm::Type::Int8Ty) { funcname = "_d_array_init_i8"; } else if (t == llvm::Type::Int16Ty) { funcname = "_d_array_init_i16"; } else if (t == llvm::Type::Int32Ty) { funcname = "_d_array_init_i32"; } else if (t == llvm::Type::Int64Ty) { funcname = "_d_array_init_i64"; } else if (t == llvm::Type::FloatTy) { funcname = "_d_array_init_float"; } else if (t == llvm::Type::DoubleTy) { funcname = "_d_array_init_double"; } else { Logger::cout() << *ptr->getType() << " = " << *val->getType() << '\n'; assert(0); } llvm::Function* fn = LLVM_D_GetRuntimeFunction(gIR->module, funcname); assert(fn); Logger::cout() << "calling array init function: " << *fn <<'\n'; llvm::CallInst* call = new llvm::CallInst(fn, args.begin(), args.end(), "", gIR->scopebb()); call->setCallingConv(llvm::CallingConv::C); } ////////////////////////////////////////////////////////////////////////////////////////// void DtoSetArray(llvm::Value* arr, llvm::Value* dim, llvm::Value* ptr) { Logger::cout() << "DtoSetArray(" << *arr << ", " << *dim << ", " << *ptr << ")\n"; const llvm::StructType* st = llvm::cast<llvm::StructType>(arr->getType()->getContainedType(0)); //const llvm::PointerType* pt = llvm::cast<llvm::PointerType>(r->getType()); llvm::Value* zero = llvm::ConstantInt::get(llvm::Type::Int32Ty, 0, false); llvm::Value* one = llvm::ConstantInt::get(llvm::Type::Int32Ty, 1, false); llvm::Value* arrdim = DtoGEP(arr,zero,zero,"tmp",gIR->scopebb()); new llvm::StoreInst(dim, arrdim, gIR->scopebb()); llvm::Value* arrptr = DtoGEP(arr,zero,one,"tmp",gIR->scopebb()); new llvm::StoreInst(ptr, arrptr, gIR->scopebb()); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Constant* DtoConstArrayInitializer(ArrayInitializer* arrinit) { Logger::println("arr init begin"); Type* arrinittype = DtoDType(arrinit->type); Type* t; integer_t tdim; if (arrinittype->ty == Tsarray) { TypeSArray* tsa = (TypeSArray*)arrinittype; tdim = tsa->dim->toInteger(); t = tsa; } else if (arrinittype->ty == Tarray) { t = arrinittype; tdim = arrinit->dim; } else assert(0); std::vector<llvm::Constant*> inits(tdim, 0); const llvm::Type* elemty = DtoType(arrinittype->next); assert(arrinit->index.dim == arrinit->value.dim); for (int i=0,j=0; i < tdim; ++i) { Initializer* init = 0; Expression* idx = (Expression*)arrinit->index.data[j]; if (idx) { integer_t k = idx->toInteger(); if (i == k) { init = (Initializer*)arrinit->value.data[j]; assert(init); ++j; } } else { init = (Initializer*)arrinit->value.data[j]; ++j; } llvm::Constant* v = 0; if (!init) { v = t->next->defaultInit()->toConstElem(gIR); } else if (ExpInitializer* ex = init->isExpInitializer()) { v = ex->exp->toConstElem(gIR); } else if (StructInitializer* si = init->isStructInitializer()) { v = DtoConstStructInitializer(si); } else if (ArrayInitializer* ai = init->isArrayInitializer()) { v = DtoConstArrayInitializer(ai); } else if (init->isVoidInitializer()) { v = llvm::UndefValue::get(elemty); } else assert(v); inits[i] = v; } const llvm::ArrayType* arrty = llvm::ArrayType::get(elemty,tdim); llvm::Constant* constarr = llvm::ConstantArray::get(arrty, inits); if (arrinittype->ty == Tsarray) return constarr; else assert(arrinittype->ty == Tarray); llvm::GlobalVariable* gvar = new llvm::GlobalVariable(arrty,true,llvm::GlobalValue::InternalLinkage,constarr,"constarray",gIR->module); llvm::Constant* idxs[2] = { DtoConstUint(0), DtoConstUint(0) }; llvm::Constant* gep = llvm::ConstantExpr::getGetElementPtr(gvar,idxs,2); return DtoConstSlice(DtoConstSize_t(tdim),gep); } ////////////////////////////////////////////////////////////////////////////////////////// static llvm::Value* get_slice_ptr(DSliceValue* e, llvm::Value*& sz) { const llvm::Type* t = e->ptr->getType()->getContainedType(0); llvm::Value* ret = 0; if (e->len != 0) { // this means it's a real slice ret = e->ptr; size_t elembsz = gTargetData->getTypeSize(ret->getType()); llvm::ConstantInt* elemsz = llvm::ConstantInt::get(DtoSize_t(), elembsz, false); if (llvm::isa<llvm::ConstantInt>(e->len)) { sz = llvm::ConstantExpr::getMul(elemsz, llvm::cast<llvm::Constant>(e->len)); } else { sz = llvm::BinaryOperator::createMul(elemsz,e->len,"tmp",gIR->scopebb()); } } else if (llvm::isa<llvm::ArrayType>(t)) { ret = DtoGEPi(e->ptr, 0, 0, "tmp", gIR->scopebb()); size_t elembsz = gTargetData->getTypeSize(ret->getType()->getContainedType(0)); llvm::ConstantInt* elemsz = llvm::ConstantInt::get(DtoSize_t(), elembsz, false); size_t numelements = llvm::cast<llvm::ArrayType>(t)->getNumElements(); llvm::ConstantInt* nelems = llvm::ConstantInt::get(DtoSize_t(), numelements, false); sz = llvm::ConstantExpr::getMul(elemsz, nelems); } else if (llvm::isa<llvm::StructType>(t)) { ret = DtoGEPi(e->ptr, 0, 1, "tmp", gIR->scopebb()); ret = new llvm::LoadInst(ret, "tmp", gIR->scopebb()); size_t elembsz = gTargetData->getTypeSize(ret->getType()->getContainedType(0)); llvm::ConstantInt* elemsz = llvm::ConstantInt::get(DtoSize_t(), elembsz, false); llvm::Value* len = DtoGEPi(e->ptr, 0, 0, "tmp", gIR->scopebb()); len = new llvm::LoadInst(len, "tmp", gIR->scopebb()); sz = llvm::BinaryOperator::createMul(len,elemsz,"tmp",gIR->scopebb()); } else { assert(0); } return ret; } void DtoArrayCopy(DSliceValue* dst, DSliceValue* src) { llvm::Type* arrty = llvm::PointerType::get(llvm::Type::Int8Ty); llvm::Value* sz1; llvm::Value* dstarr = new llvm::BitCastInst(get_slice_ptr(dst,sz1),arrty,"tmp",gIR->scopebb()); llvm::Value* sz2; llvm::Value* srcarr = new llvm::BitCastInst(get_slice_ptr(src,sz2),arrty,"tmp",gIR->scopebb()); llvm::Function* fn = (global.params.is64bit) ? LLVM_DeclareMemCpy64() : LLVM_DeclareMemCpy32(); std::vector<llvm::Value*> llargs; llargs.resize(4); llargs[0] = dstarr; llargs[1] = srcarr; llargs[2] = sz1; llargs[3] = llvm::ConstantInt::get(llvm::Type::Int32Ty, 0, false); new llvm::CallInst(fn, llargs.begin(), llargs.end(), "", gIR->scopebb()); } ////////////////////////////////////////////////////////////////////////////////////////// void DtoStaticArrayCopy(llvm::Value* dst, llvm::Value* src) { assert(dst->getType() == src->getType()); size_t arrsz = gTargetData->getTypeSize(dst->getType()->getContainedType(0)); llvm::Value* n = llvm::ConstantInt::get(DtoSize_t(), arrsz, false); llvm::Type* arrty = llvm::PointerType::get(llvm::Type::Int8Ty); llvm::Value* dstarr = new llvm::BitCastInst(dst,arrty,"tmp",gIR->scopebb()); llvm::Value* srcarr = new llvm::BitCastInst(src,arrty,"tmp",gIR->scopebb()); llvm::Function* fn = (global.params.is64bit) ? LLVM_DeclareMemCpy64() : LLVM_DeclareMemCpy32(); std::vector<llvm::Value*> llargs; llargs.resize(4); llargs[0] = dstarr; llargs[1] = srcarr; llargs[2] = n; llargs[3] = llvm::ConstantInt::get(llvm::Type::Int32Ty, 0, false); new llvm::CallInst(fn, llargs.begin(), llargs.end(), "", gIR->scopebb()); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Constant* DtoConstSlice(llvm::Constant* dim, llvm::Constant* ptr) { std::vector<const llvm::Type*> types; types.push_back(dim->getType()); types.push_back(ptr->getType()); const llvm::StructType* type = llvm::StructType::get(types); std::vector<llvm::Constant*> values; values.push_back(dim); values.push_back(ptr); return llvm::ConstantStruct::get(type,values); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoNewDynArray(llvm::Value* dst, llvm::Value* dim, Type* dty, bool doinit) { const llvm::Type* ty = DtoType(dty); assert(ty != llvm::Type::VoidTy); size_t sz = gTargetData->getTypeSize(ty); llvm::ConstantInt* n = llvm::ConstantInt::get(DtoSize_t(), sz, false); llvm::Value* bytesize = (sz == 1) ? dim : llvm::BinaryOperator::createMul(n,dim,"tmp",gIR->scopebb()); llvm::Value* nullptr = llvm::ConstantPointerNull::get(llvm::PointerType::get(ty)); llvm::Value* newptr = DtoRealloc(nullptr, bytesize); if (doinit) { DValue* e = dty->defaultInit()->toElem(gIR); DtoArrayInit(newptr,dim,e->getRVal()); } llvm::Value* lenptr = DtoGEPi(dst,0,0,"tmp",gIR->scopebb()); new llvm::StoreInst(dim,lenptr,gIR->scopebb()); llvm::Value* ptrptr = DtoGEPi(dst,0,1,"tmp",gIR->scopebb()); new llvm::StoreInst(newptr,ptrptr,gIR->scopebb()); return newptr; } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoResizeDynArray(llvm::Value* arr, llvm::Value* sz) { llvm::Value* ptr = DtoGEPi(arr, 0, 1, "tmp", gIR->scopebb()); llvm::Value* ptrld = new llvm::LoadInst(ptr,"tmp",gIR->scopebb()); size_t isz = gTargetData->getTypeSize(ptrld->getType()->getContainedType(0)); llvm::ConstantInt* n = llvm::ConstantInt::get(DtoSize_t(), isz, false); llvm::Value* bytesz = (isz == 1) ? sz : llvm::BinaryOperator::createMul(n,sz,"tmp",gIR->scopebb()); llvm::Value* newptr = DtoRealloc(ptrld, bytesz); new llvm::StoreInst(newptr,ptr,gIR->scopebb()); llvm::Value* len = DtoGEPi(arr, 0, 0, "tmp", gIR->scopebb()); new llvm::StoreInst(sz,len,gIR->scopebb()); return newptr; } ////////////////////////////////////////////////////////////////////////////////////////// void DtoCatAssignElement(llvm::Value* arr, Expression* exp) { llvm::Value* ptr = DtoGEPi(arr, 0, 0, "tmp"); llvm::Value* idx = DtoLoad(ptr); llvm::Value* one = llvm::ConstantInt::get(idx->getType(),1,false); llvm::Value* len = llvm::BinaryOperator::createAdd(idx, one, "tmp", gIR->scopebb()); DtoResizeDynArray(arr,len); ptr = DtoLoad(DtoGEPi(arr, 0, 1, "tmp")); ptr = new llvm::GetElementPtrInst(ptr, idx, "tmp", gIR->scopebb()); DValue* dptr = new DVarValue(exp->type, ptr, true); gIR->exps.push_back(IRExp(0,exp,dptr)); DValue* e = exp->toElem(gIR); gIR->exps.pop_back(); if (!e->inPlace()) DtoAssign(dptr, e); } ////////////////////////////////////////////////////////////////////////////////////////// void DtoCatAssignArray(llvm::Value* arr, Expression* exp) { DValue* e = exp->toElem(gIR); llvm::Value *len1, *len2, *src1, *src2, *res; DValue* darr = new DVarValue(exp->type, arr, true); len1 = DtoArrayLen(darr); len2 = DtoArrayLen(e); res = gIR->ir->CreateAdd(len1,len2,"tmp"); llvm::Value* mem = DtoResizeDynArray(arr,res); src1 = DtoArrayPtr(darr); src2 = DtoArrayPtr(e); mem = gIR->ir->CreateGEP(mem,len1,"tmp"); DtoMemCpy(mem,src2,len2); } ////////////////////////////////////////////////////////////////////////////////////////// void DtoCatArrays(llvm::Value* arr, Expression* exp1, Expression* exp2) { Type* t1 = DtoDType(exp1->type); Type* t2 = DtoDType(exp2->type); assert(t1->ty == Tarray); assert(t1->ty == t2->ty); DValue* e1 = exp1->toElem(gIR); llvm::Value* a = e1->getRVal(); DValue* e2 = exp2->toElem(gIR); llvm::Value* b = e2->getRVal(); llvm::Value *len1, *len2, *src1, *src2, *res; len1 = gIR->ir->CreateLoad(DtoGEPi(a,0,0,"tmp"),"tmp"); len2 = gIR->ir->CreateLoad(DtoGEPi(b,0,0,"tmp"),"tmp"); res = gIR->ir->CreateAdd(len1,len2,"tmp"); llvm::Value* mem = DtoNewDynArray(arr, res, DtoDType(t1->next), false); src1 = gIR->ir->CreateLoad(DtoGEPi(a,0,1,"tmp"),"tmp"); src2 = gIR->ir->CreateLoad(DtoGEPi(b,0,1,"tmp"),"tmp"); DtoMemCpy(mem,src1,len1); mem = gIR->ir->CreateGEP(mem,len1,"tmp"); DtoMemCpy(mem,src2,len2); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoStaticArrayCompare(TOK op, llvm::Value* l, llvm::Value* r) { const char* fname; if (op == TOKequal) fname = "_d_static_array_eq"; else if (op == TOKnotequal) fname = "_d_static_array_neq"; else assert(0); llvm::Function* fn = LLVM_D_GetRuntimeFunction(gIR->module, fname); assert(fn); assert(l->getType() == r->getType()); assert(llvm::isa<llvm::PointerType>(l->getType())); const llvm::Type* arrty = l->getType()->getContainedType(0); assert(llvm::isa<llvm::ArrayType>(arrty)); llvm::Value* ll = new llvm::BitCastInst(l, llvm::PointerType::get(llvm::Type::Int8Ty), "tmp", gIR->scopebb()); llvm::Value* rr = new llvm::BitCastInst(r, llvm::PointerType::get(llvm::Type::Int8Ty), "tmp", gIR->scopebb()); llvm::Value* n = llvm::ConstantInt::get(DtoSize_t(),gTargetData->getTypeSize(arrty),false); std::vector<llvm::Value*> args; args.push_back(ll); args.push_back(rr); args.push_back(n); return new llvm::CallInst(fn, args.begin(), args.end(), "tmp", gIR->scopebb()); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoDynArrayCompare(TOK op, llvm::Value* l, llvm::Value* r) { const char* fname; if (op == TOKequal) fname = "_d_dyn_array_eq"; else if (op == TOKnotequal) fname = "_d_dyn_array_neq"; else assert(0); llvm::Function* fn = LLVM_D_GetRuntimeFunction(gIR->module, fname); assert(fn); Logger::cout() << "lhsType:" << *l->getType() << "\nrhsType:" << *r->getType() << '\n'; assert(l->getType() == r->getType()); assert(llvm::isa<llvm::PointerType>(l->getType())); const llvm::Type* arrty = l->getType()->getContainedType(0); assert(llvm::isa<llvm::StructType>(arrty)); const llvm::StructType* structType = llvm::cast<llvm::StructType>(arrty); const llvm::Type* elemType = structType->getElementType(1)->getContainedType(0); std::vector<const llvm::Type*> arrTypes; arrTypes.push_back(DtoSize_t()); arrTypes.push_back(llvm::PointerType::get(llvm::Type::Int8Ty)); const llvm::StructType* arrType = llvm::StructType::get(arrTypes); llvm::Value* llmem = l; llvm::Value* rrmem = r; if (arrty != arrType) { llmem= new llvm::AllocaInst(arrType,"tmparr",gIR->topallocapoint()); llvm::Value* ll = gIR->ir->CreateLoad(DtoGEPi(l, 0,0, "tmp"),"tmp"); ll = DtoArrayCastLength(ll, elemType, llvm::Type::Int8Ty); llvm::Value* lllen = DtoGEPi(llmem, 0,0, "tmp"); gIR->ir->CreateStore(ll,lllen); ll = gIR->ir->CreateLoad(DtoGEPi(l, 0,1, "tmp"),"tmp"); ll = new llvm::BitCastInst(ll, llvm::PointerType::get(llvm::Type::Int8Ty), "tmp", gIR->scopebb()); llvm::Value* llptr = DtoGEPi(llmem, 0,1, "tmp"); gIR->ir->CreateStore(ll,llptr); rrmem = new llvm::AllocaInst(arrType,"tmparr",gIR->topallocapoint()); llvm::Value* rr = gIR->ir->CreateLoad(DtoGEPi(r, 0,0, "tmp"),"tmp"); rr = DtoArrayCastLength(rr, elemType, llvm::Type::Int8Ty); llvm::Value* rrlen = DtoGEPi(rrmem, 0,0, "tmp"); gIR->ir->CreateStore(rr,rrlen); rr = gIR->ir->CreateLoad(DtoGEPi(r, 0,1, "tmp"),"tmp"); rr = new llvm::BitCastInst(rr, llvm::PointerType::get(llvm::Type::Int8Ty), "tmp", gIR->scopebb()); llvm::Value* rrptr = DtoGEPi(rrmem, 0,1, "tmp"); gIR->ir->CreateStore(rr,rrptr); } std::vector<llvm::Value*> args; args.push_back(llmem); args.push_back(rrmem); return new llvm::CallInst(fn, args.begin(), args.end(), "tmp", gIR->scopebb()); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoArrayCastLength(llvm::Value* len, const llvm::Type* elemty, const llvm::Type* newelemty) { llvm::Function* fn = LLVM_D_GetRuntimeFunction(gIR->module, "_d_array_cast_len"); assert(fn); std::vector<llvm::Value*> args; args.push_back(len); args.push_back(llvm::ConstantInt::get(DtoSize_t(), gTargetData->getTypeSize(elemty), false)); args.push_back(llvm::ConstantInt::get(DtoSize_t(), gTargetData->getTypeSize(newelemty), false)); return new llvm::CallInst(fn, args.begin(), args.end(), "tmp", gIR->scopebb()); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoDynArrayIs(TOK op, llvm::Value* l, llvm::Value* r) { llvm::ICmpInst::Predicate pred = (op == TOKidentity) ? llvm::ICmpInst::ICMP_EQ : llvm::ICmpInst::ICMP_NE; if (r == NULL) { llvm::Value* ll = gIR->ir->CreateLoad(DtoGEPi(l, 0,0, "tmp"),"tmp"); llvm::Value* rl = DtoConstSize_t(0); llvm::Value* b1 = gIR->ir->CreateICmp(pred,ll,rl,"tmp"); llvm::Value* lp = gIR->ir->CreateLoad(DtoGEPi(l, 0,1, "tmp"),"tmp"); const llvm::PointerType* pty = llvm::cast<llvm::PointerType>(lp->getType()); llvm::Value* rp = llvm::ConstantPointerNull::get(pty); llvm::Value* b2 = gIR->ir->CreateICmp(pred,lp,rp,"tmp"); llvm::Value* b = gIR->ir->CreateAnd(b1,b2,"tmp"); return b; } else { assert(l->getType() == r->getType()); llvm::Value* ll = gIR->ir->CreateLoad(DtoGEPi(l, 0,0, "tmp"),"tmp"); llvm::Value* rl = gIR->ir->CreateLoad(DtoGEPi(r, 0,0, "tmp"),"tmp"); llvm::Value* b1 = gIR->ir->CreateICmp(pred,ll,rl,"tmp"); llvm::Value* lp = gIR->ir->CreateLoad(DtoGEPi(l, 0,1, "tmp"),"tmp"); llvm::Value* rp = gIR->ir->CreateLoad(DtoGEPi(r, 0,1, "tmp"),"tmp"); llvm::Value* b2 = gIR->ir->CreateICmp(pred,lp,rp,"tmp"); llvm::Value* b = gIR->ir->CreateAnd(b1,b2,"tmp"); return b; } } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Constant* DtoConstStaticArray(const llvm::Type* t, llvm::Constant* c) { assert(llvm::isa<llvm::ArrayType>(t)); const llvm::ArrayType* at = llvm::cast<llvm::ArrayType>(t); if (llvm::isa<llvm::ArrayType>(at->getElementType())) { c = DtoConstStaticArray(at->getElementType(), c); } else { assert(at->getElementType() == c->getType()); } std::vector<llvm::Constant*> initvals; initvals.resize(at->getNumElements(), c); return llvm::ConstantArray::get(at, initvals); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoArrayLen(DValue* v) { Type* t = DtoDType(v->getType()); if (t->ty == Tarray) { if (DSliceValue* s = v->isSlice()) { if (s->len) return s->len; DValue* next = new DVarValue(t,s->ptr,true); return DtoArrayLen(next); } return DtoLoad(DtoGEPi(v->getRVal(), 0,0, "tmp")); } else if (t->ty == Tsarray) { const llvm::ArrayType* t = llvm::cast<llvm::ArrayType>(v->getLVal()->getType()); return DtoConstSize_t(t->getNumElements()); } assert(0); return 0; } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoArrayPtr(DValue* v) { Type* t = DtoDType(v->getType()); if (t->ty == Tarray) { if (DSliceValue* s = v->isSlice()) { if (s->len) return s->ptr; DValue* next = new DVarValue(t,s->ptr,true); return DtoArrayPtr(next); } return DtoLoad(DtoGEPi(v->getRVal(), 0,1, "tmp")); } else if (t->ty == Tsarray) { return DtoGEPi(v->getRVal(), 0,0, "tmp"); } assert(0); return 0; }