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ldc/gen/aa.cpp
David Nadlinger 44b0f7b615 driver/gen/ir: clang-format the world 
This uses the LLVM style, which makes sense for sharing code
with other LLVM projects. The DMD code we use will soon all
be in D anyway.
2015-11-02 00:28:01 +02:00

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//===-- aa.cpp ------------------------------------------------------------===//
//
// LDC the LLVM D compiler
//
// This file is distributed under the BSD-style LDC license. See the LICENSE
// file for details.
//
//===----------------------------------------------------------------------===//
#include "gen/aa.h"
#include "aggregate.h"
#include "declaration.h"
#include "module.h"
#include "mtype.h"
#include "gen/dvalue.h"
#include "gen/irstate.h"
#include "gen/llvm.h"
#include "gen/llvmhelpers.h"
#include "gen/logger.h"
#include "gen/runtime.h"
#include "gen/tollvm.h"
#include "ir/irfunction.h"
#include "ir/irmodule.h"
// returns the keytype typeinfo
static LLValue *to_keyti(DValue *aa) {
// keyti param
assert(aa->type->toBasetype()->ty == Taarray);
TypeAArray *aatype = static_cast<TypeAArray *>(aa->type->toBasetype());
return DtoTypeInfoOf(aatype->index, false);
}
/////////////////////////////////////////////////////////////////////////////////////
DValue *DtoAAIndex(Loc &loc, Type *type, DValue *aa, DValue *key, bool lvalue) {
// D2:
// call:
// extern(C) void* _aaGetY(AA* aa, TypeInfo aati, size_t valuesize, void*
// pkey)
// or
// extern(C) void* _aaInX(AA aa*, TypeInfo keyti, void* pkey)
// first get the runtime function
llvm::Function *func = LLVM_D_GetRuntimeFunction(
loc, gIR->module, lvalue ? "_aaGetY" : "_aaInX");
LLFunctionType *funcTy = func->getFunctionType();
// aa param
LLValue *aaval = lvalue ? aa->getLVal() : aa->getRVal();
aaval = DtoBitCast(aaval, funcTy->getParamType(0));
// pkey param
LLValue *pkey = makeLValue(loc, key);
pkey = DtoBitCast(pkey, funcTy->getParamType(lvalue ? 3 : 2));
// call runtime
LLValue *ret;
if (lvalue) {
LLValue *rawAATI =
DtoTypeInfoOf(aa->type->unSharedOf()->mutableOf(), false);
LLValue *castedAATI = DtoBitCast(rawAATI, funcTy->getParamType(1));
LLValue *valsize = DtoConstSize_t(getTypePaddedSize(DtoType(type)));
ret = gIR->CreateCallOrInvoke(func, aaval, castedAATI, valsize, pkey,
"aa.index")
.getInstruction();
} else {
LLValue *keyti = DtoBitCast(to_keyti(aa), funcTy->getParamType(1));
ret = gIR->CreateCallOrInvoke(func, aaval, keyti, pkey, "aa.index")
.getInstruction();
}
// cast return value
LLType *targettype = DtoPtrToType(type);
if (ret->getType() != targettype)
ret = DtoBitCast(ret, targettype);
// Only check bounds for rvalues ('aa[key]').
// Lvalue use ('aa[key] = value') auto-adds an element.
if (!lvalue && gIR->emitArrayBoundsChecks()) {
llvm::BasicBlock *failbb = llvm::BasicBlock::Create(
gIR->context(), "aaboundscheckfail", gIR->topfunc());
llvm::BasicBlock *okbb =
llvm::BasicBlock::Create(gIR->context(), "aaboundsok", gIR->topfunc());
LLValue *nullaa = LLConstant::getNullValue(ret->getType());
LLValue *cond = gIR->ir->CreateICmpNE(nullaa, ret, "aaboundscheck");
gIR->ir->CreateCondBr(cond, okbb, failbb);
// set up failbb to call the array bounds error runtime function
gIR->scope() = IRScope(failbb);
llvm::Function *errorfn =
LLVM_D_GetRuntimeFunction(loc, gIR->module, "_d_arraybounds");
gIR->CreateCallOrInvoke(
errorfn, DtoModuleFileName(gIR->func()->decl->getModule(), loc),
DtoConstUint(loc.linnum));
// the function does not return
gIR->ir->CreateUnreachable();
// if ok, proceed in okbb
gIR->scope() = IRScope(okbb);
}
return new DVarValue(type, ret);
}
/////////////////////////////////////////////////////////////////////////////////////
DValue *DtoAAIn(Loc &loc, Type *type, DValue *aa, DValue *key) {
// D1:
// call:
// extern(C) void* _aaIn(AA aa*, TypeInfo keyti, void* pkey)
// D2:
// call:
// extern(C) void* _aaInX(AA aa*, TypeInfo keyti, void* pkey)
// first get the runtime function
llvm::Function *func = LLVM_D_GetRuntimeFunction(loc, gIR->module, "_aaInX");
LLFunctionType *funcTy = func->getFunctionType();
IF_LOG Logger::cout() << "_aaIn = " << *func << '\n';
// aa param
LLValue *aaval = aa->getRVal();
IF_LOG {
Logger::cout() << "aaval: " << *aaval << '\n';
Logger::cout() << "totype: " << *funcTy->getParamType(0) << '\n';
}
aaval = DtoBitCast(aaval, funcTy->getParamType(0));
// keyti param
LLValue *keyti = to_keyti(aa);
keyti = DtoBitCast(keyti, funcTy->getParamType(1));
// pkey param
LLValue *pkey = makeLValue(loc, key);
pkey = DtoBitCast(pkey, getVoidPtrType());
// call runtime
LLValue *ret = gIR->CreateCallOrInvoke(func, aaval, keyti, pkey, "aa.in")
.getInstruction();
// cast return value
LLType *targettype = DtoType(type);
if (ret->getType() != targettype)
ret = DtoBitCast(ret, targettype);
return new DImValue(type, ret);
}
/////////////////////////////////////////////////////////////////////////////////////
DValue *DtoAARemove(Loc &loc, DValue *aa, DValue *key) {
// D1:
// call:
// extern(C) void _aaDel(AA aa, TypeInfo keyti, void* pkey)
// D2:
// call:
// extern(C) bool _aaDelX(AA aa, TypeInfo keyti, void* pkey)
// first get the runtime function
llvm::Function *func = LLVM_D_GetRuntimeFunction(loc, gIR->module, "_aaDelX");
LLFunctionType *funcTy = func->getFunctionType();
IF_LOG Logger::cout() << "_aaDel = " << *func << '\n';
// aa param
LLValue *aaval = aa->getRVal();
IF_LOG {
Logger::cout() << "aaval: " << *aaval << '\n';
Logger::cout() << "totype: " << *funcTy->getParamType(0) << '\n';
}
aaval = DtoBitCast(aaval, funcTy->getParamType(0));
// keyti param
LLValue *keyti = to_keyti(aa);
keyti = DtoBitCast(keyti, funcTy->getParamType(1));
// pkey param
LLValue *pkey = makeLValue(loc, key);
pkey = DtoBitCast(pkey, funcTy->getParamType(2));
// call runtime
LLCallSite call = gIR->CreateCallOrInvoke(func, aaval, keyti, pkey);
return new DImValue(Type::tbool, call.getInstruction());
}
/////////////////////////////////////////////////////////////////////////////////////
LLValue *DtoAAEquals(Loc &loc, TOK op, DValue *l, DValue *r) {
Type *t = l->getType()->toBasetype();
assert(t == r->getType()->toBasetype() &&
"aa equality is only defined for aas of same type");
llvm::Function *func =
LLVM_D_GetRuntimeFunction(loc, gIR->module, "_aaEqual");
LLFunctionType *funcTy = func->getFunctionType();
LLValue *aaval = DtoBitCast(l->getRVal(), funcTy->getParamType(1));
LLValue *abval = DtoBitCast(r->getRVal(), funcTy->getParamType(2));
LLValue *aaTypeInfo = DtoTypeInfoOf(t);
LLValue *res =
gIR->CreateCallOrInvoke(func, aaTypeInfo, aaval, abval, "aaEqRes")
.getInstruction();
res = gIR->ir->CreateICmpNE(res, DtoConstInt(0));
if (op == TOKnotequal)
res = gIR->ir->CreateNot(res);
return res;
}
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