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ldc/gen/rttibuilder.cpp
David Nadlinger acd508945a Allow multiple declarations to share the same mangled name/LLVM global. 
This is necessary to enable aliasing compiler-generated
symbols with pragma(mangle, …).

Note that globals for internal use are still directly
created.
2013-06-16 00:28:02 +02:00

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//===-- rttibuilder.cpp ---------------------------------------------------===//
//
// LDC the LLVM D compiler
//
// This file is distributed under the BSD-style LDC license. See the LICENSE
// file for details.
//
//===----------------------------------------------------------------------===//
#include "gen/rttibuilder.h"
#include "aggregate.h"
#include "mtype.h"
#include "gen/arrays.h"
#include "gen/irstate.h"
#include "gen/linkage.h"
#include "gen/llvm.h"
#include "gen/llvmhelpers.h"
#include "gen/tollvm.h"
#include "ir/iraggr.h"
RTTIBuilder::RTTIBuilder(AggregateDeclaration* base_class)
{
// make sure the base typeinfo class has been processed
base_class->codegen(Type::sir);
base = base_class;
basetype = static_cast<TypeClass*>(base->type);
baseir = base->ir.irStruct;
assert(baseir && "no IrStruct for TypeInfo base class");
if (base->isClassDeclaration()) {
// just start with adding the vtbl
inits.push_back(baseir->getVtblSymbol());
// and monitor
push_null_vp();
}
}
void RTTIBuilder::push(llvm::Constant* C)
{
inits.push_back(C);
}
void RTTIBuilder::push_null(Type* T)
{
inits.push_back(getNullValue(DtoType(T)));
}
void RTTIBuilder::push_null_vp()
{
inits.push_back(getNullValue(getVoidPtrType()));
}
void RTTIBuilder::push_typeinfo(Type* t)
{
inits.push_back(DtoTypeInfoOf(t, true));
}
void RTTIBuilder::push_classinfo(ClassDeclaration* cd)
{
inits.push_back(cd->ir.irStruct->getClassInfoSymbol());
}
void RTTIBuilder::push_string(const char* str)
{
inits.push_back(DtoConstString(str));
}
void RTTIBuilder::push_null_void_array()
{
LLType* T = DtoType(Type::tvoid->arrayOf());
inits.push_back(getNullValue(T));
}
void RTTIBuilder::push_void_array(uint64_t dim, llvm::Constant* ptr)
{
inits.push_back(DtoConstSlice(
DtoConstSize_t(dim),
DtoBitCast(ptr, getVoidPtrType())
));
}
void RTTIBuilder::push_void_array(llvm::Constant* CI, Type* valtype, Dsymbol* mangle_sym)
{
std::string initname(mangle_sym->mangle());
initname.append(".rtti.voidarr.data");
LLGlobalVariable* G = new LLGlobalVariable(
*gIR->module, CI->getType(), true, TYPEINFO_LINKAGE_TYPE, CI, initname);
G->setAlignment(valtype->alignsize());
push_void_array(getTypePaddedSize(CI->getType()), G);
}
void RTTIBuilder::push_array(llvm::Constant * CI, uint64_t dim, Type* valtype, Dsymbol * mangle_sym)
{
std::string tmpStr(valtype->arrayOf()->toChars());
tmpStr.erase( remove( tmpStr.begin(), tmpStr.end(), '[' ), tmpStr.end() );
tmpStr.erase( remove( tmpStr.begin(), tmpStr.end(), ']' ), tmpStr.end() );
tmpStr.append("arr");
std::string initname(mangle_sym?mangle_sym->mangle():".ldc");
initname.append(".rtti.");
initname.append(tmpStr);
initname.append(".data");
LLGlobalVariable* G = new LLGlobalVariable(
*gIR->module, CI->getType(), true, TYPEINFO_LINKAGE_TYPE, CI, initname);
G->setAlignment(valtype->alignsize());
push_array(dim, DtoBitCast(G, DtoType(valtype->pointerTo())));
}
void RTTIBuilder::push_array(uint64_t dim, llvm::Constant * ptr)
{
inits.push_back(DtoConstSlice(DtoConstSize_t(dim), ptr));
}
void RTTIBuilder::push_uint(unsigned u)
{
inits.push_back(DtoConstUint(u));
}
void RTTIBuilder::push_size(uint64_t s)
{
inits.push_back(DtoConstSize_t(s));
}
void RTTIBuilder::push_size_as_vp(uint64_t s)
{
inits.push_back(llvm::ConstantExpr::getIntToPtr(DtoConstSize_t(s), getVoidPtrType()));
}
void RTTIBuilder::push_funcptr(FuncDeclaration* fd, Type* castto)
{
if (fd)
{
fd->codegen(Type::sir);
LLConstant* F = fd->ir.irFunc->func;
if (castto)
F = DtoBitCast(F, DtoType(castto));
inits.push_back(F);
}
else if (castto)
{
push_null(castto);
}
else
{
push_null_vp();
}
}
void RTTIBuilder::finalize(IrGlobal* tid)
{
finalize(tid->type, tid->value);
}
void RTTIBuilder::finalize(LLType* type, LLValue* value)
{
llvm::ArrayRef<LLConstant*> inits = llvm::makeArrayRef(this->inits);
LLStructType *st = isaStruct(type);
assert(st);
// set struct body
if (st->isOpaque()) {
const int n = inits.size();
std::vector<LLType*> types;
types.reserve(n);
for (int i = 0; i < n; ++i)
types.push_back(inits[i]->getType());
st->setBody(types);
}
// create the inititalizer
LLConstant* tiInit = LLConstantStruct::get(st, inits);
// set the initializer
isaGlobalVar(value)->setInitializer(tiInit);
}
LLConstant* RTTIBuilder::get_constant(LLStructType *initType)
{
// just return the inititalizer
return LLConstantStruct::get(initType, inits);
}
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