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Fixed ArrayLiteralExp::toConstElem for dynamic arrays, tango-user library should now be possible to build. It seems to be related to DMD bug 2356, which must have been introduced recently, as we already handled this fine for ArrayInitializers, just not ArrayLiterals... Kinda annoying to have to do this work due to DMD bugs ...
author Tomas Lindquist Olsen <tomas.l.olsen@gmail.com>
date Mon, 15 Sep 2008 15:48:59 +0200
parents cecfee2d01a8
children df196c8dea26
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#ifndef LLVMDC_GEN_LLVMHELPERS_H
#define LLVMDC_GEN_LLVMHELPERS_H

#include "gen/llvm.h"
#include "statement.h"

// dynamic memory helpers
LLValue* DtoNew(Type* newtype);
void DtoDeleteMemory(LLValue* ptr);
void DtoDeleteClass(LLValue* inst);
void DtoDeleteInterface(LLValue* inst);
void DtoDeleteArray(DValue* arr);

// emit an alloca
llvm::AllocaInst* DtoAlloca(const LLType* lltype, const std::string& name = "");
llvm::AllocaInst* DtoAlloca(const LLType* lltype, LLValue* arraysize, const std::string& name = "");

// assertion generator
void DtoAssert(Loc* loc, DValue* msg);

// return the LabelStatement from the current function with the given identifier or NULL if not found
LabelStatement* DtoLabelStatement(Identifier* ident);
// emit goto
void DtoGoto(Loc* loc, Identifier* target, EnclosingHandler* enclosingtryfinally, TryFinallyStatement* sourcetf);

// generates IR for finally blocks between the 'start' and 'end' statements
// will begin with the finally block belonging to 'start' and does not include
// the finally block of 'end'
void DtoEnclosingHandlers(EnclosingHandler* start, EnclosingHandler* end);

// enters a critical section
void DtoEnterCritical(LLValue* g);
// leaves a critical section
void DtoLeaveCritical(LLValue* g);

// enters a monitor lock
void DtoEnterMonitor(LLValue* v);
// leaves a monitor lock
void DtoLeaveMonitor(LLValue* v);

// nested variable and context helpers

// gets the context value for a call to a nested function or newing a class, with arbitrary nesting
LLValue* DtoNestedContext(Loc loc, Dsymbol* sym);
// gets the dvalue of a nested variable with arbitrary nesting
DValue* DtoNestedVariable(Loc loc, Type* astype, VarDeclaration* vd);

// basic operations
void DtoAssign(Loc& loc, DValue* lhs, DValue* rhs);

// create a null dvalue
DValue* DtoNullValue(Type* t);

// casts
DValue* DtoCastInt(Loc& loc, DValue* val, Type* to);
DValue* DtoCastPtr(Loc& loc, DValue* val, Type* to);
DValue* DtoCastFloat(Loc& loc, DValue* val, Type* to);
DValue* DtoCastDelegate(Loc& loc, DValue* val, Type* to);
DValue* DtoCast(Loc& loc, DValue* val, Type* to);

// is template instance check
bool DtoIsTemplateInstance(Dsymbol* s);

// generates lazy static initialization code for a global variable
void DtoLazyStaticInit(bool istempl, LLValue* gvar, Initializer* init, Type* t);

// these are all basically drivers for the codegeneration called by the main loop
void DtoResolveDsymbol(Dsymbol* dsym);
void DtoDeclareDsymbol(Dsymbol* dsym);
void DtoDefineDsymbol(Dsymbol* dsym);
void DtoConstInitDsymbol(Dsymbol* dsym);
void DtoConstInitGlobal(VarDeclaration* vd);
void DtoEmptyResolveList();
void DtoEmptyDeclareList();
void DtoEmptyConstInitList();
void DtoEmptyAllLists();
void DtoForceDeclareDsymbol(Dsymbol* dsym);
void DtoForceConstInitDsymbol(Dsymbol* dsym);
void DtoForceDefineDsymbol(Dsymbol* dsym);

// declaration inside a declarationexp
DValue* DtoDeclarationExp(Dsymbol* declaration);

// initializer helpers
LLConstant* DtoConstInitializer(Type* type, Initializer* init);
LLConstant* DtoConstFieldInitializer(Type* type, Initializer* init);
DValue* DtoInitializer(LLValue* target, Initializer* init);

// annotation generator
void DtoAnnotation(const char* str);

// getting typeinfo of type, base=true casts to object.TypeInfo
LLConstant* DtoTypeInfoOf(Type* ty, bool base=true);

// binary operations
DValue* DtoBinAdd(DValue* lhs, DValue* rhs);
DValue* DtoBinSub(DValue* lhs, DValue* rhs);
// these binops need an explicit result type to handling
// to give 'ifloat op float' and 'float op ifloat' the correct type
DValue* DtoBinMul(Type* resulttype, DValue* lhs, DValue* rhs);
DValue* DtoBinDiv(Type* resulttype, DValue* lhs, DValue* rhs);
DValue* DtoBinRem(Type* resulttype, DValue* lhs, DValue* rhs);

// target stuff
void findDefaultTarget();

/// Converts any value to a boolean (llvm i1)
LLValue* DtoBoolean(Loc& loc, DValue* dval);

/// get the default initializer of the type
LLConstant* DtoDefaultInit(Type* t);

// fixup an overloaded intrinsic name string
void DtoOverloadedIntrinsicName(TemplateInstance* ti, TemplateDeclaration* td, std::string& name);

////////////////////////////////////////////
// gen/tocall.cpp stuff below
////////////////////////////////////////////

/// convert DMD calling conv to LLVM
unsigned DtoCallingConv(LINK l);

///
TypeFunction* DtoTypeFunction(DValue* fnval);

///
DValue* DtoVaArg(Loc& loc, Type* type, Expression* valistArg);

///
LLValue* DtoCallableValue(DValue* fn);

///
const LLFunctionType* DtoExtractFunctionType(const LLType* type);

///
void DtoBuildDVarArgList(std::vector<LLValue*>& args, llvm::PAListPtr& palist, TypeFunction* tf, Expressions* arguments, size_t argidx);

///
DValue* DtoCallFunction(Loc& loc, Type* resulttype, DValue* fnval, Expressions* arguments);

#endif