Mercurial > projects > ldc
view ir/irfuncty.h @ 1064:f0b6549055ab
Make LDC work with LLVM trunk (s/LinkOnceLinkage/LinkOnceOdrLinkage/)
Also moved the #defines for linkage types into a separate header instead of
mars.h so we can #include revisions.h without having to rebuild the entire
frontend every time we update.
(I'm using revisions.h to get the LLVM revision for use in preprocessor
conditionals. It should work with LLVM release 2.5, old trunk and new trunk)
author | Frits van Bommel <fvbommel wxs.nl> |
---|---|
date | Sun, 08 Mar 2009 16:13:10 +0100 |
parents | dc608dc33081 |
children |
line wrap: on
line source
#ifndef LDC_IR_IRFUNCTY_H #define LDC_IR_IRFUNCTY_H #include "ir/ir.h" #include "llvm/ADT/SmallVector.h" #include <vector> struct ABIRewrite; namespace llvm { class Type; class Value; class Instruction; class Function; } // represents a function type argument // both explicit and implicit as well as return values struct IrFuncTyArg : IrBase { /** This is the original D type as the frontend knows it * May NOT be rewritten!!! */ Type* type; /// This is the final LLVM Type used for the parameter/return value type const llvm::Type* ltype; /** These are the final LLVM attributes used for the function. * Must be valid for the LLVM Type and byref setting */ unsigned attrs; /** 'true' if the final LLVM argument is a LLVM reference type. * Must be true when the D Type is a value type, but the final * LLVM Type is a reference type! */ bool byref; /** Pointer to the ABIRewrite structure needed to rewrite LLVM ValueS * to match the final LLVM Type when passing arguments and getting * return values */ ABIRewrite* rewrite; /// Helper to check if the 'inreg' attribute is set bool isInReg() const; /// Helper to check if the 'sret' attribute is set bool isSRet() const; /// Helper to check if the 'byval' attribute is set bool isByVal() const; /** @param t D type of argument/return value as known by the frontend * @param byref Initial value for the 'byref' field. If true the initial * LLVM Type will be of DtoType(type->pointerTo()), instead * of just DtoType(type) */ IrFuncTyArg(Type* t, bool byref, unsigned a = 0); }; // represents a function type struct IrFuncTy : IrBase { // return value IrFuncTyArg* ret; // null if not applicable IrFuncTyArg* arg_sret; IrFuncTyArg* arg_this; IrFuncTyArg* arg_nest; IrFuncTyArg* arg_arguments; IrFuncTyArg* arg_argptr; // normal explicit arguments // typedef llvm::SmallVector<IrFuncTyArg*, 4> ArgList; typedef std::vector<IrFuncTyArg*> ArgList; typedef ArgList::iterator ArgIter; ArgList args; // C varargs bool c_vararg; // range of normal parameters to reverse bool reverseParams; IrFuncTy() : ret(NULL), arg_sret(NULL), arg_this(NULL), arg_nest(NULL), arg_arguments(NULL), arg_argptr(NULL), c_vararg(false), reverseParams(false) {} void reset() { ret = NULL; arg_sret = arg_this = arg_nest = arg_arguments = arg_argptr = NULL; args.clear(); c_vararg = false; reverseParams = false; } llvm::Value* putRet(Type* dty, DValue* dval); llvm::Value* getRet(Type* dty, DValue* dval); llvm::Value* putParam(Type* dty, int idx, DValue* dval); llvm::Value* getParam(Type* dty, int idx, DValue* dval); void getParam(Type* dty, int idx, DValue* dval, llvm::Value* lval); }; #endif