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ldc/gen/irstate.h
Frits van Bommel dd41366a99 Use llvm::CallSite instead of custom CallOrInvoke class.
2009-02-28 22:16:52 +01:00

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#ifndef LDC_GEN_IRSTATE_H
#define LDC_GEN_IRSTATE_H
#include <vector>
#include <deque>
#include <list>
#include <sstream>
#include "root.h"
#include "aggregate.h"
#include "ir/irfunction.h"
#include "ir/irstruct.h"
#include "ir/irvar.h"
#include "llvm/Support/CallSite.h"
namespace llvm {
class TargetMachine;
}
// global ir state for current module
struct IRState;
struct TargetABI;
extern IRState* gIR;
extern llvm::TargetMachine* gTargetMachine;
extern const llvm::TargetData* gTargetData;
extern TargetABI* gABI;
struct TypeFunction;
struct TypeStruct;
struct ClassDeclaration;
struct FuncDeclaration;
struct Module;
struct TypeStruct;
struct BaseClass;
struct AnonDeclaration;
struct EnclosingHandler;
struct IrModule;
// represents a scope
struct IRScope
{
llvm::BasicBlock* begin;
llvm::BasicBlock* end;
IRBuilder<> builder;
IRScope();
IRScope(llvm::BasicBlock* b, llvm::BasicBlock* e);
};
// scope for loops
struct IRLoopScope : IRScope
{
// generating statement
Statement* s;
// the try of a TryFinally that encloses the loop
EnclosingHandler* enclosinghandler;
// if it is a switch, we are a possible target for break
// but not for continue
bool isSwitch;
IRLoopScope();
IRLoopScope(Statement* s, EnclosingHandler* enclosinghandler, llvm::BasicBlock* b, llvm::BasicBlock* e, bool isSwitch = false);
};
struct IRBuilderHelper
{
IRState* state;
IRBuilder<>* operator->();
};
struct IRAsmStmt
{
IRAsmStmt()
: isBranchToLabel(NULL) {}
std::string code;
std::string out_c;
std::string in_c;
std::vector<LLValue*> out;
std::vector<LLValue*> in;
// if this is nonzero, it contains the target label
Identifier* isBranchToLabel;
};
struct IRAsmBlock
{
std::deque<IRAsmStmt*> s;
std::set<std::string> clobs;
size_t outputcount;
// stores the labels within the asm block
std::vector<Identifier*> internalLabels;
AsmBlockStatement* asmBlock;
const LLType* retty;
unsigned retn;
bool retemu; // emulate abi ret with a temporary
LLValue* (*retfixup)(IRBuilderHelper b, LLValue* orig); // Modifies retval
IRAsmBlock(AsmBlockStatement* b)
: asmBlock(b), retty(NULL), retn(0), retemu(false), retfixup(NULL),
outputcount(0)
{}
};
// represents the module
struct IRState
{
IRState(llvm::Module* m);
// module
Module* dmodule;
llvm::Module* module;
// interface info type, used in DtoInterfaceInfoType
const LLStructType* interfaceInfoType;
const LLStructType* mutexType;
const LLStructType* moduleRefType;
// functions
typedef std::vector<IrFunction*> FunctionVector;
FunctionVector functions;
IrFunction* func();
llvm::Function* topfunc();
TypeFunction* topfunctype();
llvm::Instruction* topallocapoint();
// structs
typedef std::vector<IrStruct*> StructVector;
StructVector structs;
IrStruct* topstruct();
// D main function
bool emitMain;
llvm::Function* mainFunc;
// basic block scopes
std::vector<IRScope> scopes;
IRScope& scope();
llvm::BasicBlock* scopebb();
llvm::BasicBlock* scopeend();
bool scopereturned();
// create a call or invoke, depending on the landing pad info
// the template function is defined further down in this file
template <typename InputIterator>
llvm::CallSite CreateCallOrInvoke(LLValue* Callee, InputIterator ArgBegin, InputIterator ArgEnd, const char* Name="");
llvm::CallSite CreateCallOrInvoke(LLValue* Callee, const char* Name="");
llvm::CallSite CreateCallOrInvoke(LLValue* Callee, LLValue* Arg1, const char* Name="");
llvm::CallSite CreateCallOrInvoke2(LLValue* Callee, LLValue* Arg1, LLValue* Arg2, const char* Name="");
llvm::CallSite CreateCallOrInvoke3(LLValue* Callee, LLValue* Arg1, LLValue* Arg2, LLValue* Arg3, const char* Name="");
llvm::CallSite CreateCallOrInvoke4(LLValue* Callee, LLValue* Arg1, LLValue* Arg2, LLValue* Arg3, LLValue* Arg4, const char* Name="");
// loop blocks
typedef std::vector<IRLoopScope> LoopScopeVec;
LoopScopeVec loopbbs;
// this holds the array being indexed or sliced so $ will work
// might be a better way but it works. problem is I only get a
// VarDeclaration for __dollar, but I can't see how to get the
// array pointer from this :(
std::vector<DValue*> arrays;
// builder helper
IRBuilderHelper ir;
// debug info helper
llvm::DIFactory difactory;
typedef std::list<Dsymbol*> DsymbolList;
// dsymbols that need to be resolved
DsymbolList resolveList;
// dsymbols that need to be declared
DsymbolList declareList;
// dsymbols that need constant initializers constructed
DsymbolList constInitList;
// dsymbols that need definitions
DsymbolList defineList;
// static ctors/dtors/unittests
typedef std::vector<FuncDeclaration*> FuncDeclVector;
FuncDeclVector ctors;
FuncDeclVector dtors;
FuncDeclVector unitTests;
// for inline asm
IRAsmBlock* asmBlock;
std::ostringstream nakedAsm;
// 'used' array solely for keeping a reference to globals
std::vector<LLConstant*> usedArray;
// dwarf dbg stuff
LLGlobalVariable* dwarfCUs;
LLGlobalVariable* dwarfSPs;
LLGlobalVariable* dwarfGVs;
};
template <typename InputIterator>
llvm::CallSite IRState::CreateCallOrInvoke(LLValue* Callee, InputIterator ArgBegin, InputIterator ArgEnd, const char* Name)
{
llvm::BasicBlock* pad;
if(pad = func()->landingPad.get())
{
// intrinsics don't support invoking
LLFunction* funcval = llvm::dyn_cast<LLFunction>(Callee);
if (funcval && funcval->isIntrinsic())
{
return ir->CreateCall(Callee, ArgBegin, ArgEnd, Name);
}
llvm::BasicBlock* postinvoke = llvm::BasicBlock::Create("postinvoke", topfunc(), scopeend());
llvm::InvokeInst* invoke = ir->CreateInvoke(Callee, postinvoke, pad, ArgBegin, ArgEnd, Name);
scope() = IRScope(postinvoke, scopeend());
return invoke;
}
else
return ir->CreateCall(Callee, ArgBegin, ArgEnd, Name);
}
#endif // LDC_GEN_IRSTATE_H
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