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swift-mirror/lib/IRGen/CallEmission.h
Dario Rexin 25929b3b4d [IRGen] Move some typed error code in CallEmission into separate function 
This is in preparation of adding support for async calls, so the code can be shared between sync and async calls.
2024-07-08 12:28:02 -07:00

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//===--- CallEmission.h - Utility for emitting calls ------------*- C++ -*-===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
//
// This file defines the CallEmitter class.
//
//===----------------------------------------------------------------------===//
#ifndef SWIFT_IRGEN_CALLEMISSION_H
#define SWIFT_IRGEN_CALLEMISSION_H
#include "Address.h"
#include "Callee.h"
#include "Explosion.h"
#include "Temporary.h"
namespace llvm {
class CallSite;
}
namespace swift {
namespace irgen {
class Explosion;
class LoadableTypeInfo;
struct WitnessMetadata;
class FunctionPointer;
/// A plan for emitting a series of calls.
class CallEmission {
enum class State { Emitting, Finished };
State state = State::Emitting;
public:
IRGenFunction &IGF;
protected:
llvm::Value *selfValue;
/// The builtin/special arguments to pass to the call.
SmallVector<llvm::Value*, 8> Args;
/// Temporaries required by the call.
TemporarySet Temporaries;
/// Temporaries required by the call that are not mapped to any
/// SIL value.
SmallVector<StackAddress, 8> RawTempraries;
/// The function we're going to call.
Callee CurCallee;
/// Only valid if the SIL function has indirect return values.
/// If the function has multiple indirect return values, this is the address
/// of the first indirect return value.
Address indirectReturnAddress;
/// For C-functions: true if the return is indirect in SIL, but direct for a C-function.
/// That can happen for "sensitive" structs.
bool convertDirectToIndirectReturn = false;
unsigned LastArgWritten;
/// Whether this is a coroutine invocation.
bool IsCoroutine;
/// Whether we've emitted the call for the current callee yet. This
/// is just for debugging purposes --- e.g. the destructor asserts
/// that it's true --- but is otherwise derivable from
/// RemainingArgsForCallee, at least between calls.
bool EmittedCall;
/// The basic block to which the call to a potentially throwing foreign
/// function should jump to continue normal execution of the program.
llvm::BasicBlock *invokeNormalDest = nullptr;
/// The basic block to which the call to a potentially throwing foreign
/// function should jump to in case an exception has been thrown during the
/// invocation of the call.
llvm::BasicBlock *invokeUnwindDest = nullptr;
unsigned IndirectTypedErrorArgIdx = 0;
std::optional<Explosion> typedErrorExplosion;
virtual void setFromCallee();
void emitToUnmappedMemory(Address addr);
void emitToUnmappedExplosion(Explosion &out);
virtual void emitCallToUnmappedExplosion(llvm::CallBase *call,
Explosion &out) = 0;
void emitYieldsToExplosion(Explosion &out);
void setKeyPathAccessorArguments(Explosion &in, bool isOutlined,
Explosion &out);
virtual FunctionPointer getCalleeFunctionPointer() = 0;
llvm::CallBase *emitCallSite();
virtual llvm::CallBase *createCall(const FunctionPointer &fn,
ArrayRef<llvm::Value *> args) = 0;
void externalizeArguments(IRGenFunction &IGF, const Callee &callee,
Explosion &in, Explosion &out,
TemporarySet &temporaries,
bool isOutlined);
bool mayReturnTypedErrorDirectly() const;
void emitToUnmappedExplosionWithDirectTypedError(SILType resultType,
llvm::Value *result,
Explosion &out);
CallEmission(IRGenFunction &IGF, llvm::Value *selfValue, Callee &&callee)
: IGF(IGF), selfValue(selfValue), CurCallee(std::move(callee)) {}
public:
CallEmission(const CallEmission &other) = delete;
CallEmission(CallEmission &&other);
CallEmission &operator=(const CallEmission &other) = delete;
virtual ~CallEmission();
const Callee &getCallee() const { return CurCallee; }
SubstitutionMap getSubstitutions() const {
return CurCallee.getSubstitutions();
}
std::optional<Explosion> &getTypedErrorExplosion() {
return typedErrorExplosion;
}
virtual void begin();
virtual void end();
virtual SILType getParameterType(unsigned index) = 0;
/// Set the arguments to the function from an explosion.
virtual void setArgs(Explosion &arg, bool isOutlined,
WitnessMetadata *witnessMetadata);
virtual Address getCalleeErrorSlot(SILType errorType, bool isCalleeAsync) = 0;
void addFnAttribute(llvm::Attribute::AttrKind Attr);
void setIndirectReturnAddress(Address addr) { indirectReturnAddress = addr; }
void addParamAttribute(unsigned ParamIndex, llvm::Attribute::AttrKind Attr);
void emitToMemory(Address addr, const LoadableTypeInfo &substResultTI,
bool isOutlined);
void emitToExplosion(Explosion &out, bool isOutlined);
llvm::CallBase *emitCoroutineAsOrdinaryFunction() {
assert(IsCoroutine);
IsCoroutine = false;
return emitCallSite();
}
TemporarySet claimTemporaries() {
// Move the actual temporary set out.
auto result = std::move(Temporaries);
// Flag that we've cleared the set.
Temporaries.clear();
return result;
}
virtual llvm::Value *getResumeFunctionPointer() = 0;
virtual llvm::Value *getAsyncContext() = 0;
void setIndirectTypedErrorResultSlot(llvm::Value *addr) {
Args[IndirectTypedErrorArgIdx] = addr;
}
void setIndirectTypedErrorResultSlotArgsIndex(unsigned idx) {
assert(idx != 0);
IndirectTypedErrorArgIdx = idx;
}
};
std::unique_ptr<CallEmission>
getCallEmission(IRGenFunction &IGF, llvm::Value *selfValue, Callee &&callee);
} // end namespace irgen
} // end namespace swift
#endif
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