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fuchsia / third_party / swift / refs/heads/upstream/upstream/vfs_glibc / . / lib / IRGen / Callee.h
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//===--- Callee.h - Information about a physical callee ---------*- 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 Callee type, which stores all necessary
// information about a physical callee.
//
//===----------------------------------------------------------------------===//
#ifndef SWIFT_IRGEN_CALLEE_H
#define SWIFT_IRGEN_CALLEE_H
#include <type_traits>
#include "llvm/IR/DerivedTypes.h"
#include "swift/SIL/SILType.h"
#include "IRGen.h"
#include "Signature.h"
namespace swift {
class Substitution;
namespace irgen {
class Callee;
class IRGenFunction;
class CalleeInfo {
public:
/// The unsubstituted function type being called.
CanSILFunctionType OrigFnType;
/// The substituted result type of the function being called.
CanSILFunctionType SubstFnType;
/// The archetype substitutions under which the function is being
/// called.
std::vector<Substitution> Substitutions;
CalleeInfo(CanSILFunctionType origFnType,
CanSILFunctionType substFnType,
SubstitutionList substitutions)
: OrigFnType(origFnType), SubstFnType(substFnType),
Substitutions(substitutions.begin(), substitutions.end()) {
}
};
/// A function pointer value.
class FunctionPointer {
/// The actual function pointer.
llvm::Value *Value;
Signature Sig;
public:
/// Construct a FunctionPointer for an arbitrary pointer value.
/// We may add more arguments to this; try to use the other
/// constructors/factories if possible.
explicit FunctionPointer(llvm::Value *value, const Signature &signature)
: Value(value), Sig(signature) {
// The function pointer should have function type.
assert(value->getType()->getPointerElementType()->isFunctionTy());
// TODO: maybe assert similarity to signature.getType()?
}
static FunctionPointer forDirect(IRGenModule &IGM,
llvm::Constant *value,
CanSILFunctionType fnType);
static FunctionPointer forDirect(llvm::Constant *value,
const Signature &signature) {
return FunctionPointer(value, signature);
}
static FunctionPointer forExplosionValue(IRGenFunction &IGF,
llvm::Value *fnPtr,
CanSILFunctionType fnType);
/// Is this function pointer completely constant? That is, can it
/// be safely moved to a different function context?
bool isConstant() const {
return (isa<llvm::Constant>(Value));
}
/// Return the actual function pointer.
llvm::Value *getPointer() const { return Value; }
/// Given that this value is known to have been constructed from
/// a direct function, return the function pointer.
llvm::Constant *getDirectPointer() const {
return cast<llvm::Constant>(Value);
}
llvm::FunctionType *getFunctionType() const {
return cast<llvm::FunctionType>(
Value->getType()->getPointerElementType());
}
const Signature &getSignature() const {
return Sig;
}
llvm::CallingConv::ID getCallingConv() const {
return Sig.getCallingConv();
}
llvm::AttributeList getAttributes() const {
return Sig.getAttributes();
}
llvm::AttributeList &getMutableAttributes() & {
return Sig.getMutableAttributes();
}
ForeignFunctionInfo getForeignInfo() const {
return Sig.getForeignInfo();
}
llvm::Value *getExplosionValue(IRGenFunction &IGF,
CanSILFunctionType fnType) const;
};
class Callee {
CalleeInfo Info;
/// The actual function pointer to invoke.
FunctionPointer Fn;
/// The first data pointer required by the function invocation.
llvm::Value *FirstData;
/// The second data pointer required by the function invocation.
llvm::Value *SecondData;
public:
Callee(const Callee &other) = delete;
Callee &operator=(const Callee &other) = delete;
Callee(Callee &&other) = default;
Callee &operator=(Callee &&other) = default;
Callee(CalleeInfo &&info, const FunctionPointer &fn,
llvm::Value *firstData = nullptr,
llvm::Value *secondData = nullptr);
SILFunctionTypeRepresentation getRepresentation() const {
return Info.OrigFnType->getRepresentation();
}
CanSILFunctionType getOrigFunctionType() const {
return Info.OrigFnType;
}
CanSILFunctionType getSubstFunctionType() const {
return Info.SubstFnType;
}
bool hasSubstitutions() const { return !Info.Substitutions.empty(); }
SubstitutionList getSubstitutions() const { return Info.Substitutions; }
const FunctionPointer &getFunctionPointer() const { return Fn; }
llvm::FunctionType *getLLVMFunctionType() {
return Fn.getFunctionType();
}
llvm::AttributeList getAttributes() const {
return Fn.getAttributes();
}
llvm::AttributeList &getMutableAttributes() & {
return Fn.getMutableAttributes();
}
ForeignFunctionInfo getForeignInfo() const {
return Fn.getForeignInfo();
}
/// If this callee has a value for the Swift context slot, return
/// it; otherwise return non-null.
llvm::Value *getSwiftContext() const;
/// Given that this callee is a block, return the block pointer.
llvm::Value *getBlockObject() const;
/// Given that this callee is an ObjC method, return the receiver
/// argument. This might not be 'self' anymore.
llvm::Value *getObjCMethodReceiver() const;
/// Given that this callee is an ObjC method, return the receiver
/// argument. This might not be 'self' anymore.
llvm::Value *getObjCMethodSelector() const;
};
} // end namespace irgen
} // end namespace swift
#endif