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//===--- ManagedValue.cpp - Value with cleanup ----------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// A storage structure for holding a destructured rvalue with an optional
// cleanup(s).
// Ownership of the rvalue can be "forwarded" to disable the associated
// cleanup(s).
//
//===----------------------------------------------------------------------===//
#include "ManagedValue.h"
#include "SILGenFunction.h"
using namespace swift;
using namespace Lowering;
ManagedValue ManagedValue::forForwardedRValue(SILGenFunction &SGF,
SILValue value) {
if (!value)
return ManagedValue();
switch (value->getOwnershipKind()) {
case OwnershipKind::Any:
llvm_unreachable("Invalid ownership for value");
case OwnershipKind::Owned:
return ManagedValue(value, SGF.enterDestroyCleanup(value));
case OwnershipKind::Guaranteed:
case OwnershipKind::None:
case OwnershipKind::Unowned:
return ManagedValue::forUnmanaged(value);
}
}
/// Emit a copy of this value with independent ownership.
ManagedValue ManagedValue::copy(SILGenFunction &SGF, SILLocation loc) const {
auto &lowering = SGF.getTypeLowering(getType());
if (lowering.isTrivial())
return *this;
if (getType().isObject()) {
return SGF.B.createCopyValue(loc, *this, lowering);
}
SILValue buf = SGF.emitTemporaryAllocation(loc, getType());
SGF.B.createCopyAddr(loc, getValue(), buf, IsNotTake, IsInitialization);
return SGF.emitManagedRValueWithCleanup(buf, lowering);
}
// Emit an unmanaged copy of this value
// WARNING: Callers of this API should manage the cleanup of this value!
SILValue ManagedValue::unmanagedCopy(SILGenFunction &SGF,
SILLocation loc) const {
auto &lowering = SGF.getTypeLowering(getType());
if (lowering.isTrivial())
return getValue();
if (getType().isObject()) {
auto copy = SGF.B.emitCopyValueOperation(loc, getValue());
return copy;
}
SILValue buf = SGF.emitTemporaryAllocation(loc, getType());
SGF.B.createCopyAddr(loc, getValue(), buf, IsNotTake, IsInitialization);
return buf;
}
/// Emit a copy of this value with independent ownership.
ManagedValue ManagedValue::formalAccessCopy(SILGenFunction &SGF,
SILLocation loc) {
assert(SGF.isInFormalEvaluationScope() &&
"Can only perform a formal access copy in a formal evaluation scope");
auto &lowering = SGF.getTypeLowering(getType());
if (lowering.isTrivial())
return *this;
if (getType().isObject()) {
return SGF.B.createFormalAccessCopyValue(loc, *this);
}
SILValue buf = SGF.emitTemporaryAllocation(loc, getType());
return SGF.B.createFormalAccessCopyAddr(loc, *this, buf, IsNotTake,
IsInitialization);
}
/// Store a copy of this value with independent ownership into the given
/// uninitialized address.
void ManagedValue::copyInto(SILGenFunction &SGF, SILLocation loc,
SILValue dest) {
auto &lowering = SGF.getTypeLowering(getType());
if (lowering.isAddressOnly() && SGF.silConv.useLoweredAddresses()) {
SGF.B.createCopyAddr(loc, getValue(), dest, IsNotTake, IsInitialization);
return;
}
SILValue copy = lowering.emitCopyValue(SGF.B, loc, getValue());
lowering.emitStoreOfCopy(SGF.B, loc, copy, dest, IsInitialization);
}
void ManagedValue::copyInto(SILGenFunction &SGF, SILLocation loc,
Initialization *dest) {
dest->copyOrInitValueInto(SGF, loc, *this, /*isInit*/ false);
dest->finishInitialization(SGF);
}
/// This is the same operation as 'copy', but works on +0 values that don't
/// have cleanups. It returns a +1 value with one.
ManagedValue ManagedValue::copyUnmanaged(SILGenFunction &SGF, SILLocation loc) {
if (getType().isObject()) {
return SGF.B.createCopyValue(loc, *this);
}
SILValue result = SGF.emitTemporaryAllocation(loc, getType());
SGF.B.createCopyAddr(loc, getValue(), result, IsNotTake, IsInitialization);
return SGF.emitManagedRValueWithCleanup(result);
}
/// This is the same operation as 'copy', but works on +0 values that don't
/// have cleanups. It returns a +1 value with one.
ManagedValue ManagedValue::formalAccessCopyUnmanaged(SILGenFunction &SGF,
SILLocation loc) {
assert(SGF.isInFormalEvaluationScope());
if (getType().isObject()) {
return SGF.B.createFormalAccessCopyValue(loc, *this);
}
SILValue result = SGF.emitTemporaryAllocation(loc, getType());
return SGF.B.createFormalAccessCopyAddr(loc, *this, result, IsNotTake,
IsInitialization);
}
/// Disable the cleanup for this value.
void ManagedValue::forwardCleanup(SILGenFunction &SGF) const {
assert(hasCleanup() && "value doesn't have cleanup!");
SGF.Cleanups.forwardCleanup(getCleanup());
}
/// Forward this value, deactivating the cleanup and returning the
/// underlying value.
SILValue ManagedValue::forward(SILGenFunction &SGF) const {
if (hasCleanup())
forwardCleanup(SGF);
return getValue();
}
void ManagedValue::forwardInto(SILGenFunction &SGF, SILLocation loc,
SILValue address) {
assert(isPlusOneOrTrivial(SGF));
auto &addrTL = SGF.getTypeLowering(address->getType());
SGF.emitSemanticStore(loc, forward(SGF), address, addrTL, IsInitialization);
}
void ManagedValue::assignInto(SILGenFunction &SGF, SILLocation loc,
SILValue address) {
assert(isPlusOneOrTrivial(SGF));
auto &addrTL = SGF.getTypeLowering(address->getType());
SGF.emitSemanticStore(loc, forward(SGF), address, addrTL,
IsNotInitialization);
}
void ManagedValue::forwardInto(SILGenFunction &SGF, SILLocation loc,
Initialization *dest) {
assert(isPlusOneOrTrivial(SGF) || dest->isBorrow());
dest->copyOrInitValueInto(SGF, loc, *this, /*isInit*/ true);
dest->finishInitialization(SGF);
}
ManagedValue ManagedValue::borrow(SILGenFunction &SGF, SILLocation loc) const {
assert(getValue() && "cannot borrow an invalid or in-context value");
if (isLValue())
return *this;
if (getType().isAddress())
return ManagedValue::forUnmanaged(getValue());
return SGF.emitManagedBeginBorrow(loc, getValue());
}
ManagedValue ManagedValue::formalAccessBorrow(SILGenFunction &SGF,
SILLocation loc) const {
assert(SGF.isInFormalEvaluationScope());
assert(getValue() && "cannot borrow an invalid or in-context value");
if (isLValue())
return *this;
if (getType().isAddress())
return ManagedValue::forUnmanaged(getValue());
return SGF.emitFormalEvaluationManagedBeginBorrow(loc, getValue());
}
ManagedValue ManagedValue::materialize(SILGenFunction &SGF,
SILLocation loc) const {
auto temporary = SGF.emitTemporaryAllocation(loc, getType());
bool hadCleanup = hasCleanup();
if (hadCleanup) {
SGF.B.emitStoreValueOperation(loc, forward(SGF), temporary,
StoreOwnershipQualifier::Init);
// SEMANTIC SIL TODO: This should really be called a temporary LValue.
return ManagedValue::forOwnedAddressRValue(
temporary, SGF.enterDestroyCleanup(temporary));
}
auto &lowering = SGF.getTypeLowering(getType());
if (lowering.isAddressOnly()) {
assert(!SGF.silConv.useLoweredAddresses());
auto copy = SGF.B.createCopyValue(loc, getValue());
SGF.B.emitStoreValueOperation(loc, copy, temporary,
StoreOwnershipQualifier::Init);
return ManagedValue::forOwnedAddressRValue(
temporary, SGF.enterDestroyCleanup(temporary));
}
// The temporary memory is +0 if the value was.
auto object = SGF.emitManagedBeginBorrow(loc, getValue());
auto borrowedAddr =
SGF.emitManagedStoreBorrow(loc, object.getValue(), temporary);
return ManagedValue::forBorrowedAddressRValue(borrowedAddr.getValue());
}
ManagedValue ManagedValue::formallyMaterialize(SILGenFunction &SGF,
SILLocation loc) const {
auto temporary = SGF.emitTemporaryAllocation(loc, getType());
bool hadCleanup = hasCleanup();
auto &lowering = SGF.getTypeLowering(getType());
if (hadCleanup) {
SGF.B.emitStoreValueOperation(loc, forward(SGF), temporary,
StoreOwnershipQualifier::Init);
return ManagedValue::forOwnedAddressRValue(
temporary, SGF.enterDestroyCleanup(temporary));
}
if (lowering.isAddressOnly()) {
assert(!SGF.silConv.useLoweredAddresses());
auto copy = SGF.B.createCopyValue(loc, getValue());
SGF.B.emitStoreValueOperation(loc, copy, temporary,
StoreOwnershipQualifier::Init);
return ManagedValue::forOwnedAddressRValue(
temporary, SGF.enterDestroyCleanup(temporary));
}
auto object = SGF.emitFormalEvaluationManagedBeginBorrow(loc, getValue());
return SGF.emitFormalEvaluationManagedStoreBorrow(loc, object.getValue(),
temporary);
}
void ManagedValue::print(raw_ostream &os) const {
if (SILValue v = getValue()) {
v->print(os);
}
}
void ManagedValue::dump() const {
dump(llvm::errs());
}
void ManagedValue::dump(raw_ostream &os, unsigned indent) const {
os.indent(indent);
if (isInContext()) {
os << "InContext\n";
return;
}
if (isLValue()) os << "[lvalue] ";
if (hasCleanup()) os << "[cleanup] ";
if (SILValue v = getValue()) {
v->print(os);
} else {
os << "<null>\n";
}
}
ManagedValue ManagedValue::ensurePlusOne(SILGenFunction &SGF,
SILLocation loc) const {
// Undef can pair with any type of ownership, so it is effectively a +1 value.
if (isa<SILUndef>(getValue()))
return *this;
if (!isPlusOneOrTrivial(SGF)) {
return copy(SGF, loc);
}
return *this;
}
bool ManagedValue::isPlusOne(SILGenFunction &SGF) const {
// If this value is SILUndef, return true. SILUndef can always be passed to +1
// APIs.
if (isa<SILUndef>(getValue()))
return true;
// A value without ownership can always be passed to +1 APIs.
//
// This is not true for address types because deinitializing an in-memory
// value invalidates the storage.
if (getType().isObject() && getOwnershipKind() == OwnershipKind::None)
return true;
return hasCleanup();
}
bool ManagedValue::isPlusOneOrTrivial(SILGenFunction &SGF) const {
return getType().isTrivial(SGF.F) || isPlusOne(SGF);
}
bool ManagedValue::isPlusZero() const {
// SILUndef can always be passed to +0 APIs.
if (isa<SILUndef>(getValue()))
return true;
// Otherwise, just check if we have a cleanup.
return !hasCleanup();
}
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