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f3ff561c6f
This is phase-1 of switching from llvm::Optional to std::optional in the
next rebranch. llvm::Optional was removed from upstream LLVM, so we need
to migrate off rather soon. On Darwin, std::optional, and llvm::Optional
have the same layout, so we don't need to be as concerned about ABI
beyond the name mangling. `llvm::Optional` is only returned from one
function in
```
getStandardTypeSubst(StringRef TypeName,
bool allowConcurrencyManglings);
```
It's the return value, so it should not impact the mangling of the
function, and the layout is the same as `std::optional`, so it should be
mostly okay. This function doesn't appear to have users, and the ABI was
already broken 2 years ago for concurrency and no one seemed to notice
so this should be "okay".
I'm doing the migration incrementally so that folks working on main can
cherry-pick back to the release/5.9 branch. Once 5.9 is done and locked
away, then we can go through and finish the replacement. Since `None`
and `Optional` show up in contexts where they are not `llvm::None` and
`llvm::Optional`, I'm preparing the work now by going through and
removing the namespace unwrapping and making the `llvm` namespace
explicit. This should make it fairly mechanical to go through and
replace llvm::Optional with std::optional, and llvm::None with
std::nullopt. It's also a change that can be brought onto the
release/5.9 with minimal impact. This should be an NFC change.
225 lines
7.4 KiB
C++
225 lines
7.4 KiB
C++
//===--- ArraySemantic.h - Wrapper around array semantic calls. -*- C++ -*-===//
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//
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// This source file is part of the Swift.org open source project
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//
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// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
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// Licensed under Apache License v2.0 with Runtime Library Exception
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//
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// See https://swift.org/LICENSE.txt for license information
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// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
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//
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//===----------------------------------------------------------------------===//
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#ifndef SWIFT_SILOPTIMIZER_ANALYSIS_ARRAYSEMANTIC_H
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#define SWIFT_SILOPTIMIZER_ANALYSIS_ARRAYSEMANTIC_H
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#include "swift/SIL/SILInstruction.h"
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namespace swift {
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class DominanceInfo;
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/// The kind of array operation identified by looking at the semantics attribute
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/// of the called function.
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enum class ArrayCallKind {
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kNone = 0,
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kArrayPropsIsNativeTypeChecked,
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kCheckSubscript,
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kCheckIndex,
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kGetCount,
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kGetCapacity,
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kGetElement,
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kGetElementAddress,
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kMakeMutable,
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kEndMutation,
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kMutateUnknown,
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kReserveCapacityForAppend,
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kWithUnsafeMutableBufferPointer,
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kAppendContentsOf,
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kAppendElement,
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// The following two semantic function kinds return the result @owned
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// instead of operating on self passed as parameter. If you are adding
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// a function, and it has a self parameter, make sure that it is defined
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// before this comment.
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kArrayInit,
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kArrayInitEmpty,
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kArrayUninitialized,
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kArrayUninitializedIntrinsic,
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kArrayFinalizeIntrinsic
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};
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/// Return true is the given function is an array semantics call.
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ArrayCallKind getArraySemanticsKind(SILFunction *f);
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/// Wrapper around array semantic calls.
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class ArraySemanticsCall {
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ApplyInst *SemanticsCall;
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void initialize(ApplyInst *apply, StringRef semanticString,
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bool matchPartialName);
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public:
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/// Match calls with any array semantic.
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template <class NodeTy>
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ArraySemanticsCall(NodeTy node)
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: ArraySemanticsCall(node, "array.", /*allow partial*/ true) {}
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/// Match calls with a specific array semantic.
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template <class NodeTy>
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ArraySemanticsCall(NodeTy node, StringRef semanticName)
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: ArraySemanticsCall(node, semanticName, /*allow partial*/ false) {}
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/// Match array semantic calls.
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ArraySemanticsCall(ApplyInst *apply, StringRef SemanticStr,
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bool MatchPartialName);
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/// Match array semantic calls.
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ArraySemanticsCall(SILInstruction *I, StringRef semanticName,
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bool matchPartialName);
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/// Match array semantic calls.
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ArraySemanticsCall(SILValue V, StringRef semanticName,
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bool matchPartialName);
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ArraySemanticsCall() : SemanticsCall(nullptr) {}
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/// Return the SemanticsCall
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ApplyInst *getInstruction() { return SemanticsCall; }
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/// Can we hoist this call.
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bool canHoist(SILInstruction *To, DominanceInfo *DT) const;
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/// Determine which kind of array semantics call this is.
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ArrayCallKind getKind() const;
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/// Does this semantic call has a self argument.
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///
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/// For example, kArrayInit and kArrayUninitialized don't.
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bool hasSelf() const;
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/// Does this instruction have guaranteed self.
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///
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/// Once +0 self is enabled, this can be removed in favor of just hasSelf()
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/// since all of these methods will have guaranteed self always.
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bool hasGuaranteedSelf() const;
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/// Get the self argument.
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SILValue getSelf() const;
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/// Get the self argument operand.
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Operand &getSelfOperand() const;
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/// Returns true if this array.get_element call returns the element
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/// as a direct result (and not as an indirect result).
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bool hasGetElementDirectResult() const;
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/// Returns the wasNativeTypeChecked argument of this
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/// array.get_element call.
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SILValue getTypeCheckedArgument() const;
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/// Returns the matchingSubscriptCheck argument of this
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/// array.get_element call.
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SILValue getSubscriptCheckArgument() const;
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/// Get the index for operations that have one.
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SILValue getIndex() const;
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/// Get the index as a constant if possible.
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llvm::Optional<int64_t> getConstantIndex() const;
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/// Get the array.props.isNativeTypeChecked argument.
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SILValue getArrayPropertyIsNativeTypeChecked() const;
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/// Get the count used for this array initialization.
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///
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/// Returns SILValue() if this is not an array initialization call or the call
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/// can't be parsed.
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SILValue getInitializationCount() const;
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/// Get the array value returned by an array initialization call.
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///
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/// Returns SILValue() if this is not an array initialization call.
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SILValue getArrayValue() const;
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/// Get the array element storage pointer returned by an array initialization
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/// call.
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///
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/// Returns SILValue() if this is not an array initialization call or the call
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/// can't be parsed.
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SILValue getArrayElementStoragePointer() const;
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/// Remove the semantics call replacing it by a release of any @owned
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/// parameter.
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void removeCall();
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/// Replace a call to get_element by a value.
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///
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/// Preconditions:
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/// The value \p V must dominate this get_element call.
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/// This must be a get_element call.
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///
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/// Returns true on success, false otherwise.
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bool replaceByValue(SILValue V);
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/// Replace a call to append(contentsOf: ) with a series of
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/// append(element: ) calls.
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bool replaceByAppendingValues(SILFunction *AppendFn,
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SILFunction *ReserveFn,
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const llvm::SmallVectorImpl<SILValue> &Vals,
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SubstitutionMap Subs);
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/// Hoist the call to the insert point.
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void hoist(SILInstruction *InsertBefore, DominanceInfo *DT) {
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hoistOrCopy(InsertBefore, DT, false);
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}
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/// Copy the call to the insert point and return the newly created call.
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ApplyInst *copyTo(SILInstruction *InsertBefore, DominanceInfo *DT) {
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return hoistOrCopy(InsertBefore, DT, true);
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}
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/// Get the semantics call as an ApplyInst.
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operator ApplyInst *() const { return SemanticsCall; }
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SILValue getCallResult() const { return SemanticsCall; }
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/// Is this a semantics call.
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operator bool() const { return SemanticsCall != nullptr; }
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/// Is this a call which is not used to mutate the array.
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bool doesNotChangeArray() const;
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/// Could this array be backed by an NSArray.
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bool mayHaveBridgedObjectElementType() const;
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/// Can this function be inlined by the early inliner.
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bool canInlineEarly() const;
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/// If this is a call to ArrayUninitialized (or
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/// ArrayUninitializedIntrinsic), identify the instructions that store
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/// elements into the array indices. For every index, add the store
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/// instruction that stores to that index to \p ElementStoreMap.
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///
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/// \returns true iff this is an "array.uninitialized" semantic call, and the
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/// stores into the array indices are identified and the \p ElementStoreMap is
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/// populated.
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///
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/// Note that this function does not support array initializations that use
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/// copy_addr, which implies that arrays with address-only types would not
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/// be recognized by this function as yet.
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bool mapInitializationStores(
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llvm::DenseMap<uint64_t, StoreInst *> &ElementStoreMap);
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protected:
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/// Validate the signature of this call.
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bool isValidSignature();
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/// Hoist or copy the call to the insert point. If LeaveOriginal is true the
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/// call is copied to the insert point. Returns the copied call.
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ApplyInst *hoistOrCopy(SILInstruction *InsertBefore, DominanceInfo *DT,
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bool LeaveOriginal);
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};
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} // end namespace swift
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#endif
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