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a162363827
Reviewed By: tellenbach Differential Revision: https://reviews.llvm.org/D69429
512 lines
17 KiB
C++
512 lines
17 KiB
C++
//===- llvm/ADT/SmallPtrSet.h - 'Normally small' pointer set ----*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines the SmallPtrSet class. See the doxygen comment for
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// SmallPtrSetImplBase for more details on the algorithm used.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ADT_SMALLPTRSET_H
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#define LLVM_ADT_SMALLPTRSET_H
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#include "llvm/ADT/EpochTracker.h"
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#include "llvm/Support/Compiler.h"
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#include "llvm/Support/ReverseIteration.h"
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#include "llvm/Support/type_traits.h"
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#include <cassert>
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#include <cstddef>
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#include <cstdlib>
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#include <cstring>
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#include <initializer_list>
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#include <iterator>
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#include <utility>
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namespace llvm {
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/// SmallPtrSetImplBase - This is the common code shared among all the
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/// SmallPtrSet<>'s, which is almost everything. SmallPtrSet has two modes, one
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/// for small and one for large sets.
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///
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/// Small sets use an array of pointers allocated in the SmallPtrSet object,
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/// which is treated as a simple array of pointers. When a pointer is added to
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/// the set, the array is scanned to see if the element already exists, if not
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/// the element is 'pushed back' onto the array. If we run out of space in the
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/// array, we grow into the 'large set' case. SmallSet should be used when the
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/// sets are often small. In this case, no memory allocation is used, and only
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/// light-weight and cache-efficient scanning is used.
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///
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/// Large sets use a classic exponentially-probed hash table. Empty buckets are
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/// represented with an illegal pointer value (-1) to allow null pointers to be
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/// inserted. Tombstones are represented with another illegal pointer value
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/// (-2), to allow deletion. The hash table is resized when the table is 3/4 or
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/// more. When this happens, the table is doubled in size.
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///
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class SmallPtrSetImplBase : public DebugEpochBase {
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friend class SmallPtrSetIteratorImpl;
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protected:
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/// SmallArray - Points to a fixed size set of buckets, used in 'small mode'.
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const void **SmallArray;
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/// CurArray - This is the current set of buckets. If equal to SmallArray,
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/// then the set is in 'small mode'.
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const void **CurArray;
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/// CurArraySize - The allocated size of CurArray, always a power of two.
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unsigned CurArraySize;
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/// Number of elements in CurArray that contain a value or are a tombstone.
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/// If small, all these elements are at the beginning of CurArray and the rest
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/// is uninitialized.
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unsigned NumNonEmpty;
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/// Number of tombstones in CurArray.
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unsigned NumTombstones;
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// Helpers to copy and move construct a SmallPtrSet.
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SmallPtrSetImplBase(const void **SmallStorage,
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const SmallPtrSetImplBase &that);
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SmallPtrSetImplBase(const void **SmallStorage, unsigned SmallSize,
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SmallPtrSetImplBase &&that);
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explicit SmallPtrSetImplBase(const void **SmallStorage, unsigned SmallSize)
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: SmallArray(SmallStorage), CurArray(SmallStorage),
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CurArraySize(SmallSize), NumNonEmpty(0), NumTombstones(0) {
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assert(SmallSize && (SmallSize & (SmallSize-1)) == 0 &&
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"Initial size must be a power of two!");
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}
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~SmallPtrSetImplBase() {
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if (!isSmall())
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free(CurArray);
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}
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public:
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using size_type = unsigned;
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SmallPtrSetImplBase &operator=(const SmallPtrSetImplBase &) = delete;
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LLVM_NODISCARD bool empty() const { return size() == 0; }
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size_type size() const { return NumNonEmpty - NumTombstones; }
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void clear() {
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incrementEpoch();
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// If the capacity of the array is huge, and the # elements used is small,
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// shrink the array.
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if (!isSmall()) {
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if (size() * 4 < CurArraySize && CurArraySize > 32)
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return shrink_and_clear();
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// Fill the array with empty markers.
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memset(CurArray, -1, CurArraySize * sizeof(void *));
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}
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NumNonEmpty = 0;
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NumTombstones = 0;
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}
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protected:
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static void *getTombstoneMarker() { return reinterpret_cast<void*>(-2); }
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static void *getEmptyMarker() {
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// Note that -1 is chosen to make clear() efficiently implementable with
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// memset and because it's not a valid pointer value.
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return reinterpret_cast<void*>(-1);
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}
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const void **EndPointer() const {
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return isSmall() ? CurArray + NumNonEmpty : CurArray + CurArraySize;
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}
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/// insert_imp - This returns true if the pointer was new to the set, false if
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/// it was already in the set. This is hidden from the client so that the
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/// derived class can check that the right type of pointer is passed in.
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std::pair<const void *const *, bool> insert_imp(const void *Ptr) {
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if (isSmall()) {
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// Check to see if it is already in the set.
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const void **LastTombstone = nullptr;
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for (const void **APtr = SmallArray, **E = SmallArray + NumNonEmpty;
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APtr != E; ++APtr) {
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const void *Value = *APtr;
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if (Value == Ptr)
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return std::make_pair(APtr, false);
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if (Value == getTombstoneMarker())
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LastTombstone = APtr;
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}
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// Did we find any tombstone marker?
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if (LastTombstone != nullptr) {
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*LastTombstone = Ptr;
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--NumTombstones;
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incrementEpoch();
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return std::make_pair(LastTombstone, true);
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}
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// Nope, there isn't. If we stay small, just 'pushback' now.
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if (NumNonEmpty < CurArraySize) {
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SmallArray[NumNonEmpty++] = Ptr;
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incrementEpoch();
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return std::make_pair(SmallArray + (NumNonEmpty - 1), true);
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}
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// Otherwise, hit the big set case, which will call grow.
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}
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return insert_imp_big(Ptr);
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}
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/// erase_imp - If the set contains the specified pointer, remove it and
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/// return true, otherwise return false. This is hidden from the client so
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/// that the derived class can check that the right type of pointer is passed
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/// in.
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bool erase_imp(const void * Ptr) {
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const void *const *P = find_imp(Ptr);
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if (P == EndPointer())
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return false;
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const void **Loc = const_cast<const void **>(P);
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assert(*Loc == Ptr && "broken find!");
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*Loc = getTombstoneMarker();
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NumTombstones++;
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return true;
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}
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/// Returns the raw pointer needed to construct an iterator. If element not
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/// found, this will be EndPointer. Otherwise, it will be a pointer to the
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/// slot which stores Ptr;
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const void *const * find_imp(const void * Ptr) const {
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if (isSmall()) {
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// Linear search for the item.
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for (const void *const *APtr = SmallArray,
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*const *E = SmallArray + NumNonEmpty; APtr != E; ++APtr)
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if (*APtr == Ptr)
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return APtr;
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return EndPointer();
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}
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// Big set case.
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auto *Bucket = FindBucketFor(Ptr);
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if (*Bucket == Ptr)
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return Bucket;
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return EndPointer();
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}
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private:
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bool isSmall() const { return CurArray == SmallArray; }
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std::pair<const void *const *, bool> insert_imp_big(const void *Ptr);
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const void * const *FindBucketFor(const void *Ptr) const;
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void shrink_and_clear();
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/// Grow - Allocate a larger backing store for the buckets and move it over.
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void Grow(unsigned NewSize);
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protected:
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/// swap - Swaps the elements of two sets.
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/// Note: This method assumes that both sets have the same small size.
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void swap(SmallPtrSetImplBase &RHS);
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void CopyFrom(const SmallPtrSetImplBase &RHS);
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void MoveFrom(unsigned SmallSize, SmallPtrSetImplBase &&RHS);
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private:
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/// Code shared by MoveFrom() and move constructor.
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void MoveHelper(unsigned SmallSize, SmallPtrSetImplBase &&RHS);
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/// Code shared by CopyFrom() and copy constructor.
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void CopyHelper(const SmallPtrSetImplBase &RHS);
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};
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/// SmallPtrSetIteratorImpl - This is the common base class shared between all
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/// instances of SmallPtrSetIterator.
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class SmallPtrSetIteratorImpl {
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protected:
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const void *const *Bucket;
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const void *const *End;
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public:
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explicit SmallPtrSetIteratorImpl(const void *const *BP, const void*const *E)
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: Bucket(BP), End(E) {
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if (shouldReverseIterate()) {
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RetreatIfNotValid();
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return;
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}
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AdvanceIfNotValid();
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}
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bool operator==(const SmallPtrSetIteratorImpl &RHS) const {
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return Bucket == RHS.Bucket;
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}
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bool operator!=(const SmallPtrSetIteratorImpl &RHS) const {
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return Bucket != RHS.Bucket;
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}
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protected:
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/// AdvanceIfNotValid - If the current bucket isn't valid, advance to a bucket
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/// that is. This is guaranteed to stop because the end() bucket is marked
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/// valid.
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void AdvanceIfNotValid() {
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assert(Bucket <= End);
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while (Bucket != End &&
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(*Bucket == SmallPtrSetImplBase::getEmptyMarker() ||
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*Bucket == SmallPtrSetImplBase::getTombstoneMarker()))
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++Bucket;
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}
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void RetreatIfNotValid() {
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assert(Bucket >= End);
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while (Bucket != End &&
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(Bucket[-1] == SmallPtrSetImplBase::getEmptyMarker() ||
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Bucket[-1] == SmallPtrSetImplBase::getTombstoneMarker())) {
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--Bucket;
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}
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}
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};
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/// SmallPtrSetIterator - This implements a const_iterator for SmallPtrSet.
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template <typename PtrTy>
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class SmallPtrSetIterator : public SmallPtrSetIteratorImpl,
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DebugEpochBase::HandleBase {
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using PtrTraits = PointerLikeTypeTraits<PtrTy>;
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public:
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using value_type = PtrTy;
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using reference = PtrTy;
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using pointer = PtrTy;
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using difference_type = std::ptrdiff_t;
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using iterator_category = std::forward_iterator_tag;
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explicit SmallPtrSetIterator(const void *const *BP, const void *const *E,
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const DebugEpochBase &Epoch)
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: SmallPtrSetIteratorImpl(BP, E), DebugEpochBase::HandleBase(&Epoch) {}
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// Most methods provided by baseclass.
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const PtrTy operator*() const {
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assert(isHandleInSync() && "invalid iterator access!");
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if (shouldReverseIterate()) {
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assert(Bucket > End);
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return PtrTraits::getFromVoidPointer(const_cast<void *>(Bucket[-1]));
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}
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assert(Bucket < End);
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return PtrTraits::getFromVoidPointer(const_cast<void*>(*Bucket));
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}
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inline SmallPtrSetIterator& operator++() { // Preincrement
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assert(isHandleInSync() && "invalid iterator access!");
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if (shouldReverseIterate()) {
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--Bucket;
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RetreatIfNotValid();
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return *this;
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}
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++Bucket;
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AdvanceIfNotValid();
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return *this;
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}
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SmallPtrSetIterator operator++(int) { // Postincrement
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SmallPtrSetIterator tmp = *this;
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++*this;
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return tmp;
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}
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};
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/// RoundUpToPowerOfTwo - This is a helper template that rounds N up to the next
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/// power of two (which means N itself if N is already a power of two).
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template<unsigned N>
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struct RoundUpToPowerOfTwo;
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/// RoundUpToPowerOfTwoH - If N is not a power of two, increase it. This is a
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/// helper template used to implement RoundUpToPowerOfTwo.
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template<unsigned N, bool isPowerTwo>
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struct RoundUpToPowerOfTwoH {
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enum { Val = N };
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};
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template<unsigned N>
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struct RoundUpToPowerOfTwoH<N, false> {
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enum {
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// We could just use NextVal = N+1, but this converges faster. N|(N-1) sets
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// the right-most zero bits to one all at once, e.g. 0b0011000 -> 0b0011111.
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Val = RoundUpToPowerOfTwo<(N|(N-1)) + 1>::Val
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};
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};
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template<unsigned N>
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struct RoundUpToPowerOfTwo {
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enum { Val = RoundUpToPowerOfTwoH<N, (N&(N-1)) == 0>::Val };
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};
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/// A templated base class for \c SmallPtrSet which provides the
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/// typesafe interface that is common across all small sizes.
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///
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/// This is particularly useful for passing around between interface boundaries
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/// to avoid encoding a particular small size in the interface boundary.
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template <typename PtrType>
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class SmallPtrSetImpl : public SmallPtrSetImplBase {
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using ConstPtrType = typename add_const_past_pointer<PtrType>::type;
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using PtrTraits = PointerLikeTypeTraits<PtrType>;
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using ConstPtrTraits = PointerLikeTypeTraits<ConstPtrType>;
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protected:
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// Constructors that forward to the base.
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SmallPtrSetImpl(const void **SmallStorage, const SmallPtrSetImpl &that)
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: SmallPtrSetImplBase(SmallStorage, that) {}
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SmallPtrSetImpl(const void **SmallStorage, unsigned SmallSize,
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SmallPtrSetImpl &&that)
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: SmallPtrSetImplBase(SmallStorage, SmallSize, std::move(that)) {}
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explicit SmallPtrSetImpl(const void **SmallStorage, unsigned SmallSize)
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: SmallPtrSetImplBase(SmallStorage, SmallSize) {}
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public:
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using iterator = SmallPtrSetIterator<PtrType>;
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using const_iterator = SmallPtrSetIterator<PtrType>;
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using key_type = ConstPtrType;
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using value_type = PtrType;
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SmallPtrSetImpl(const SmallPtrSetImpl &) = delete;
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/// Inserts Ptr if and only if there is no element in the container equal to
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/// Ptr. The bool component of the returned pair is true if and only if the
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/// insertion takes place, and the iterator component of the pair points to
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/// the element equal to Ptr.
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std::pair<iterator, bool> insert(PtrType Ptr) {
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auto p = insert_imp(PtrTraits::getAsVoidPointer(Ptr));
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return std::make_pair(makeIterator(p.first), p.second);
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}
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/// erase - If the set contains the specified pointer, remove it and return
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/// true, otherwise return false.
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bool erase(PtrType Ptr) {
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return erase_imp(PtrTraits::getAsVoidPointer(Ptr));
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}
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/// count - Return 1 if the specified pointer is in the set, 0 otherwise.
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size_type count(ConstPtrType Ptr) const { return find(Ptr) != end() ? 1 : 0; }
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iterator find(ConstPtrType Ptr) const {
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return makeIterator(find_imp(ConstPtrTraits::getAsVoidPointer(Ptr)));
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}
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template <typename IterT>
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void insert(IterT I, IterT E) {
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for (; I != E; ++I)
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insert(*I);
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}
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void insert(std::initializer_list<PtrType> IL) {
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insert(IL.begin(), IL.end());
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}
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iterator begin() const {
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if (shouldReverseIterate())
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return makeIterator(EndPointer() - 1);
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return makeIterator(CurArray);
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}
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iterator end() const { return makeIterator(EndPointer()); }
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private:
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/// Create an iterator that dereferences to same place as the given pointer.
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iterator makeIterator(const void *const *P) const {
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if (shouldReverseIterate())
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return iterator(P == EndPointer() ? CurArray : P + 1, CurArray, *this);
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return iterator(P, EndPointer(), *this);
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}
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};
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/// Equality comparison for SmallPtrSet.
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///
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/// Iterates over elements of LHS confirming that each value from LHS is also in
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/// RHS, and that no additional values are in RHS.
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template <typename PtrType>
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bool operator==(const SmallPtrSetImpl<PtrType> &LHS,
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const SmallPtrSetImpl<PtrType> &RHS) {
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if (LHS.size() != RHS.size())
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return false;
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for (const auto *KV : LHS)
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if (!RHS.count(KV))
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return false;
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return true;
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}
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/// Inequality comparison for SmallPtrSet.
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///
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/// Equivalent to !(LHS == RHS).
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template <typename PtrType>
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bool operator!=(const SmallPtrSetImpl<PtrType> &LHS,
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const SmallPtrSetImpl<PtrType> &RHS) {
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return !(LHS == RHS);
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}
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/// SmallPtrSet - This class implements a set which is optimized for holding
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/// SmallSize or less elements. This internally rounds up SmallSize to the next
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/// power of two if it is not already a power of two. See the comments above
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/// SmallPtrSetImplBase for details of the algorithm.
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template<class PtrType, unsigned SmallSize>
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class SmallPtrSet : public SmallPtrSetImpl<PtrType> {
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// In small mode SmallPtrSet uses linear search for the elements, so it is
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// not a good idea to choose this value too high. You may consider using a
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// DenseSet<> instead if you expect many elements in the set.
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static_assert(SmallSize <= 32, "SmallSize should be small");
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using BaseT = SmallPtrSetImpl<PtrType>;
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// Make sure that SmallSize is a power of two, round up if not.
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enum { SmallSizePowTwo = RoundUpToPowerOfTwo<SmallSize>::Val };
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/// SmallStorage - Fixed size storage used in 'small mode'.
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const void *SmallStorage[SmallSizePowTwo];
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public:
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SmallPtrSet() : BaseT(SmallStorage, SmallSizePowTwo) {}
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SmallPtrSet(const SmallPtrSet &that) : BaseT(SmallStorage, that) {}
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SmallPtrSet(SmallPtrSet &&that)
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: BaseT(SmallStorage, SmallSizePowTwo, std::move(that)) {}
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template<typename It>
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SmallPtrSet(It I, It E) : BaseT(SmallStorage, SmallSizePowTwo) {
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this->insert(I, E);
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}
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SmallPtrSet(std::initializer_list<PtrType> IL)
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: BaseT(SmallStorage, SmallSizePowTwo) {
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this->insert(IL.begin(), IL.end());
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}
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SmallPtrSet<PtrType, SmallSize> &
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operator=(const SmallPtrSet<PtrType, SmallSize> &RHS) {
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if (&RHS != this)
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this->CopyFrom(RHS);
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return *this;
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}
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SmallPtrSet<PtrType, SmallSize> &
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operator=(SmallPtrSet<PtrType, SmallSize> &&RHS) {
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if (&RHS != this)
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this->MoveFrom(SmallSizePowTwo, std::move(RHS));
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return *this;
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}
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SmallPtrSet<PtrType, SmallSize> &
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operator=(std::initializer_list<PtrType> IL) {
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this->clear();
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this->insert(IL.begin(), IL.end());
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return *this;
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}
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/// swap - Swaps the elements of two sets.
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void swap(SmallPtrSet<PtrType, SmallSize> &RHS) {
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SmallPtrSetImplBase::swap(RHS);
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}
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};
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} // end namespace llvm
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namespace std {
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/// Implement std::swap in terms of SmallPtrSet swap.
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template<class T, unsigned N>
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inline void swap(llvm::SmallPtrSet<T, N> &LHS, llvm::SmallPtrSet<T, N> &RHS) {
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LHS.swap(RHS);
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}
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} // end namespace std
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#endif // LLVM_ADT_SMALLPTRSET_H
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