266 lines
8.1 KiB
C++
266 lines
8.1 KiB
C++
//===- PriorityWorklist.h - Worklist with insertion priority ----*- 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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/// \file
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///
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/// This file provides a priority worklist. See the class comments for details.
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///
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ADT_PRIORITYWORKLIST_H
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#define LLVM_ADT_PRIORITYWORKLIST_H
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/Support/Compiler.h"
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#include <algorithm>
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#include <cassert>
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#include <cstddef>
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#include <iterator>
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#include <type_traits>
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#include <vector>
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namespace llvm {
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/// A FILO worklist that prioritizes on re-insertion without duplication.
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///
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/// This is very similar to a \c SetVector with the primary difference that
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/// while re-insertion does not create a duplicate, it does adjust the
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/// visitation order to respect the last insertion point. This can be useful
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/// when the visit order needs to be prioritized based on insertion point
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/// without actually having duplicate visits.
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///
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/// Note that this doesn't prevent re-insertion of elements which have been
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/// visited -- if you need to break cycles, a set will still be necessary.
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///
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/// The type \c T must be default constructable to a null value that will be
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/// ignored. It is an error to insert such a value, and popping elements will
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/// never produce such a value. It is expected to be used with common nullable
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/// types like pointers or optionals.
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///
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/// Internally this uses a vector to store the worklist and a map to identify
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/// existing elements in the worklist. Both of these may be customized, but the
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/// map must support the basic DenseMap API for mapping from a T to an integer
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/// index into the vector.
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///
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/// A partial specialization is provided to automatically select a SmallVector
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/// and a SmallDenseMap if custom data structures are not provided.
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template <typename T, typename VectorT = std::vector<T>,
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typename MapT = DenseMap<T, ptrdiff_t>>
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class PriorityWorklist {
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public:
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using value_type = T;
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using key_type = T;
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using reference = T&;
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using const_reference = const T&;
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using size_type = typename MapT::size_type;
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/// Construct an empty PriorityWorklist
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PriorityWorklist() = default;
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/// Determine if the PriorityWorklist is empty or not.
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bool empty() const {
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return V.empty();
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}
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/// Returns the number of elements in the worklist.
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size_type size() const {
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return M.size();
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}
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/// Count the number of elements of a given key in the PriorityWorklist.
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/// \returns 0 if the element is not in the PriorityWorklist, 1 if it is.
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size_type count(const key_type &key) const {
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return M.count(key);
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}
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/// Return the last element of the PriorityWorklist.
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const T &back() const {
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assert(!empty() && "Cannot call back() on empty PriorityWorklist!");
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return V.back();
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}
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/// Insert a new element into the PriorityWorklist.
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/// \returns true if the element was inserted into the PriorityWorklist.
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bool insert(const T &X) {
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assert(X != T() && "Cannot insert a null (default constructed) value!");
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auto InsertResult = M.insert({X, V.size()});
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if (InsertResult.second) {
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// Fresh value, just append it to the vector.
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V.push_back(X);
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return true;
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}
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auto &Index = InsertResult.first->second;
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assert(V[Index] == X && "Value not actually at index in map!");
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if (Index != (ptrdiff_t)(V.size() - 1)) {
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// If the element isn't at the back, null it out and append a fresh one.
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V[Index] = T();
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Index = (ptrdiff_t)V.size();
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V.push_back(X);
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}
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return false;
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}
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/// Insert a sequence of new elements into the PriorityWorklist.
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template <typename SequenceT>
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std::enable_if_t<!std::is_convertible<SequenceT, T>::value>
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insert(SequenceT &&Input) {
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if (std::begin(Input) == std::end(Input))
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// Nothing to do for an empty input sequence.
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return;
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// First pull the input sequence into the vector as a bulk append
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// operation.
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ptrdiff_t StartIndex = V.size();
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V.insert(V.end(), std::begin(Input), std::end(Input));
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// Now walk backwards fixing up the index map and deleting any duplicates.
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for (ptrdiff_t i = V.size() - 1; i >= StartIndex; --i) {
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auto InsertResult = M.insert({V[i], i});
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if (InsertResult.second)
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continue;
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// If the existing index is before this insert's start, nuke that one and
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// move it up.
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ptrdiff_t &Index = InsertResult.first->second;
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if (Index < StartIndex) {
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V[Index] = T();
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Index = i;
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continue;
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}
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// Otherwise the existing one comes first so just clear out the value in
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// this slot.
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V[i] = T();
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}
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}
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/// Remove the last element of the PriorityWorklist.
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void pop_back() {
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assert(!empty() && "Cannot remove an element when empty!");
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assert(back() != T() && "Cannot have a null element at the back!");
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M.erase(back());
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do {
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V.pop_back();
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} while (!V.empty() && V.back() == T());
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}
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LLVM_NODISCARD T pop_back_val() {
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T Ret = back();
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pop_back();
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return Ret;
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}
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/// Erase an item from the worklist.
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///
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/// Note that this is constant time due to the nature of the worklist implementation.
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bool erase(const T& X) {
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auto I = M.find(X);
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if (I == M.end())
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return false;
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assert(V[I->second] == X && "Value not actually at index in map!");
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if (I->second == (ptrdiff_t)(V.size() - 1)) {
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do {
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V.pop_back();
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} while (!V.empty() && V.back() == T());
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} else {
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V[I->second] = T();
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}
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M.erase(I);
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return true;
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}
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/// Erase items from the set vector based on a predicate function.
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///
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/// This is intended to be equivalent to the following code, if we could
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/// write it:
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///
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/// \code
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/// V.erase(remove_if(V, P), V.end());
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/// \endcode
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///
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/// However, PriorityWorklist doesn't expose non-const iterators, making any
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/// algorithm like remove_if impossible to use.
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///
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/// \returns true if any element is removed.
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template <typename UnaryPredicate>
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bool erase_if(UnaryPredicate P) {
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typename VectorT::iterator E =
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remove_if(V, TestAndEraseFromMap<UnaryPredicate>(P, M));
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if (E == V.end())
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return false;
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for (auto I = V.begin(); I != E; ++I)
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if (*I != T())
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M[*I] = I - V.begin();
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V.erase(E, V.end());
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return true;
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}
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/// Reverse the items in the PriorityWorklist.
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///
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/// This does an in-place reversal. Other kinds of reverse aren't easy to
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/// support in the face of the worklist semantics.
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/// Completely clear the PriorityWorklist
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void clear() {
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M.clear();
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V.clear();
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}
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private:
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/// A wrapper predicate designed for use with std::remove_if.
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///
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/// This predicate wraps a predicate suitable for use with std::remove_if to
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/// call M.erase(x) on each element which is slated for removal. This just
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/// allows the predicate to be move only which we can't do with lambdas
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/// today.
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template <typename UnaryPredicateT>
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class TestAndEraseFromMap {
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UnaryPredicateT P;
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MapT &M;
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public:
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TestAndEraseFromMap(UnaryPredicateT P, MapT &M)
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: P(std::move(P)), M(M) {}
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bool operator()(const T &Arg) {
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if (Arg == T())
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// Skip null values in the PriorityWorklist.
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return false;
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if (P(Arg)) {
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M.erase(Arg);
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return true;
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}
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return false;
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}
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};
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/// The map from value to index in the vector.
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MapT M;
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/// The vector of elements in insertion order.
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VectorT V;
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};
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/// A version of \c PriorityWorklist that selects small size optimized data
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/// structures for the vector and map.
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template <typename T, unsigned N>
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class SmallPriorityWorklist
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: public PriorityWorklist<T, SmallVector<T, N>,
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SmallDenseMap<T, ptrdiff_t>> {
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public:
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SmallPriorityWorklist() = default;
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};
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} // end namespace llvm
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#endif // LLVM_ADT_PRIORITYWORKLIST_H
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