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llvm-mirror/include/llvm/ADT/DenseSet.h

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//===- llvm/ADT/DenseSet.h - Dense probed hash table ------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the DenseSet and SmallDenseSet classes.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_ADT_DENSESET_H
#define LLVM_ADT_DENSESET_H
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/DenseMapInfo.h"
#include "llvm/Support/type_traits.h"
#include <algorithm>
#include <cstddef>
#include <initializer_list>
#include <iterator>
#include <utility>
namespace llvm {
namespace detail {
struct DenseSetEmpty {};
// Use the empty base class trick so we can create a DenseMap where the buckets
// contain only a single item.
template <typename KeyT> class DenseSetPair : public DenseSetEmpty {
KeyT key;
public:
KeyT &getFirst() { return key; }
const KeyT &getFirst() const { return key; }
DenseSetEmpty &getSecond() { return *this; }
const DenseSetEmpty &getSecond() const { return *this; }
};
/// Base class for DenseSet and DenseSmallSet.
///
/// MapTy should be either
///
/// DenseMap<ValueT, detail::DenseSetEmpty, ValueInfoT,
/// detail::DenseSetPair<ValueT>>
///
/// or the equivalent SmallDenseMap type. ValueInfoT must implement the
/// DenseMapInfo "concept".
template <typename ValueT, typename MapTy, typename ValueInfoT>
class DenseSetImpl {
static_assert(sizeof(typename MapTy::value_type) == sizeof(ValueT),
"DenseMap buckets unexpectedly large!");
MapTy TheMap;
template <typename T>
using const_arg_type_t = typename const_pointer_or_const_ref<T>::type;
public:
using key_type = ValueT;
using value_type = ValueT;
using size_type = unsigned;
explicit DenseSetImpl(unsigned InitialReserve = 0) : TheMap(InitialReserve) {}
DenseSetImpl(std::initializer_list<ValueT> Elems)
: DenseSetImpl(Elems.size()) {
insert(Elems.begin(), Elems.end());
}
bool empty() const { return TheMap.empty(); }
size_type size() const { return TheMap.size(); }
size_t getMemorySize() const { return TheMap.getMemorySize(); }
/// Grow the DenseSet so that it has at least Size buckets. Will not shrink
/// the Size of the set.
void resize(size_t Size) { TheMap.resize(Size); }
/// Grow the DenseSet so that it can contain at least \p NumEntries items
/// before resizing again.
void reserve(size_t Size) { TheMap.reserve(Size); }
void clear() {
TheMap.clear();
}
/// Return 1 if the specified key is in the set, 0 otherwise.
size_type count(const_arg_type_t<ValueT> V) const {
return TheMap.count(V);
}
bool erase(const ValueT &V) {
return TheMap.erase(V);
}
void swap(DenseSetImpl &RHS) { TheMap.swap(RHS.TheMap); }
// Iterators.
class ConstIterator;
class Iterator {
typename MapTy::iterator I;
friend class DenseSetImpl;
friend class ConstIterator;
public:
using difference_type = typename MapTy::iterator::difference_type;
using value_type = ValueT;
using pointer = value_type *;
using reference = value_type &;
using iterator_category = std::forward_iterator_tag;
Iterator() = default;
Iterator(const typename MapTy::iterator &i) : I(i) {}
ValueT &operator*() { return I->getFirst(); }
const ValueT &operator*() const { return I->getFirst(); }
ValueT *operator->() { return &I->getFirst(); }
const ValueT *operator->() const { return &I->getFirst(); }
Iterator& operator++() { ++I; return *this; }
Iterator operator++(int) { auto T = *this; ++I; return T; }
bool operator==(const ConstIterator& X) const { return I == X.I; }
bool operator!=(const ConstIterator& X) const { return I != X.I; }
};
class ConstIterator {
typename MapTy::const_iterator I;
friend class DenseSet;
friend class Iterator;
public:
using difference_type = typename MapTy::const_iterator::difference_type;
using value_type = ValueT;
using pointer = value_type *;
using reference = value_type &;
using iterator_category = std::forward_iterator_tag;
ConstIterator() = default;
ConstIterator(const Iterator &B) : I(B.I) {}
ConstIterator(const typename MapTy::const_iterator &i) : I(i) {}
const ValueT &operator*() const { return I->getFirst(); }
const ValueT *operator->() const { return &I->getFirst(); }
ConstIterator& operator++() { ++I; return *this; }
ConstIterator operator++(int) { auto T = *this; ++I; return T; }
bool operator==(const ConstIterator& X) const { return I == X.I; }
bool operator!=(const ConstIterator& X) const { return I != X.I; }
};
using iterator = Iterator;
using const_iterator = ConstIterator;
iterator begin() { return Iterator(TheMap.begin()); }
iterator end() { return Iterator(TheMap.end()); }
const_iterator begin() const { return ConstIterator(TheMap.begin()); }
const_iterator end() const { return ConstIterator(TheMap.end()); }
iterator find(const_arg_type_t<ValueT> V) { return Iterator(TheMap.find(V)); }
const_iterator find(const_arg_type_t<ValueT> V) const {
return ConstIterator(TheMap.find(V));
}
/// Alternative version of find() which allows a different, and possibly less
/// expensive, key type.
/// The DenseMapInfo is responsible for supplying methods
/// getHashValue(LookupKeyT) and isEqual(LookupKeyT, KeyT) for each key type
/// used.
template <class LookupKeyT>
iterator find_as(const LookupKeyT &Val) {
return Iterator(TheMap.find_as(Val));
}
template <class LookupKeyT>
const_iterator find_as(const LookupKeyT &Val) const {
return ConstIterator(TheMap.find_as(Val));
}
void erase(Iterator I) { return TheMap.erase(I.I); }
void erase(ConstIterator CI) { return TheMap.erase(CI.I); }
std::pair<iterator, bool> insert(const ValueT &V) {
detail::DenseSetEmpty Empty;
return TheMap.try_emplace(V, Empty);
}
std::pair<iterator, bool> insert(ValueT &&V) {
detail::DenseSetEmpty Empty;
return TheMap.try_emplace(std::move(V), Empty);
}
/// Alternative version of insert that uses a different (and possibly less
/// expensive) key type.
template <typename LookupKeyT>
std::pair<iterator, bool> insert_as(const ValueT &V,
const LookupKeyT &LookupKey) {
return TheMap.insert_as({V, detail::DenseSetEmpty()}, LookupKey);
}
template <typename LookupKeyT>
std::pair<iterator, bool> insert_as(ValueT &&V, const LookupKeyT &LookupKey) {
return TheMap.insert_as({std::move(V), detail::DenseSetEmpty()}, LookupKey);
}
// Range insertion of values.
template<typename InputIt>
void insert(InputIt I, InputIt E) {
for (; I != E; ++I)
insert(*I);
}
};
} // end namespace detail
/// Implements a dense probed hash-table based set.
template <typename ValueT, typename ValueInfoT = DenseMapInfo<ValueT>>
class DenseSet : public detail::DenseSetImpl<
ValueT, DenseMap<ValueT, detail::DenseSetEmpty, ValueInfoT,
detail::DenseSetPair<ValueT>>,
ValueInfoT> {
using BaseT =
detail::DenseSetImpl<ValueT,
DenseMap<ValueT, detail::DenseSetEmpty, ValueInfoT,
detail::DenseSetPair<ValueT>>,
ValueInfoT>;
public:
using BaseT::BaseT;
};
/// Implements a dense probed hash-table based set with some number of buckets
/// stored inline.
template <typename ValueT, unsigned InlineBuckets = 4,
typename ValueInfoT = DenseMapInfo<ValueT>>
class SmallDenseSet
: public detail::DenseSetImpl<
ValueT, SmallDenseMap<ValueT, detail::DenseSetEmpty, InlineBuckets,
ValueInfoT, detail::DenseSetPair<ValueT>>,
ValueInfoT> {
using BaseT = detail::DenseSetImpl<
ValueT, SmallDenseMap<ValueT, detail::DenseSetEmpty, InlineBuckets,
ValueInfoT, detail::DenseSetPair<ValueT>>,
ValueInfoT>;
public:
using BaseT::BaseT;
};
} // end namespace llvm
#endif // LLVM_ADT_DENSESET_H
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