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[chromium-blink-merge.git] / cc / base / scoped_ptr_vector.h
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1 // Copyright 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef CC_BASE_SCOPED_PTR_VECTOR_H_
6 #define CC_BASE_SCOPED_PTR_VECTOR_H_
8 #include <algorithm>
9 #include <vector>
11 #include "base/basictypes.h"
12 #include "base/logging.h"
13 #include "base/memory/scoped_ptr.h"
14 #include "base/stl_util.h"
16 namespace cc {
18 // This type acts like a vector<scoped_ptr> based on top of std::vector. The
19 // ScopedPtrVector has ownership of all elements in the vector.
20 template <typename T>
21 class ScopedPtrVector {
22 public:
23 typedef typename std::vector<T*>::const_iterator const_iterator;
24 typedef typename std::vector<T*>::reverse_iterator reverse_iterator;
25 typedef typename std::vector<T*>::const_reverse_iterator
26 const_reverse_iterator;
28 #if defined(OS_ANDROID)
29 // On Android the iterator is not a class, so we can't block assignment.
30 typedef typename std::vector<T*>::iterator iterator;
31 #else
32 // Ban setting values on the iterator directly. New pointers must be passed
33 // to methods on the ScopedPtrVector class to appear in the vector.
34 class iterator : public std::vector<T*>::iterator {
35 public:
36 iterator(const typename std::vector<T*>::iterator& other) // NOLINT
37 : std::vector<T*>::iterator(other) {}
38 T* const& operator*() { return std::vector<T*>::iterator::operator*(); }
40 #endif
42 ScopedPtrVector() {}
44 ~ScopedPtrVector() { clear(); }
46 size_t size() const {
47 return data_.size();
50 T* at(size_t index) const {
51 DCHECK(index < size());
52 return data_[index];
55 T* operator[](size_t index) const {
56 return at(index);
59 T* front() const {
60 DCHECK(!empty());
61 return at(0);
64 T* back() const {
65 DCHECK(!empty());
66 return at(size() - 1);
69 bool empty() const {
70 return data_.empty();
73 scoped_ptr<T> take(iterator position) {
74 if (position == end())
75 return nullptr;
76 DCHECK(position < end());
78 typename std::vector<T*>::iterator writable_position = position;
79 scoped_ptr<T> ret(*writable_position);
80 *writable_position = nullptr;
81 return ret.Pass();
84 scoped_ptr<T> take_back() {
85 DCHECK(!empty());
86 if (empty())
87 return nullptr;
88 return take(end() - 1);
91 void erase(iterator position) {
92 if (position == end())
93 return;
94 typename std::vector<T*>::iterator writable_position = position;
95 delete *writable_position;
96 data_.erase(position);
99 void erase(iterator first, iterator last) {
100 DCHECK(first <= last);
101 for (iterator it = first; it != last; ++it) {
102 DCHECK(it < end());
104 typename std::vector<T*>::iterator writable_it = it;
105 delete *writable_it;
107 data_.erase(first, last);
110 void reserve(size_t size) {
111 data_.reserve(size);
114 void clear() {
115 STLDeleteElements(&data_);
118 void push_back(scoped_ptr<T> item) {
119 data_.push_back(item.release());
122 void pop_back() {
123 delete data_.back();
124 data_.pop_back();
127 void insert(iterator position, scoped_ptr<T> item) {
128 DCHECK(position <= end());
129 data_.insert(position, item.release());
132 void insert_and_take(iterator position, ScopedPtrVector<T>* other) {
133 std::vector<T*> tmp_data;
134 for (ScopedPtrVector<T>::iterator it = other->begin(); it != other->end();
135 ++it) {
136 tmp_data.push_back(other->take(it).release());
138 data_.insert(position, tmp_data.begin(), tmp_data.end());
141 template <typename Predicate>
142 iterator partition(Predicate predicate) {
143 typename std::vector<T*>::iterator first = begin();
144 typename std::vector<T*>::iterator last = end();
145 return static_cast<iterator>(std::partition(first, last, predicate));
148 void swap(ScopedPtrVector<T>& other) {
149 data_.swap(other.data_);
152 void swap(iterator a, iterator b) {
153 DCHECK(a < end());
154 DCHECK(b < end());
155 if (a == end() || b == end() || a == b)
156 return;
157 typename std::vector<T*>::iterator writable_a = a;
158 typename std::vector<T*>::iterator writable_b = b;
159 std::swap(*writable_a, *writable_b);
162 // This acts like std::remove_if but with one key difference. The values to be
163 // removed to will each appear exactly once at or after the returned iterator,
164 // so that erase(foo.remove_if(P), foo.end()) will not leak or double-free the
165 // pointers in the vector.
166 template <typename Predicate>
167 iterator remove_if(Predicate predicate) {
168 typename std::vector<T*>::iterator it =
169 std::find_if(data_.begin(), data_.end(), predicate);
170 typename std::vector<T*>::iterator end = data_.end();
171 if (it == end)
172 return it;
173 typename std::vector<T*>::iterator result = it;
174 ++it;
175 for (; it != end; ++it) {
176 if (!static_cast<bool>(predicate(*it))) {
177 // Swap here instead of just assign to |result| so that all the
178 // pointers are preserved to be deleted afterward.
179 std::swap(*result, *it);
180 ++result;
183 return result;
186 template<class Compare>
187 inline void sort(Compare comp) {
188 std::sort(data_.begin(), data_.end(), comp);
191 template <class Compare>
192 inline void make_heap(Compare comp) {
193 std::make_heap(data_.begin(), data_.end(), comp);
196 template <class Compare>
197 inline void push_heap(Compare comp) {
198 std::push_heap(data_.begin(), data_.end(), comp);
201 template <class Compare>
202 inline void pop_heap(Compare comp) {
203 std::pop_heap(data_.begin(), data_.end(), comp);
206 iterator begin() { return static_cast<iterator>(data_.begin()); }
207 const_iterator begin() const { return data_.begin(); }
208 iterator end() { return static_cast<iterator>(data_.end()); }
209 const_iterator end() const { return data_.end(); }
211 reverse_iterator rbegin() { return data_.rbegin(); }
212 const_reverse_iterator rbegin() const { return data_.rbegin(); }
213 reverse_iterator rend() { return data_.rend(); }
214 const_reverse_iterator rend() const { return data_.rend(); }
216 private:
217 std::vector<T*> data_;
219 DISALLOW_COPY_AND_ASSIGN(ScopedPtrVector);
222 } // namespace cc
224 #endif // CC_BASE_SCOPED_PTR_VECTOR_H_