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chromium / chromium / src / 4380217c0aa51adff8f624ba412e415e6493413a / . / cc / base / list_container.h
blob: ac7b820fffded32d0b903a96f18cf4ddef257148 [file] [log] [blame]
// Copyright 2014 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef CC_BASE_LIST_CONTAINER_H_
#define CC_BASE_LIST_CONTAINER_H_
#include <stddef.h>
#include <memory>
#include "base/logging.h"
#include "base/macros.h"
#include "cc/base/list_container_helper.h"
namespace cc {
// ListContainer is a container type that handles allocating contiguous memory
// for new elements and traversing through elements with either iterator or
// reverse iterator. Since this container hands out raw pointers of its
// elements, it is very important that this container never reallocate its
// memory so those raw pointer will continue to be valid. This class is used to
// contain SharedQuadState or DrawQuad. Since the size of each DrawQuad varies,
// to hold DrawQuads, the allocations size of each element in this class is
// LargestDrawQuadSize while BaseElementType is DrawQuad.
template <class BaseElementType>
class ListContainer {
public:
// This constructor reserves the requested memory up front so only single
// allocation is needed. When num_of_elements_to_reserve_for is zero, use the
// default size.
ListContainer(size_t max_alignment,
size_t max_size_for_derived_class,
size_t num_of_elements_to_reserve_for)
: helper_(max_alignment,
max_size_for_derived_class,
num_of_elements_to_reserve_for) {}
~ListContainer() {
for (Iterator i = begin(); i != end(); ++i) {
i->~BaseElementType();
}
}
class Iterator;
class ConstIterator;
class ReverseIterator;
class ConstReverseIterator;
// Removes the last element of the list and makes its space available for
// allocation.
void RemoveLast() {
DCHECK(!empty());
back()->~BaseElementType();
helper_.RemoveLast();
}
// When called, all raw pointers that have been handed out are no longer
// valid. Use with caution.
// Returns a valid Iterator pointing to the element after the erased element.
// This function does not deallocate memory.
Iterator EraseAndInvalidateAllPointers(Iterator position) {
BaseElementType* item = *position;
item->~BaseElementType();
helper_.EraseAndInvalidateAllPointers(&position);
return empty() ? end() : position;
}
ConstReverseIterator crbegin() const {
return ConstReverseIterator(helper_.crbegin());
}
ConstReverseIterator crend() const {
return ConstReverseIterator(helper_.crend());
}
ConstReverseIterator rbegin() const { return crbegin(); }
ConstReverseIterator rend() const { return crend(); }
ReverseIterator rbegin() { return ReverseIterator(helper_.rbegin()); }
ReverseIterator rend() { return ReverseIterator(helper_.rend()); }
ConstIterator cbegin() const { return ConstIterator(helper_.cbegin()); }
ConstIterator cend() const { return ConstIterator(helper_.cend()); }
ConstIterator begin() const { return cbegin(); }
ConstIterator end() const { return cend(); }
Iterator begin() { return Iterator(helper_.begin()); }
Iterator end() { return Iterator(helper_.end()); }
// TODO(weiliangc): front(), back() and ElementAt() function should return
// reference, consistent with container-of-object.
BaseElementType* front() { return *begin(); }
BaseElementType* back() { return *rbegin(); }
const BaseElementType* front() const { return *begin(); }
const BaseElementType* back() const { return *rbegin(); }
BaseElementType* ElementAt(size_t index) {
return *Iterator(helper_.IteratorAt(index));
}
const BaseElementType* ElementAt(size_t index) const {
return *ConstIterator(helper_.IteratorAt(index));
}
// Take in derived element type and construct it at location generated by
// Allocate().
template <typename DerivedElementType>
DerivedElementType* AllocateAndConstruct() {
return new (helper_.Allocate(alignof(DerivedElementType),
sizeof(DerivedElementType)))
DerivedElementType;
}
// Take in derived element type and copy construct it at location generated by
// Allocate().
template <typename DerivedElementType>
DerivedElementType* AllocateAndCopyFrom(const DerivedElementType* source) {
return new (helper_.Allocate(alignof(DerivedElementType),
sizeof(DerivedElementType)))
DerivedElementType(*source);
}
// Construct a new element on top of an existing one.
template <typename DerivedElementType>
DerivedElementType* ReplaceExistingElement(Iterator at) {
at->~BaseElementType();
return new (at.item_iterator) DerivedElementType();
}
// Insert |count| new elements of |DerivedElementType| before |at|. This will
// invalidate all outstanding pointers and iterators. Return a valid iterator
// for the beginning of the newly inserted segment.
template <typename DerivedElementType>
Iterator InsertBeforeAndInvalidateAllPointers(Iterator at, size_t count) {
helper_.InsertBeforeAndInvalidateAllPointers(&at, count);
Iterator result = at;
for (size_t i = 0; i < count; ++i) {
new (at.item_iterator) DerivedElementType();
++at;
}
return result;
}
// Insert |count| new elements of |DerivedElementType| after |at|. If |at| is
// end() elements will be inserted to the empty list. This will invalidate all
// outstanding pointers and iterators. Return a valid iterator for the
// beginning of the newly inserted segment.
template <typename DerivedElementType>
Iterator InsertAfterAndInvalidateAllPointers(Iterator at, size_t count) {
return InsertBeforeAndInvalidateAllPointers<DerivedElementType>(
at != end() ? ++at : at, count);
}
ListContainer& operator=(ListContainer&& other) {
helper_.data_.swap(other.helper_.data_);
return *this;
}
template <typename DerivedElementType>
void swap(ListContainer<DerivedElementType>& other) {
helper_.data_.swap(other.helper_.data_);
}
size_t size() const { return helper_.size(); }
bool empty() const { return helper_.empty(); }
size_t GetCapacityInBytes() const { return helper_.GetCapacityInBytes(); }
void clear() {
for (Iterator i = begin(); i != end(); ++i) {
i->~BaseElementType();
}
helper_.clear();
}
size_t AvailableSizeWithoutAnotherAllocationForTesting() const {
return helper_.AvailableSizeWithoutAnotherAllocationForTesting();
}
// Iterator classes that can be used to access data.
/////////////////////////////////////////////////////////////////
class Iterator : public ListContainerHelper::Iterator {
// This class is only defined to forward iterate through
// CharAllocator.
public:
Iterator(ListContainerHelper::CharAllocator* container,
size_t vector_ind,
char* item_iter,
size_t index)
: ListContainerHelper::Iterator(container,
vector_ind,
item_iter,
index) {}
BaseElementType* operator->() const {
return reinterpret_cast<BaseElementType*>(item_iterator);
}
BaseElementType* operator*() const {
return reinterpret_cast<BaseElementType*>(item_iterator);
}
Iterator operator++(int unused_post_increment) {
Iterator tmp = *this;
operator++();
return tmp;
}
Iterator& operator++() {
Increment();
++index_;
return *this;
}
private:
explicit Iterator(const ListContainerHelper::Iterator& base_iterator)
: ListContainerHelper::Iterator(base_iterator) {}
friend Iterator ListContainer<BaseElementType>::begin();
friend Iterator ListContainer<BaseElementType>::end();
friend BaseElementType* ListContainer<BaseElementType>::ElementAt(
size_t index);
};
class ConstIterator : public ListContainerHelper::ConstIterator {
// This class is only defined to forward iterate through
// CharAllocator.
public:
ConstIterator(ListContainerHelper::CharAllocator* container,
size_t vector_ind,
char* item_iter,
size_t index)
: ListContainerHelper::ConstIterator(container,
vector_ind,
item_iter,
index) {}
ConstIterator(const Iterator& other) // NOLINT
: ListContainerHelper::ConstIterator(other) {}
const BaseElementType* operator->() const {
return reinterpret_cast<const BaseElementType*>(item_iterator);
}
const BaseElementType* operator*() const {
return reinterpret_cast<const BaseElementType*>(item_iterator);
}
ConstIterator operator++(int unused_post_increment) {
ConstIterator tmp = *this;
operator++();
return tmp;
}
ConstIterator& operator++() {
Increment();
++index_;
return *this;
}
private:
explicit ConstIterator(
const ListContainerHelper::ConstIterator& base_iterator)
: ListContainerHelper::ConstIterator(base_iterator) {}
friend ConstIterator ListContainer<BaseElementType>::cbegin() const;
friend ConstIterator ListContainer<BaseElementType>::cend() const;
friend const BaseElementType* ListContainer<BaseElementType>::ElementAt(
size_t index) const;
};
class ReverseIterator : public ListContainerHelper::ReverseIterator {
// This class is only defined to reverse iterate through
// CharAllocator.
public:
ReverseIterator(ListContainerHelper::CharAllocator* container,
size_t vector_ind,
char* item_iter,
size_t index)
: ListContainerHelper::ReverseIterator(container,
vector_ind,
item_iter,
index) {}
BaseElementType* operator->() const {
return reinterpret_cast<BaseElementType*>(item_iterator);
}
BaseElementType* operator*() const {
return reinterpret_cast<BaseElementType*>(item_iterator);
}
ReverseIterator operator++(int unused_post_increment) {
ReverseIterator tmp = *this;
operator++();
return tmp;
}
ReverseIterator& operator++() {
ReverseIncrement();
++index_;
return *this;
}
private:
explicit ReverseIterator(ListContainerHelper::ReverseIterator base_iterator)
: ListContainerHelper::ReverseIterator(base_iterator) {}
friend ReverseIterator ListContainer<BaseElementType>::rbegin();
friend ReverseIterator ListContainer<BaseElementType>::rend();
};
class ConstReverseIterator
: public ListContainerHelper::ConstReverseIterator {
// This class is only defined to reverse iterate through
// CharAllocator.
public:
ConstReverseIterator(ListContainerHelper::CharAllocator* container,
size_t vector_ind,
char* item_iter,
size_t index)
: ListContainerHelper::ConstReverseIterator(container,
vector_ind,
item_iter,
index) {}
ConstReverseIterator(const ReverseIterator& other) // NOLINT
: ListContainerHelper::ConstReverseIterator(other) {}
const BaseElementType* operator->() const {
return reinterpret_cast<const BaseElementType*>(item_iterator);
}
const BaseElementType* operator*() const {
return reinterpret_cast<const BaseElementType*>(item_iterator);
}
ConstReverseIterator operator++(int unused_post_increment) {
ConstReverseIterator tmp = *this;
operator++();
return tmp;
}
ConstReverseIterator& operator++() {
ReverseIncrement();
++index_;
return *this;
}
private:
explicit ConstReverseIterator(
ListContainerHelper::ConstReverseIterator base_iterator)
: ListContainerHelper::ConstReverseIterator(base_iterator) {}
friend ConstReverseIterator ListContainer<BaseElementType>::crbegin() const;
friend ConstReverseIterator ListContainer<BaseElementType>::crend() const;
};
private:
ListContainerHelper helper_;
DISALLOW_COPY_AND_ASSIGN(ListContainer);
};
} // namespace cc
#endif // CC_BASE_LIST_CONTAINER_H_