gecko-dev/accessible/base/AccIterator.h

326 строки
7.7 KiB
C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef mozilla_a11y_AccIterator_h__
#define mozilla_a11y_AccIterator_h__
#include "DocAccessible.h"
#include "Filters.h"
#include <memory>
class nsITreeView;
namespace mozilla {
namespace a11y {
/**
* AccIterable is a basic interface for iterators over accessibles.
*/
class AccIterable
{
public:
virtual ~AccIterable() { }
virtual Accessible* Next() = 0;
private:
friend class Relation;
std::unique_ptr<AccIterable> mNextIter;
};
/**
* Allows to iterate through accessible children or subtree complying with
* filter function.
*/
class AccIterator : public AccIterable
{
public:
AccIterator(const Accessible* aRoot, filters::FilterFuncPtr aFilterFunc);
virtual ~AccIterator();
/**
* Return next accessible complying with filter function. Return the first
* accessible for the first time.
*/
virtual Accessible* Next() override;
private:
AccIterator();
AccIterator(const AccIterator&);
AccIterator& operator =(const AccIterator&);
struct IteratorState
{
explicit IteratorState(const Accessible* aParent, IteratorState* mParentState = nullptr);
const Accessible* mParent;
int32_t mIndex;
IteratorState* mParentState;
};
filters::FilterFuncPtr mFilterFunc;
IteratorState* mState;
};
/**
* Allows to traverse through related accessibles that are pointing to the given
* dependent accessible by relation attribute.
*/
class RelatedAccIterator : public AccIterable
{
public:
/**
* Constructor.
*
* @param aDocument [in] the document accessible the related
* & accessibles belong to.
* @param aDependentContent [in] the content of dependent accessible that
* relations were requested for
* @param aRelAttr [in] relation attribute that relations are
* pointed by
*/
RelatedAccIterator(DocAccessible* aDocument, nsIContent* aDependentContent,
nsAtom* aRelAttr);
virtual ~RelatedAccIterator() { }
/**
* Return next related accessible for the given dependent accessible.
*/
virtual Accessible* Next() override;
private:
RelatedAccIterator();
RelatedAccIterator(const RelatedAccIterator&);
RelatedAccIterator& operator = (const RelatedAccIterator&);
DocAccessible* mDocument;
nsAtom* mRelAttr;
DocAccessible::AttrRelProviderArray* mProviders;
nsIContent* mBindingParent;
uint32_t mIndex;
};
/**
* Used to iterate through HTML labels associated with the given accessible.
*/
class HTMLLabelIterator : public AccIterable
{
public:
enum LabelFilter {
eAllLabels,
eSkipAncestorLabel
};
HTMLLabelIterator(DocAccessible* aDocument, const Accessible* aAccessible,
LabelFilter aFilter = eAllLabels);
virtual ~HTMLLabelIterator() { }
/**
* Return next label accessible associated with the given element.
*/
virtual Accessible* Next() override;
private:
HTMLLabelIterator();
HTMLLabelIterator(const HTMLLabelIterator&);
HTMLLabelIterator& operator = (const HTMLLabelIterator&);
bool IsLabel(Accessible* aLabel);
RelatedAccIterator mRelIter;
// XXX: replace it on weak reference (bug 678429), it's safe to use raw
// pointer now because iterators life cycle is short.
const Accessible* mAcc;
LabelFilter mLabelFilter;
};
/**
* Used to iterate through HTML outputs associated with the given element.
*/
class HTMLOutputIterator : public AccIterable
{
public:
HTMLOutputIterator(DocAccessible* aDocument, nsIContent* aElement);
virtual ~HTMLOutputIterator() { }
/**
* Return next output accessible associated with the given element.
*/
virtual Accessible* Next() override;
private:
HTMLOutputIterator();
HTMLOutputIterator(const HTMLOutputIterator&);
HTMLOutputIterator& operator = (const HTMLOutputIterator&);
RelatedAccIterator mRelIter;
};
/**
* Used to iterate through XUL labels associated with the given element.
*/
class XULLabelIterator : public AccIterable
{
public:
XULLabelIterator(DocAccessible* aDocument, nsIContent* aElement);
virtual ~XULLabelIterator() { }
/**
* Return next label accessible associated with the given element.
*/
virtual Accessible* Next() override;
private:
XULLabelIterator();
XULLabelIterator(const XULLabelIterator&);
XULLabelIterator& operator = (const XULLabelIterator&);
RelatedAccIterator mRelIter;
};
/**
* Used to iterate through XUL descriptions associated with the given element.
*/
class XULDescriptionIterator : public AccIterable
{
public:
XULDescriptionIterator(DocAccessible* aDocument, nsIContent* aElement);
virtual ~XULDescriptionIterator() { }
/**
* Return next description accessible associated with the given element.
*/
virtual Accessible* Next() override;
private:
XULDescriptionIterator();
XULDescriptionIterator(const XULDescriptionIterator&);
XULDescriptionIterator& operator = (const XULDescriptionIterator&);
RelatedAccIterator mRelIter;
};
/**
* Used to iterate through IDs, elements or accessibles pointed by IDRefs
* attribute. Note, any method used to iterate through IDs, elements, or
* accessibles moves iterator to next position.
*/
class IDRefsIterator : public AccIterable
{
public:
IDRefsIterator(DocAccessible* aDoc, nsIContent* aContent,
nsAtom* aIDRefsAttr);
virtual ~IDRefsIterator() { }
/**
* Return next ID.
*/
const nsDependentSubstring NextID();
/**
* Return next element.
*/
nsIContent* NextElem();
/**
* Return the element with the given ID.
*/
nsIContent* GetElem(const nsDependentSubstring& aID);
// AccIterable
virtual Accessible* Next() override;
private:
IDRefsIterator();
IDRefsIterator(const IDRefsIterator&);
IDRefsIterator operator = (const IDRefsIterator&);
nsString mIDs;
nsIContent* mContent;
DocAccessible* mDoc;
nsAString::index_type mCurrIdx;
};
/**
* Iterator that points to a single accessible returning it on the first call
* to Next().
*/
class SingleAccIterator : public AccIterable
{
public:
explicit SingleAccIterator(Accessible* aTarget): mAcc(aTarget) { }
virtual ~SingleAccIterator() { }
virtual Accessible* Next() override;
private:
SingleAccIterator();
SingleAccIterator(const SingleAccIterator&);
SingleAccIterator& operator = (const SingleAccIterator&);
RefPtr<Accessible> mAcc;
};
/**
* Used to iterate items of the given item container.
*/
class ItemIterator : public AccIterable
{
public:
explicit ItemIterator(const Accessible* aItemContainer) :
mContainer(aItemContainer), mAnchor(nullptr) { }
virtual ~ItemIterator() { }
virtual Accessible* Next() override;
private:
ItemIterator() = delete;
ItemIterator(const ItemIterator&) = delete;
ItemIterator& operator = (const ItemIterator&) = delete;
const Accessible* mContainer;
Accessible* mAnchor;
};
/**
* Used to iterate through XUL tree items of the same level.
*/
class XULTreeItemIterator : public AccIterable
{
public:
XULTreeItemIterator(const XULTreeAccessible* aXULTree, nsITreeView* aTreeView,
int32_t aRowIdx);
virtual ~XULTreeItemIterator() { }
virtual Accessible* Next() override;
private:
XULTreeItemIterator() = delete;
XULTreeItemIterator(const XULTreeItemIterator&) = delete;
XULTreeItemIterator& operator = (const XULTreeItemIterator&) = delete;
const XULTreeAccessible* mXULTree;
nsITreeView* mTreeView;
int32_t mRowCount;
int32_t mContainerLevel;
int32_t mCurrRowIdx;
};
} // namespace a11y
} // namespace mozilla
#endif