Source/WebCore/dom/RadioButtonGroups.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2007-2018 Apple Inc. All rights reserved.
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Library General Public
  * License as published by the Free Software Foundation; either
  * version 2 of the License, or (at your option) any later version.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Library General Public License for more details.
  *
  * You should have received a copy of the GNU Library General Public License
  * along with this library; see the file COPYING.LIB.  If not, write to
  * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  * Boston, MA 02110-1301, USA.
  *
  */

 #include "config.h"
 #include "RadioButtonGroups.h"

 #include "HTMLInputElement.h"
 #include "Range.h"
 #include <wtf/HashSet.h>

 namespace WebCore {

 class RadioButtonGroup {
     WTF_MAKE_FAST_ALLOCATED;
 public:
     bool isEmpty() const { return m_members.isEmpty(); }
     bool isRequired() const { return m_requiredCount; }
     HTMLInputElement* checkedButton() const { return m_checkedButton; }
     void add(HTMLInputElement&);
     void updateCheckedState(HTMLInputElement&);
     void requiredStateChanged(HTMLInputElement&);
     void remove(HTMLInputElement&);
     bool contains(HTMLInputElement&) const;
     Vector<HTMLInputElement*> members() const;

 private:
     void setNeedsStyleRecalcForAllButtons();
     void updateValidityForAllButtons();
     bool isValid() const;
     void setCheckedButton(HTMLInputElement*);

     HashSet<HTMLInputElement*> m_members;
     HTMLInputElement* m_checkedButton { nullptr };
     size_t m_requiredCount { 0 };
 };

 inline bool RadioButtonGroup::isValid() const
 {
     return !isRequired() || m_checkedButton;
 }

 Vector<HTMLInputElement*> RadioButtonGroup::members() const
 {
     auto members = copyToVector(m_members);
     std::sort(members.begin(), members.end(), documentOrderComparator);
     return members;
 }

 void RadioButtonGroup::setCheckedButton(HTMLInputElement* button)
 {
     RefPtr<HTMLInputElement> oldCheckedButton = m_checkedButton;
     if (oldCheckedButton == button)
         return;

     bool hadCheckedButton = m_checkedButton;
     bool willHaveCheckedButton = button;
     if (hadCheckedButton != willHaveCheckedButton)
         setNeedsStyleRecalcForAllButtons();

     m_checkedButton = button;
     if (oldCheckedButton)
         oldCheckedButton->setChecked(false);
 }

 void RadioButtonGroup::add(HTMLInputElement& button)
 {
     ASSERT(button.isRadioButton());
     if (!m_members.add(&button).isNewEntry)
         return;
     bool groupWasValid = isValid();
     if (button.isRequired())
         ++m_requiredCount;
     if (button.checked())
         setCheckedButton(&button);

     bool groupIsValid = isValid();
     if (groupWasValid != groupIsValid)
         updateValidityForAllButtons();
     else if (!groupIsValid) {
         // A radio button not in a group is always valid. We need to make it
         // invalid only if the group is invalid.
         button.updateValidity();
     }
 }

 void RadioButtonGroup::updateCheckedState(HTMLInputElement& button)
 {
     ASSERT(button.isRadioButton());
     ASSERT(m_members.contains(&button));
     bool wasValid = isValid();
     if (button.checked())
         setCheckedButton(&button);
     else {
         if (m_checkedButton == &button)
             setCheckedButton(nullptr);
     }
     if (wasValid != isValid())
         updateValidityForAllButtons();
 }

 void RadioButtonGroup::requiredStateChanged(HTMLInputElement& button)
 {
     ASSERT(button.isRadioButton());
     ASSERT(m_members.contains(&button));
     bool wasValid = isValid();
     if (button.isRequired())
         ++m_requiredCount;
     else {
         ASSERT(m_requiredCount);
         --m_requiredCount;
     }
     if (wasValid != isValid())
         updateValidityForAllButtons();
 }

 void RadioButtonGroup::remove(HTMLInputElement& button)
 {
     ASSERT(button.isRadioButton());
     auto it = m_members.find(&button);
     if (it == m_members.end())
         return;

     bool wasValid = isValid();
     m_members.remove(it);
     if (button.isRequired()) {
         ASSERT(m_requiredCount);
         --m_requiredCount;
     }
     if (m_checkedButton) {
         button.invalidateStyleForSubtree();
         if (m_checkedButton == &button) {
             m_checkedButton = nullptr;
             setNeedsStyleRecalcForAllButtons();
         }
     }

     if (m_members.isEmpty()) {
         ASSERT(!m_requiredCount);
         ASSERT(!m_checkedButton);
     } else if (wasValid != isValid())
         updateValidityForAllButtons();
     if (!wasValid) {
         // A radio button not in a group is always valid. We need to make it
         // valid only if the group was invalid.
         button.updateValidity();
     }
 }

 void RadioButtonGroup::setNeedsStyleRecalcForAllButtons()
 {
     for (auto& button : m_members) {
         ASSERT(button->isRadioButton());
         button->invalidateStyleForSubtree();
     }
 }

 void RadioButtonGroup::updateValidityForAllButtons()
 {
     for (auto& button : m_members) {
         ASSERT(button->isRadioButton());
         button->updateValidity();
     }
 }

 bool RadioButtonGroup::contains(HTMLInputElement& button) const
 {
     return m_members.contains(&button);
 }

 // ----------------------------------------------------------------

 // Explicitly define default constructor and destructor here outside the header
 // so we can compile the header without including the definition of RadioButtonGroup.
 RadioButtonGroups::RadioButtonGroups() = default;
 RadioButtonGroups::~RadioButtonGroups() = default;

 void RadioButtonGroups::addButton(HTMLInputElement& element)
 {
     ASSERT(element.isRadioButton());
     if (element.name().isEmpty())
         return;

     if (!m_nameToGroupMap)
         m_nameToGroupMap = std::make_unique<NameToGroupMap>();

     auto& group = m_nameToGroupMap->add(element.name().impl(), nullptr).iterator->value;
     if (!group)
         group = std::make_unique<RadioButtonGroup>();
     group->add(element);
 }

 Vector<HTMLInputElement*> RadioButtonGroups::groupMembers(const HTMLInputElement& element) const
 {
     ASSERT(element.isRadioButton());
     if (!element.isRadioButton())
         return { };

     auto* name = element.name().impl();
     if (!name)
         return { };

     if (!m_nameToGroupMap)
         return { };

     auto* group = m_nameToGroupMap->get(name);
     if (!group)
         return { };
     return group->members();
 }

 void RadioButtonGroups::updateCheckedState(HTMLInputElement& element)
 {
     ASSERT(element.isRadioButton());
     if (element.name().isEmpty())
         return;
     ASSERT(m_nameToGroupMap);
     if (!m_nameToGroupMap)
         return;
     m_nameToGroupMap->get(element.name().impl())->updateCheckedState(element);
 }

 void RadioButtonGroups::requiredStateChanged(HTMLInputElement& element)
 {
     ASSERT(element.isRadioButton());
     if (element.name().isEmpty())
         return;
     ASSERT(m_nameToGroupMap);
     if (!m_nameToGroupMap)
         return;
     auto* group = m_nameToGroupMap->get(element.name().impl());
     ASSERT(group);
     group->requiredStateChanged(element);
 }

 HTMLInputElement* RadioButtonGroups::checkedButtonForGroup(const AtomicString& name) const
 {
     if (!m_nameToGroupMap)
         return nullptr;
     m_nameToGroupMap->checkConsistency();
     RadioButtonGroup* group = m_nameToGroupMap->get(name.impl());
     return group ? group->checkedButton() : nullptr;
 }

 bool RadioButtonGroups::hasCheckedButton(const HTMLInputElement& element) const
 {
     ASSERT(element.isRadioButton());
     const AtomicString& name = element.name();
     if (name.isEmpty() || !m_nameToGroupMap)
         return element.checked();
     return m_nameToGroupMap->get(name.impl())->checkedButton();
 }

 bool RadioButtonGroups::isInRequiredGroup(HTMLInputElement& element) const
 {
     ASSERT(element.isRadioButton());
     if (element.name().isEmpty())
         return false;
     if (!m_nameToGroupMap)
         return false;
     auto* group = m_nameToGroupMap->get(element.name().impl());
     return group && group->isRequired() && group->contains(element);
 }

 void RadioButtonGroups::removeButton(HTMLInputElement& element)
 {
     ASSERT(element.isRadioButton());
     if (element.name().isEmpty())
         return;
     if (!m_nameToGroupMap)
         return;

     m_nameToGroupMap->checkConsistency();
     auto it = m_nameToGroupMap->find(element.name().impl());
     if (it == m_nameToGroupMap->end())
         return;
     it->value->remove(element);
     if (it->value->isEmpty()) {
         // FIXME: We may skip deallocating the empty RadioButtonGroup for
         // performance improvement. If we do so, we need to change the key type
         // of m_nameToGroupMap from AtomicStringImpl* to RefPtr<AtomicStringImpl>.
         m_nameToGroupMap->remove(it);
         if (m_nameToGroupMap->isEmpty())
             m_nameToGroupMap = nullptr;
     }
 }

 } // namespace
	/*
	* Copyright (C) 2007-2018 Apple Inc. All rights reserved.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*
	*/

	#include "config.h"
	#include "RadioButtonGroups.h"

	#include "HTMLInputElement.h"
	#include "Range.h"
	#include <wtf/HashSet.h>

	namespace WebCore {

	class RadioButtonGroup {
	WTF_MAKE_FAST_ALLOCATED;
	public:
	bool isEmpty() const { return m_members.isEmpty(); }
	bool isRequired() const { return m_requiredCount; }
	HTMLInputElement* checkedButton() const { return m_checkedButton; }
	void add(HTMLInputElement&);
	void updateCheckedState(HTMLInputElement&);
	void requiredStateChanged(HTMLInputElement&);
	void remove(HTMLInputElement&);
	bool contains(HTMLInputElement&) const;
	Vector<HTMLInputElement*> members() const;

	private:
	void setNeedsStyleRecalcForAllButtons();
	void updateValidityForAllButtons();
	bool isValid() const;
	void setCheckedButton(HTMLInputElement*);

	HashSet<HTMLInputElement*> m_members;
	HTMLInputElement* m_checkedButton { nullptr };
	size_t m_requiredCount { 0 };
	};

	inline bool RadioButtonGroup::isValid() const
	{
	return !isRequired() \|\| m_checkedButton;
	}

	Vector<HTMLInputElement*> RadioButtonGroup::members() const
	{
	auto members = copyToVector(m_members);
	std::sort(members.begin(), members.end(), documentOrderComparator);
	return members;
	}

	void RadioButtonGroup::setCheckedButton(HTMLInputElement* button)
	{
	RefPtr<HTMLInputElement> oldCheckedButton = m_checkedButton;
	if (oldCheckedButton == button)
	return;

	bool hadCheckedButton = m_checkedButton;
	bool willHaveCheckedButton = button;
	if (hadCheckedButton != willHaveCheckedButton)
	setNeedsStyleRecalcForAllButtons();

	m_checkedButton = button;
	if (oldCheckedButton)
	oldCheckedButton->setChecked(false);
	}

	void RadioButtonGroup::add(HTMLInputElement& button)
	{
	ASSERT(button.isRadioButton());
	if (!m_members.add(&button).isNewEntry)
	return;
	bool groupWasValid = isValid();
	if (button.isRequired())
	++m_requiredCount;
	if (button.checked())
	setCheckedButton(&button);

	bool groupIsValid = isValid();
	if (groupWasValid != groupIsValid)
	updateValidityForAllButtons();
	else if (!groupIsValid) {
	// A radio button not in a group is always valid. We need to make it
	// invalid only if the group is invalid.
	button.updateValidity();
	}
	}

	void RadioButtonGroup::updateCheckedState(HTMLInputElement& button)
	{
	ASSERT(button.isRadioButton());
	ASSERT(m_members.contains(&button));
	bool wasValid = isValid();
	if (button.checked())
	setCheckedButton(&button);
	else {
	if (m_checkedButton == &button)
	setCheckedButton(nullptr);
	}
	if (wasValid != isValid())
	updateValidityForAllButtons();
	}

	void RadioButtonGroup::requiredStateChanged(HTMLInputElement& button)
	{
	ASSERT(button.isRadioButton());
	ASSERT(m_members.contains(&button));
	bool wasValid = isValid();
	if (button.isRequired())
	++m_requiredCount;
	else {
	ASSERT(m_requiredCount);
	--m_requiredCount;
	}
	if (wasValid != isValid())
	updateValidityForAllButtons();
	}

	void RadioButtonGroup::remove(HTMLInputElement& button)
	{
	ASSERT(button.isRadioButton());
	auto it = m_members.find(&button);
	if (it == m_members.end())
	return;

	bool wasValid = isValid();
	m_members.remove(it);
	if (button.isRequired()) {
	ASSERT(m_requiredCount);
	--m_requiredCount;
	}
	if (m_checkedButton) {
	button.invalidateStyleForSubtree();
	if (m_checkedButton == &button) {
	m_checkedButton = nullptr;
	setNeedsStyleRecalcForAllButtons();
	}
	}

	if (m_members.isEmpty()) {
	ASSERT(!m_requiredCount);
	ASSERT(!m_checkedButton);
	} else if (wasValid != isValid())
	updateValidityForAllButtons();
	if (!wasValid) {
	// A radio button not in a group is always valid. We need to make it
	// valid only if the group was invalid.
	button.updateValidity();
	}
	}

	void RadioButtonGroup::setNeedsStyleRecalcForAllButtons()
	{
	for (auto& button : m_members) {
	ASSERT(button->isRadioButton());
	button->invalidateStyleForSubtree();
	}
	}

	void RadioButtonGroup::updateValidityForAllButtons()
	{
	for (auto& button : m_members) {
	ASSERT(button->isRadioButton());
	button->updateValidity();
	}
	}

	bool RadioButtonGroup::contains(HTMLInputElement& button) const
	{
	return m_members.contains(&button);
	}

	// ----------------------------------------------------------------

	// Explicitly define default constructor and destructor here outside the header
	// so we can compile the header without including the definition of RadioButtonGroup.
	RadioButtonGroups::RadioButtonGroups() = default;
	RadioButtonGroups::~RadioButtonGroups() = default;

	void RadioButtonGroups::addButton(HTMLInputElement& element)
	{
	ASSERT(element.isRadioButton());
	if (element.name().isEmpty())
	return;

	if (!m_nameToGroupMap)
	m_nameToGroupMap = std::make_unique<NameToGroupMap>();

	auto& group = m_nameToGroupMap->add(element.name().impl(), nullptr).iterator->value;
	if (!group)
	group = std::make_unique<RadioButtonGroup>();
	group->add(element);
	}

	Vector<HTMLInputElement*> RadioButtonGroups::groupMembers(const HTMLInputElement& element) const
	{
	ASSERT(element.isRadioButton());
	if (!element.isRadioButton())
	return { };

	auto* name = element.name().impl();
	if (!name)
	return { };

	if (!m_nameToGroupMap)
	return { };

	auto* group = m_nameToGroupMap->get(name);
	if (!group)
	return { };
	return group->members();
	}

	void RadioButtonGroups::updateCheckedState(HTMLInputElement& element)
	{
	ASSERT(element.isRadioButton());
	if (element.name().isEmpty())
	return;
	ASSERT(m_nameToGroupMap);
	if (!m_nameToGroupMap)
	return;
	m_nameToGroupMap->get(element.name().impl())->updateCheckedState(element);
	}

	void RadioButtonGroups::requiredStateChanged(HTMLInputElement& element)
	{
	ASSERT(element.isRadioButton());
	if (element.name().isEmpty())
	return;
	ASSERT(m_nameToGroupMap);
	if (!m_nameToGroupMap)
	return;
	auto* group = m_nameToGroupMap->get(element.name().impl());
	ASSERT(group);
	group->requiredStateChanged(element);
	}

	HTMLInputElement* RadioButtonGroups::checkedButtonForGroup(const AtomicString& name) const
	{
	if (!m_nameToGroupMap)
	return nullptr;
	m_nameToGroupMap->checkConsistency();
	RadioButtonGroup* group = m_nameToGroupMap->get(name.impl());
	return group ? group->checkedButton() : nullptr;
	}

	bool RadioButtonGroups::hasCheckedButton(const HTMLInputElement& element) const
	{
	ASSERT(element.isRadioButton());
	const AtomicString& name = element.name();
	if (name.isEmpty() \|\| !m_nameToGroupMap)
	return element.checked();
	return m_nameToGroupMap->get(name.impl())->checkedButton();
	}

	bool RadioButtonGroups::isInRequiredGroup(HTMLInputElement& element) const
	{
	ASSERT(element.isRadioButton());
	if (element.name().isEmpty())
	return false;
	if (!m_nameToGroupMap)
	return false;
	auto* group = m_nameToGroupMap->get(element.name().impl());
	return group && group->isRequired() && group->contains(element);
	}

	void RadioButtonGroups::removeButton(HTMLInputElement& element)
	{
	ASSERT(element.isRadioButton());
	if (element.name().isEmpty())
	return;
	if (!m_nameToGroupMap)
	return;

	m_nameToGroupMap->checkConsistency();
	auto it = m_nameToGroupMap->find(element.name().impl());
	if (it == m_nameToGroupMap->end())
	return;
	it->value->remove(element);
	if (it->value->isEmpty()) {
	// FIXME: We may skip deallocating the empty RadioButtonGroup for
	// performance improvement. If we do so, we need to change the key type
	// of m_nameToGroupMap from AtomicStringImpl* to RefPtr<AtomicStringImpl>.
	m_nameToGroupMap->remove(it);
	if (m_nameToGroupMap->isEmpty())
	m_nameToGroupMap = nullptr;
	}
	}

	} // namespace