gecko-dev/widget/TextEvents.h

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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* 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_TextEvents_h__
#define mozilla_TextEvents_h__
#include <stdint.h>
#include "mozilla/Assertions.h"
#include "mozilla/BasicEvents.h"
#include "mozilla/CheckedInt.h"
#include "mozilla/EventForwards.h" // for KeyNameIndex, temporarily
#include "mozilla/FontRange.h"
#include "mozilla/Maybe.h"
#include "mozilla/OwningNonNull.h"
#include "mozilla/TextRange.h"
#include "mozilla/WritingModes.h"
#include "mozilla/dom/DataTransfer.h"
#include "mozilla/dom/KeyboardEventBinding.h"
#include "mozilla/dom/StaticRange.h"
#include "mozilla/widget/IMEData.h"
#include "nsCOMPtr.h"
#include "nsHashtablesFwd.h"
#include "nsISelectionListener.h"
#include "nsITransferable.h"
#include "nsRect.h"
#include "nsString.h"
#include "nsTArray.h"
class nsStringHashKey;
/******************************************************************************
* virtual keycode values
******************************************************************************/
enum {
#define NS_DEFINE_VK(aDOMKeyName, aDOMKeyCode) NS_##aDOMKeyName = aDOMKeyCode,
#include "mozilla/VirtualKeyCodeList.h"
#undef NS_DEFINE_VK
NS_VK_UNKNOWN = 0xFF
};
namespace mozilla {
enum : uint32_t {
eKeyLocationStandard = dom::KeyboardEvent_Binding::DOM_KEY_LOCATION_STANDARD,
eKeyLocationLeft = dom::KeyboardEvent_Binding::DOM_KEY_LOCATION_LEFT,
eKeyLocationRight = dom::KeyboardEvent_Binding::DOM_KEY_LOCATION_RIGHT,
eKeyLocationNumpad = dom::KeyboardEvent_Binding::DOM_KEY_LOCATION_NUMPAD
};
const nsCString GetDOMKeyCodeName(uint32_t aKeyCode);
namespace dom {
class PBrowserParent;
class PBrowserChild;
} // namespace dom
namespace plugins {
class PPluginInstanceChild;
} // namespace plugins
enum class AccessKeyType {
// Handle access key for chrome.
eChrome,
// Handle access key for content.
eContent,
// Don't handle access key.
eNone
};
/******************************************************************************
* mozilla::AlternativeCharCode
*
* This stores alternative charCode values of a key event with some modifiers.
* The stored values proper for testing shortcut key or access key.
******************************************************************************/
struct AlternativeCharCode {
AlternativeCharCode() : mUnshiftedCharCode(0), mShiftedCharCode(0) {}
AlternativeCharCode(uint32_t aUnshiftedCharCode, uint32_t aShiftedCharCode)
: mUnshiftedCharCode(aUnshiftedCharCode),
mShiftedCharCode(aShiftedCharCode) {}
uint32_t mUnshiftedCharCode;
uint32_t mShiftedCharCode;
};
/******************************************************************************
* mozilla::ShortcutKeyCandidate
*
* This stores a candidate of shortcut key combination.
******************************************************************************/
struct ShortcutKeyCandidate {
ShortcutKeyCandidate() : mCharCode(0), mIgnoreShift(0) {}
ShortcutKeyCandidate(uint32_t aCharCode, bool aIgnoreShift)
: mCharCode(aCharCode), mIgnoreShift(aIgnoreShift) {}
// The mCharCode value which must match keyboard shortcut definition.
uint32_t mCharCode;
// true if Shift state can be ignored. Otherwise, Shift key state must
// match keyboard shortcut definition.
bool mIgnoreShift;
};
/******************************************************************************
* mozilla::IgnoreModifierState
*
* This stores flags for modifiers that should be ignored when matching
* XBL handlers.
******************************************************************************/
struct IgnoreModifierState {
// When mShift is true, Shift key state will be ignored.
bool mShift;
// When mOS is true, OS key state will be ignored.
bool mOS;
IgnoreModifierState() : mShift(false), mOS(false) {}
};
/******************************************************************************
* mozilla::WidgetKeyboardEvent
******************************************************************************/
class WidgetKeyboardEvent : public WidgetInputEvent {
private:
friend class dom::PBrowserParent;
friend class dom::PBrowserChild;
friend struct IPC::ParamTraits<WidgetKeyboardEvent>;
protected:
WidgetKeyboardEvent()
: mNativeKeyEvent(nullptr),
mKeyCode(0),
mCharCode(0),
mPseudoCharCode(0),
mLocation(eKeyLocationStandard),
mUniqueId(0),
mKeyNameIndex(KEY_NAME_INDEX_Unidentified),
mCodeNameIndex(CODE_NAME_INDEX_UNKNOWN),
mIsRepeat(false),
mIsComposing(false),
mIsSynthesizedByTIP(false),
Bug 1441821 - NativeKey shouldn't mark eKeyDown and eKeyPress as "skippable in remote process" if message is not caused by physical key press r=m_kato,smaug Currently, TabChild discards eKeyDown and eKeyPress events which are marked as "repeated" and were dispatched after the latest eKeyDown event comes into the process. However, keyboard layout utils may generate native key events as "repeated" even if each native key is important to input proper text. So, TabChild shouldn't decide if coming keyboard event is skippable only with mIsRepeat. For solving this issue, this patch adds mMaybeSkippableInRemoteProcess to WidgetKeyboardEvent and makes TabChild::SkipRepeatedKeyEvent() check WidgetKeyboardEvent::CanSkipInRemoteProcess() instead. On Windows, there are two ways to generate keyboard input messages. One is using SendMessage() or PostMessage(). The other is SendInput() API. In both ways, utils can make their input as repeated key messages. The former case must be safe for this issue since such utils need to set 31st bit of lParam to 1 explicitly. On the other hand, in the latter case, the utils probably need to append KEYEVENTF_KEYUP into KEYBDINPUT::dwFlags. Otherwise, only first call is treated as non-repeated event. So, when given message does not came from physical key operation, NativeKey should set WidgetKeyboardEvent::mMaybeSkippableInRemoteProcess to false even if WidgetKeyboardEvent::mIsRepeat is true. MozReview-Commit-ID: 3rinrOjx8Tf --HG-- extra : rebase_source : 26b6d869260176fc7ef535323b83001bb4b725c2
2018-06-06 17:35:16 +03:00
mMaybeSkippableInRemoteProcess(true),
mUseLegacyKeyCodeAndCharCodeValues(false),
mEditCommandsForSingleLineEditorInitialized(false),
mEditCommandsForMultiLineEditorInitialized(false),
mEditCommandsForRichTextEditorInitialized(false) {}
public:
virtual WidgetKeyboardEvent* AsKeyboardEvent() override { return this; }
WidgetKeyboardEvent(bool aIsTrusted, EventMessage aMessage,
nsIWidget* aWidget,
EventClassID aEventClassID = eKeyboardEventClass)
: WidgetInputEvent(aIsTrusted, aMessage, aWidget, aEventClassID),
mNativeKeyEvent(nullptr),
mKeyCode(0),
mCharCode(0),
mPseudoCharCode(0),
mLocation(eKeyLocationStandard),
mUniqueId(0),
mKeyNameIndex(KEY_NAME_INDEX_Unidentified),
mCodeNameIndex(CODE_NAME_INDEX_UNKNOWN),
mIsRepeat(false),
mIsComposing(false),
mIsSynthesizedByTIP(false),
Bug 1441821 - NativeKey shouldn't mark eKeyDown and eKeyPress as "skippable in remote process" if message is not caused by physical key press r=m_kato,smaug Currently, TabChild discards eKeyDown and eKeyPress events which are marked as "repeated" and were dispatched after the latest eKeyDown event comes into the process. However, keyboard layout utils may generate native key events as "repeated" even if each native key is important to input proper text. So, TabChild shouldn't decide if coming keyboard event is skippable only with mIsRepeat. For solving this issue, this patch adds mMaybeSkippableInRemoteProcess to WidgetKeyboardEvent and makes TabChild::SkipRepeatedKeyEvent() check WidgetKeyboardEvent::CanSkipInRemoteProcess() instead. On Windows, there are two ways to generate keyboard input messages. One is using SendMessage() or PostMessage(). The other is SendInput() API. In both ways, utils can make their input as repeated key messages. The former case must be safe for this issue since such utils need to set 31st bit of lParam to 1 explicitly. On the other hand, in the latter case, the utils probably need to append KEYEVENTF_KEYUP into KEYBDINPUT::dwFlags. Otherwise, only first call is treated as non-repeated event. So, when given message does not came from physical key operation, NativeKey should set WidgetKeyboardEvent::mMaybeSkippableInRemoteProcess to false even if WidgetKeyboardEvent::mIsRepeat is true. MozReview-Commit-ID: 3rinrOjx8Tf --HG-- extra : rebase_source : 26b6d869260176fc7ef535323b83001bb4b725c2
2018-06-06 17:35:16 +03:00
mMaybeSkippableInRemoteProcess(true),
mUseLegacyKeyCodeAndCharCodeValues(false),
mEditCommandsForSingleLineEditorInitialized(false),
mEditCommandsForMultiLineEditorInitialized(false),
mEditCommandsForRichTextEditorInitialized(false) {}
// IsInputtingText() and IsInputtingLineBreak() are used to check if
// it should cause eKeyPress events even on web content.
// UI Events defines that "keypress" event should be fired "if and only if
// that key normally produces a character value".
// <https://www.w3.org/TR/uievents/#event-type-keypress>
// Additionally, for backward compatiblity with all existing browsers,
// there is a spec issue for Enter key press.
// <https://github.com/w3c/uievents/issues/183>
bool IsInputtingText() const {
// NOTE: On some keyboard layout, some characters are inputted with Control
// key or Alt key, but at that time, widget clears the modifier flag
// from eKeyPress event because our TextEditor won't handle eKeyPress
// events as inputting text (bug 1346832).
// NOTE: There are some complicated issues of our traditional behavior.
// -- On Windows, KeyboardLayout::WillDispatchKeyboardEvent() clears
// MODIFIER_ALT and MODIFIER_CONTROL of eKeyPress event if it
// should be treated as inputting a character because AltGr is
// represented with both Alt key and Ctrl key are pressed, and
// some keyboard layouts may produces a character with Ctrl key.
// -- On Linux, KeymapWrapper doesn't have this hack since perhaps,
// we don't have any bug reports that user cannot input proper
// character with Alt and/or Ctrl key.
// -- On macOS, IMEInputHandler::WillDispatchKeyboardEvent() clears
// MODIFIER_ALT and MDOFIEIR_CONTROL of eKeyPress event only when
// TextInputHandler::InsertText() has been called for the event.
// I.e., they are cleared only when an editor has focus (even if IME
// is disabled in password field or by |ime-mode: disabled;|) because
// TextInputHandler::InsertText() is called while
// TextInputHandler::HandleKeyDownEvent() calls interpretKeyEvents:
// to notify text input processor of Cocoa (including IME). In other
// words, when we need to disable IME completey when no editor has
// focus, we cannot call interpretKeyEvents:. So,
// TextInputHandler::InsertText() won't be called when no editor has
// focus so that neither MODIFIER_ALT nor MODIFIER_CONTROL is
// cleared. So, fortunately, altKey and ctrlKey values of "keypress"
// events are same as the other browsers only when no editor has
// focus.
// NOTE: As mentioned above, for compatibility with the other browsers on
// macOS, we should keep MODIFIER_ALT and MODIFIER_CONTROL flags of
// eKeyPress events when no editor has focus. However, Alt key,
// labeled "option" on keyboard for Mac, is AltGraph key on the other
// platforms. So, even if MODIFIER_ALT is set, we need to dispatch
// eKeyPress event even on web content unless mCharCode is 0.
// Therefore, we need to ignore MODIFIER_ALT flag here only on macOS.
return mMessage == eKeyPress && mCharCode &&
!(mModifiers & (
#ifndef XP_MACOSX
// So, ignore MODIFIER_ALT only on macOS since
// option key is used as AltGraph key on macOS.
MODIFIER_ALT |
#endif // #ifndef XP_MAXOSX
MODIFIER_CONTROL | MODIFIER_META | MODIFIER_OS));
}
bool IsInputtingLineBreak() const {
return mMessage == eKeyPress && mKeyNameIndex == KEY_NAME_INDEX_Enter &&
!(mModifiers &
(MODIFIER_ALT | MODIFIER_CONTROL | MODIFIER_META | MODIFIER_OS));
}
/**
* ShouldKeyPressEventBeFiredOnContent() should be called only when the
* instance is eKeyPress event. This returns true when the eKeyPress
* event should be fired even on content in the default event group.
*/
bool ShouldKeyPressEventBeFiredOnContent() const {
MOZ_DIAGNOSTIC_ASSERT(mMessage == eKeyPress);
if (IsInputtingText() || IsInputtingLineBreak()) {
return true;
}
// Ctrl + Enter won't cause actual input in our editor.
// However, the other browsers fire keypress event in any platforms.
// So, for compatibility with them, we should fire keypress event for
// Ctrl + Enter too.
return mMessage == eKeyPress && mKeyNameIndex == KEY_NAME_INDEX_Enter &&
!(mModifiers &
(MODIFIER_ALT | MODIFIER_META | MODIFIER_OS | MODIFIER_SHIFT));
}
virtual WidgetEvent* Duplicate() const override {
MOZ_ASSERT(mClass == eKeyboardEventClass,
"Duplicate() must be overridden by sub class");
// Not copying widget, it is a weak reference.
WidgetKeyboardEvent* result =
new WidgetKeyboardEvent(false, mMessage, nullptr);
result->AssignKeyEventData(*this, true);
result->mEditCommandsForSingleLineEditor =
mEditCommandsForSingleLineEditor.Clone();
result->mEditCommandsForMultiLineEditor =
mEditCommandsForMultiLineEditor.Clone();
result->mEditCommandsForRichTextEditor =
mEditCommandsForRichTextEditor.Clone();
result->mFlags = mFlags;
return result;
}
bool CanUserGestureActivateTarget() const {
// Printable keys, 'carriage return' and 'space' are supported user gestures
// for activating the document. However, if supported key is being pressed
// combining with other operation keys, such like alt, control ..etc., we
// won't activate the target for them because at that time user might
// interact with browser or window manager which doesn't necessarily
// demonstrate user's intent to play media.
const bool isCombiningWithOperationKeys = (IsControl() && !IsAltGraph()) ||
(IsAlt() && !IsAltGraph()) ||
IsMeta() || IsOS();
const bool isEnterOrSpaceKey =
mKeyNameIndex == KEY_NAME_INDEX_Enter || mKeyCode == NS_VK_SPACE;
return (PseudoCharCode() || isEnterOrSpaceKey) &&
(!isCombiningWithOperationKeys ||
// ctrl-c/ctrl-x/ctrl-v is quite common shortcut for clipboard
// operation.
// XXXedgar, we have to find a better way to handle browser keyboard
// shortcut for user activation, instead of just ignoring all
// combinations, see bug 1641171.
((mKeyCode == dom::KeyboardEvent_Binding::DOM_VK_C ||
mKeyCode == dom::KeyboardEvent_Binding::DOM_VK_V ||
mKeyCode == dom::KeyboardEvent_Binding::DOM_VK_X) &&
IsAccel()));
}
/**
* CanTreatAsUserInput() returns true if the key is pressed for perhaps
* doing something on the web app or our UI. This means that when this
* returns false, e.g., when user presses a modifier key, user is probably
* displeased by opening popup, entering fullscreen mode, etc. Therefore,
* only when this returns true, such reactions should be allowed.
*/
bool CanTreatAsUserInput() const {
if (!IsTrusted()) {
return false;
}
switch (mKeyNameIndex) {
case KEY_NAME_INDEX_Escape:
// modifier keys:
case KEY_NAME_INDEX_Alt:
case KEY_NAME_INDEX_AltGraph:
case KEY_NAME_INDEX_CapsLock:
case KEY_NAME_INDEX_Control:
case KEY_NAME_INDEX_Fn:
case KEY_NAME_INDEX_FnLock:
case KEY_NAME_INDEX_Meta:
case KEY_NAME_INDEX_NumLock:
case KEY_NAME_INDEX_ScrollLock:
case KEY_NAME_INDEX_Shift:
case KEY_NAME_INDEX_Symbol:
case KEY_NAME_INDEX_SymbolLock:
// legacy modifier keys:
case KEY_NAME_INDEX_Hyper:
case KEY_NAME_INDEX_Super:
// obsolete modifier key:
case KEY_NAME_INDEX_OS:
return false;
default:
return true;
}
}
/**
* ShouldInteractionTimeRecorded() returns true if the handling time of
* the event should be recorded with the telemetry.
*/
bool ShouldInteractionTimeRecorded() const {
// Let's record only when we can treat the instance is a user input.
return CanTreatAsUserInput();
}
// OS translated Unicode chars which are used for accesskey and accelkey
// handling. The handlers will try from first character to last character.
CopyableTArray<AlternativeCharCode> mAlternativeCharCodes;
// DOM KeyboardEvent.key only when mKeyNameIndex is KEY_NAME_INDEX_USE_STRING.
nsString mKeyValue;
// DOM KeyboardEvent.code only when mCodeNameIndex is
// CODE_NAME_INDEX_USE_STRING.
nsString mCodeValue;
// OS-specific native event can optionally be preserved.
// This is used to retrieve editing shortcut keys in the environment.
void* mNativeKeyEvent;
// A DOM keyCode value or 0. If a keypress event whose mCharCode is 0, this
// should be 0.
uint32_t mKeyCode;
// If the instance is a keypress event of a printable key, this is a UTF-16
// value of the key. Otherwise, 0. This value must not be a control
// character when some modifiers are active. Then, this value should be an
// unmodified value except Shift and AltGr.
uint32_t mCharCode;
// mPseudoCharCode is valid only when mMessage is an eKeyDown event.
// This stores mCharCode value of keypress event which is fired with same
// key value and same modifier state.
uint32_t mPseudoCharCode;
// One of eKeyLocation*
uint32_t mLocation;
// Unique id associated with a keydown / keypress event. It's ok if this wraps
// over long periods.
uint32_t mUniqueId;
// DOM KeyboardEvent.key
KeyNameIndex mKeyNameIndex;
// DOM KeyboardEvent.code
CodeNameIndex mCodeNameIndex;
// Indicates whether the event is generated by auto repeat or not.
// if this is keyup event, always false.
bool mIsRepeat;
// Indicates whether the event is generated during IME (or deadkey)
// composition. This is initialized by EventStateManager. So, key event
// dispatchers don't need to initialize this.
bool mIsComposing;
// Indicates whether the event is synthesized from Text Input Processor
// or an actual event from nsAppShell.
bool mIsSynthesizedByTIP;
Bug 1441821 - NativeKey shouldn't mark eKeyDown and eKeyPress as "skippable in remote process" if message is not caused by physical key press r=m_kato,smaug Currently, TabChild discards eKeyDown and eKeyPress events which are marked as "repeated" and were dispatched after the latest eKeyDown event comes into the process. However, keyboard layout utils may generate native key events as "repeated" even if each native key is important to input proper text. So, TabChild shouldn't decide if coming keyboard event is skippable only with mIsRepeat. For solving this issue, this patch adds mMaybeSkippableInRemoteProcess to WidgetKeyboardEvent and makes TabChild::SkipRepeatedKeyEvent() check WidgetKeyboardEvent::CanSkipInRemoteProcess() instead. On Windows, there are two ways to generate keyboard input messages. One is using SendMessage() or PostMessage(). The other is SendInput() API. In both ways, utils can make their input as repeated key messages. The former case must be safe for this issue since such utils need to set 31st bit of lParam to 1 explicitly. On the other hand, in the latter case, the utils probably need to append KEYEVENTF_KEYUP into KEYBDINPUT::dwFlags. Otherwise, only first call is treated as non-repeated event. So, when given message does not came from physical key operation, NativeKey should set WidgetKeyboardEvent::mMaybeSkippableInRemoteProcess to false even if WidgetKeyboardEvent::mIsRepeat is true. MozReview-Commit-ID: 3rinrOjx8Tf --HG-- extra : rebase_source : 26b6d869260176fc7ef535323b83001bb4b725c2
2018-06-06 17:35:16 +03:00
// Indicates whether the event is skippable in remote process.
// Don't refer this member directly when you need to check this.
// Use CanSkipInRemoteProcess() instead.
bool mMaybeSkippableInRemoteProcess;
// Indicates whether the event should return legacy keyCode value and
// charCode value to web apps (one of them is always 0) or not, when it's
// an eKeyPress event.
bool mUseLegacyKeyCodeAndCharCodeValues;
Bug 1441821 - NativeKey shouldn't mark eKeyDown and eKeyPress as "skippable in remote process" if message is not caused by physical key press r=m_kato,smaug Currently, TabChild discards eKeyDown and eKeyPress events which are marked as "repeated" and were dispatched after the latest eKeyDown event comes into the process. However, keyboard layout utils may generate native key events as "repeated" even if each native key is important to input proper text. So, TabChild shouldn't decide if coming keyboard event is skippable only with mIsRepeat. For solving this issue, this patch adds mMaybeSkippableInRemoteProcess to WidgetKeyboardEvent and makes TabChild::SkipRepeatedKeyEvent() check WidgetKeyboardEvent::CanSkipInRemoteProcess() instead. On Windows, there are two ways to generate keyboard input messages. One is using SendMessage() or PostMessage(). The other is SendInput() API. In both ways, utils can make their input as repeated key messages. The former case must be safe for this issue since such utils need to set 31st bit of lParam to 1 explicitly. On the other hand, in the latter case, the utils probably need to append KEYEVENTF_KEYUP into KEYBDINPUT::dwFlags. Otherwise, only first call is treated as non-repeated event. So, when given message does not came from physical key operation, NativeKey should set WidgetKeyboardEvent::mMaybeSkippableInRemoteProcess to false even if WidgetKeyboardEvent::mIsRepeat is true. MozReview-Commit-ID: 3rinrOjx8Tf --HG-- extra : rebase_source : 26b6d869260176fc7ef535323b83001bb4b725c2
2018-06-06 17:35:16 +03:00
bool CanSkipInRemoteProcess() const {
// If this is a repeat event (i.e., generated by auto-repeat feature of
// the platform), remove process may skip to handle it because of
// performances reasons.. However, if it's caused by odd keyboard utils,
// we should not ignore any key events even marked as repeated since
// generated key sequence may be important to input proper text. E.g.,
// "SinhalaTamil IME" on Windows emulates dead key like input with
// generating WM_KEYDOWN for VK_PACKET (inputting any Unicode characters
// without keyboard layout information) and VK_BACK (Backspace) to remove
// previous character(s) and those messages may be marked as "repeat" by
// their bug.
return mIsRepeat && mMaybeSkippableInRemoteProcess;
}
/**
* If the key is an arrow key, and the current selection is in a vertical
* content, the caret should be moved to physically. However, arrow keys
* are mapped to logical move commands in horizontal content. Therefore,
* we need to check writing mode if and only if the key is an arrow key, and
* need to remap the command to logical command in vertical content if the
* writing mode at selection is vertical. These methods help to convert
* arrow keys in horizontal content to correspnding direction arrow keys
* in vertical content.
*/
bool NeedsToRemapNavigationKey() const {
// TODO: Use mKeyNameIndex instead.
return mKeyCode >= NS_VK_LEFT && mKeyCode <= NS_VK_DOWN;
}
uint32_t GetRemappedKeyCode(const WritingMode& aWritingMode) const {
if (!aWritingMode.IsVertical()) {
return mKeyCode;
}
switch (mKeyCode) {
case NS_VK_LEFT:
return aWritingMode.IsVerticalLR() ? NS_VK_UP : NS_VK_DOWN;
case NS_VK_RIGHT:
return aWritingMode.IsVerticalLR() ? NS_VK_DOWN : NS_VK_UP;
case NS_VK_UP:
return NS_VK_LEFT;
case NS_VK_DOWN:
return NS_VK_RIGHT;
default:
return mKeyCode;
}
}
KeyNameIndex GetRemappedKeyNameIndex(const WritingMode& aWritingMode) const {
if (!aWritingMode.IsVertical()) {
return mKeyNameIndex;
}
uint32_t remappedKeyCode = GetRemappedKeyCode(aWritingMode);
if (remappedKeyCode == mKeyCode) {
return mKeyNameIndex;
}
switch (remappedKeyCode) {
case NS_VK_LEFT:
return KEY_NAME_INDEX_ArrowLeft;
case NS_VK_RIGHT:
return KEY_NAME_INDEX_ArrowRight;
case NS_VK_UP:
return KEY_NAME_INDEX_ArrowUp;
case NS_VK_DOWN:
return KEY_NAME_INDEX_ArrowDown;
default:
MOZ_ASSERT_UNREACHABLE("Add a case for the new remapped key");
return mKeyNameIndex;
}
}
/**
* Retrieves all edit commands from mWidget. This shouldn't be called when
* the instance is an untrusted event, doesn't have widget or in non-chrome
* process.
*
* @param aWritingMode
* When writing mode of focused element is vertical, this
* will resolve some key's physical direction to logical
* direction. For doing it, this must be set to the
* writing mode at current selection. However, when there
* is no focused element and no selection ranges, this
* should be set to Nothing(). Using the result of
* `TextEventDispatcher::MaybeWritingModeAtSelection()` is
* recommended.
*/
MOZ_CAN_RUN_SCRIPT void InitAllEditCommands(
const Maybe<WritingMode>& aWritingMode);
/**
* Retrieves edit commands from mWidget only for aType. This shouldn't be
* called when the instance is an untrusted event or doesn't have widget.
*
* @param aWritingMode
* When writing mode of focused element is vertical, this
* will resolve some key's physical direction to logical
* direction. For doing it, this must be set to the
* writing mode at current selection. However, when there
* is no focused element and no selection ranges, this
* should be set to Nothing(). Using the result of
* `TextEventDispatcher::MaybeWritingModeAtSelection()` is
* recommended.
* @return false if some resource is not available to get
* commands unexpectedly. Otherwise, true even if
* retrieved command is nothing.
*/
MOZ_CAN_RUN_SCRIPT bool InitEditCommandsFor(
nsIWidget::NativeKeyBindingsType aType,
const Maybe<WritingMode>& aWritingMode);
/**
* PreventNativeKeyBindings() makes the instance to not cause any edit
* actions even if it matches with a native key binding.
*/
void PreventNativeKeyBindings() {
mEditCommandsForSingleLineEditor.Clear();
mEditCommandsForMultiLineEditor.Clear();
mEditCommandsForRichTextEditor.Clear();
mEditCommandsForSingleLineEditorInitialized = true;
mEditCommandsForMultiLineEditorInitialized = true;
mEditCommandsForRichTextEditorInitialized = true;
}
/**
* EditCommandsConstRef() returns reference to edit commands for aType.
*/
const nsTArray<CommandInt>& EditCommandsConstRef(
nsIWidget::NativeKeyBindingsType aType) const {
return const_cast<WidgetKeyboardEvent*>(this)->EditCommandsRef(aType);
}
/**
* IsEditCommandsInitialized() returns true if edit commands for aType
* was already initialized. Otherwise, false.
*/
bool IsEditCommandsInitialized(nsIWidget::NativeKeyBindingsType aType) const {
return const_cast<WidgetKeyboardEvent*>(this)->IsEditCommandsInitializedRef(
aType);
}
/**
* AreAllEditCommandsInitialized() returns true if edit commands for all
* types were already initialized. Otherwise, false.
*/
bool AreAllEditCommandsInitialized() const {
return mEditCommandsForSingleLineEditorInitialized &&
mEditCommandsForMultiLineEditorInitialized &&
mEditCommandsForRichTextEditorInitialized;
}
/**
* Execute edit commands for aType.
*
* @return true if the caller should do nothing anymore.
* false, otherwise.
*/
typedef void (*DoCommandCallback)(Command, void*);
MOZ_CAN_RUN_SCRIPT bool ExecuteEditCommands(
nsIWidget::NativeKeyBindingsType aType, DoCommandCallback aCallback,
void* aCallbackData);
// If the key should cause keypress events, this returns true.
// Otherwise, false.
bool ShouldCauseKeypressEvents() const;
// mCharCode value of non-eKeyPress events is always 0. However, if
// non-eKeyPress event has one or more alternative char code values,
// its first item should be the mCharCode value of following eKeyPress event.
// PseudoCharCode() returns mCharCode value for eKeyPress event,
// the first alternative char code value of non-eKeyPress event or 0.
uint32_t PseudoCharCode() const {
return mMessage == eKeyPress ? mCharCode : mPseudoCharCode;
}
void SetCharCode(uint32_t aCharCode) {
if (mMessage == eKeyPress) {
mCharCode = aCharCode;
} else {
mPseudoCharCode = aCharCode;
}
}
void GetDOMKeyName(nsAString& aKeyName) {
if (mKeyNameIndex == KEY_NAME_INDEX_USE_STRING) {
aKeyName = mKeyValue;
return;
}
GetDOMKeyName(mKeyNameIndex, aKeyName);
}
void GetDOMCodeName(nsAString& aCodeName) {
if (mCodeNameIndex == CODE_NAME_INDEX_USE_STRING) {
aCodeName = mCodeValue;
return;
}
GetDOMCodeName(mCodeNameIndex, aCodeName);
}
Bug 1036008 - Use alternative ASCII capable keyboard layout information to decide keyCode even if the key produces an ASCII punctuation character r=smaug Gecko decides keyCode from an ASCII character which is produced by the key by itself or with Shift on active keyboard layout or alternative ASCII capable keyboard layout if active keyboard layout isn't ASCII capable. However, we've ignored alternative ASCII capable keyboard layout's character if both the key itself and with Shift don't produce ASCII alphabet nor ASCII numeral, i.e., ASCII punctuation characters are not used in alternative ASCII capable keyboard layout because of avoiding mapping a keyCode value to 2 or more keys. However, setting 0 to keyCode value makes Firefox unusable with some web applications which are aware of neither KeyboardEvent.key nor KeyboardEvent.code. So, even if we map same keyCode value to a key, we should avoid setting keyCode value to 0 as far as possible. This patch's approach is, we behave same keyCode value as the alternative ASCII capable keyCode is selected when computed keyCode value of active keyboard layout is 0. This means that we will make some language users whose keyboard layout for their language is not ASCII capable can use global web services which support US keyboard layout of Firefox since the new keyCode values are mostly computed with US layout on Windows or actual alternative ASCII capable keyboard layout on macOS and Linux. In other words, we cannot improve compatibility with web applications which don't support Firefox by this patch since our keyCode values are really different from Chrome's. So, unfortunately, if we'd use exactly same keyCode computation as Chromium, we'd break compatibility with existing web applications which are aware of Firefox since it's necessary to check UA name or something before using keyCode values. Note that the most important difference between Windows and the others is, such keyCode value is computed with alternative ASCII capable keyboard layout on macOS and Linux but only on Windows, it's computed with OEM virtual keycode. This means that only on Windows, the keyCode value may be different from actual alternative ASCII capable keyboard layout's keyCode. MozReview-Commit-ID: As289r9wp6i --HG-- extra : rebase_source : 66181403dbe8ca8dab893edc8f4eec1991d544d0
2018-02-16 09:54:07 +03:00
/**
* GetFallbackKeyCodeOfPunctuationKey() returns a DOM keyCode value for
* aCodeNameIndex. This is keyCode value of the key when active keyboard
* layout is ANSI (US), JIS or ABNT keyboard layout (the latter 2 layouts
* are used only when ANSI doesn't have the key). The result is useful
* if the key doesn't produce ASCII character with active keyboard layout
* nor with alternative ASCII capable keyboard layout.
*/
static uint32_t GetFallbackKeyCodeOfPunctuationKey(
CodeNameIndex aCodeNameIndex);
bool IsModifierKeyEvent() const {
return GetModifierForKeyName(mKeyNameIndex) != MODIFIER_NONE;
}
/**
* Get the candidates for shortcut key.
*
* @param aCandidates [out] the candidate shortcut key combination list.
* the first item is most preferred.
*/
void GetShortcutKeyCandidates(ShortcutKeyCandidateArray& aCandidates) const;
/**
* Get the candidates for access key.
*
* @param aCandidates [out] the candidate access key list.
* the first item is most preferred.
*/
void GetAccessKeyCandidates(nsTArray<uint32_t>& aCandidates) const;
/**
* Check whether the modifiers match with chrome access key or
* content access key.
*/
bool ModifiersMatchWithAccessKey(AccessKeyType aType) const;
/**
* Return active modifiers which may match with access key.
* For example, even if Alt is access key modifier, then, when Control,
* CapseLock and NumLock are active, this returns only MODIFIER_CONTROL.
*/
Modifiers ModifiersForAccessKeyMatching() const;
/**
* Return access key modifiers.
*/
static Modifiers AccessKeyModifiers(AccessKeyType aType);
static void Shutdown();
/**
* ComputeLocationFromCodeValue() returns one of .mLocation value
* (eKeyLocation*) which is the most preferred value for the specified code
* value.
*/
static uint32_t ComputeLocationFromCodeValue(CodeNameIndex aCodeNameIndex);
/**
* ComputeKeyCodeFromKeyNameIndex() return a .mKeyCode value which can be
* mapped from the specified key value. Note that this returns 0 if the
* key name index is KEY_NAME_INDEX_Unidentified or KEY_NAME_INDEX_USE_STRING.
* This means that this method is useful only for non-printable keys.
*/
static uint32_t ComputeKeyCodeFromKeyNameIndex(KeyNameIndex aKeyNameIndex);
/**
* ComputeCodeNameIndexFromKeyNameIndex() returns a code name index which
* is typically mapped to given key name index on the platform.
* Note that this returns CODE_NAME_INDEX_UNKNOWN if the key name index is
* KEY_NAME_INDEX_Unidentified or KEY_NAME_INDEX_USE_STRING.
* This means that this method is useful only for non-printable keys.
*
* @param aKeyNameIndex A non-printable key name index.
* @param aLocation Should be one of location value. This is
* important when aKeyNameIndex may exist in
* both Numpad or Standard, or in both Left or
* Right. If this is nothing, this method
* returns Left or Standard position's code
* value.
*/
static CodeNameIndex ComputeCodeNameIndexFromKeyNameIndex(
KeyNameIndex aKeyNameIndex, const Maybe<uint32_t>& aLocation);
/**
* GetModifierForKeyName() returns a value of Modifier which is activated
* by the aKeyNameIndex.
*/
static Modifier GetModifierForKeyName(KeyNameIndex aKeyNameIndex);
/**
* IsLeftOrRightModiferKeyNameIndex() returns true if aKeyNameIndex is a
* modifier key which may be in Left and Right location.
*/
static bool IsLeftOrRightModiferKeyNameIndex(KeyNameIndex aKeyNameIndex) {
switch (aKeyNameIndex) {
case KEY_NAME_INDEX_Alt:
case KEY_NAME_INDEX_Control:
case KEY_NAME_INDEX_Meta:
case KEY_NAME_INDEX_OS:
case KEY_NAME_INDEX_Shift:
return true;
default:
return false;
}
}
/**
* IsLockableModifier() returns true if aKeyNameIndex is a lockable modifier
* key such as CapsLock and NumLock.
*/
static bool IsLockableModifier(KeyNameIndex aKeyNameIndex);
static void GetDOMKeyName(KeyNameIndex aKeyNameIndex, nsAString& aKeyName);
static void GetDOMCodeName(CodeNameIndex aCodeNameIndex,
nsAString& aCodeName);
static KeyNameIndex GetKeyNameIndex(const nsAString& aKeyValue);
static CodeNameIndex GetCodeNameIndex(const nsAString& aCodeValue);
static const char* GetCommandStr(Command aCommand);
void AssignKeyEventData(const WidgetKeyboardEvent& aEvent,
bool aCopyTargets) {
AssignInputEventData(aEvent, aCopyTargets);
mKeyCode = aEvent.mKeyCode;
mCharCode = aEvent.mCharCode;
mPseudoCharCode = aEvent.mPseudoCharCode;
mLocation = aEvent.mLocation;
mAlternativeCharCodes = aEvent.mAlternativeCharCodes.Clone();
mIsRepeat = aEvent.mIsRepeat;
mIsComposing = aEvent.mIsComposing;
mKeyNameIndex = aEvent.mKeyNameIndex;
mCodeNameIndex = aEvent.mCodeNameIndex;
mKeyValue = aEvent.mKeyValue;
mCodeValue = aEvent.mCodeValue;
// Don't copy mNativeKeyEvent because it may be referred after its instance
// is destroyed.
mNativeKeyEvent = nullptr;
mUniqueId = aEvent.mUniqueId;
mIsSynthesizedByTIP = aEvent.mIsSynthesizedByTIP;
Bug 1441821 - NativeKey shouldn't mark eKeyDown and eKeyPress as "skippable in remote process" if message is not caused by physical key press r=m_kato,smaug Currently, TabChild discards eKeyDown and eKeyPress events which are marked as "repeated" and were dispatched after the latest eKeyDown event comes into the process. However, keyboard layout utils may generate native key events as "repeated" even if each native key is important to input proper text. So, TabChild shouldn't decide if coming keyboard event is skippable only with mIsRepeat. For solving this issue, this patch adds mMaybeSkippableInRemoteProcess to WidgetKeyboardEvent and makes TabChild::SkipRepeatedKeyEvent() check WidgetKeyboardEvent::CanSkipInRemoteProcess() instead. On Windows, there are two ways to generate keyboard input messages. One is using SendMessage() or PostMessage(). The other is SendInput() API. In both ways, utils can make their input as repeated key messages. The former case must be safe for this issue since such utils need to set 31st bit of lParam to 1 explicitly. On the other hand, in the latter case, the utils probably need to append KEYEVENTF_KEYUP into KEYBDINPUT::dwFlags. Otherwise, only first call is treated as non-repeated event. So, when given message does not came from physical key operation, NativeKey should set WidgetKeyboardEvent::mMaybeSkippableInRemoteProcess to false even if WidgetKeyboardEvent::mIsRepeat is true. MozReview-Commit-ID: 3rinrOjx8Tf --HG-- extra : rebase_source : 26b6d869260176fc7ef535323b83001bb4b725c2
2018-06-06 17:35:16 +03:00
mMaybeSkippableInRemoteProcess = aEvent.mMaybeSkippableInRemoteProcess;
mUseLegacyKeyCodeAndCharCodeValues =
aEvent.mUseLegacyKeyCodeAndCharCodeValues;
// Don't copy mEditCommandsFor*Editor because it may require a lot of
// memory space. For example, if the event is dispatched but grabbed by
// a JS variable, they are not necessary anymore.
mEditCommandsForSingleLineEditorInitialized =
aEvent.mEditCommandsForSingleLineEditorInitialized;
mEditCommandsForMultiLineEditorInitialized =
aEvent.mEditCommandsForMultiLineEditorInitialized;
mEditCommandsForRichTextEditorInitialized =
aEvent.mEditCommandsForRichTextEditorInitialized;
}
void AssignCommands(const WidgetKeyboardEvent& aEvent) {
mEditCommandsForSingleLineEditorInitialized =
aEvent.mEditCommandsForSingleLineEditorInitialized;
if (mEditCommandsForSingleLineEditorInitialized) {
mEditCommandsForSingleLineEditor =
aEvent.mEditCommandsForSingleLineEditor.Clone();
} else {
mEditCommandsForSingleLineEditor.Clear();
}
mEditCommandsForMultiLineEditorInitialized =
aEvent.mEditCommandsForMultiLineEditorInitialized;
if (mEditCommandsForMultiLineEditorInitialized) {
mEditCommandsForMultiLineEditor =
aEvent.mEditCommandsForMultiLineEditor.Clone();
} else {
mEditCommandsForMultiLineEditor.Clear();
}
mEditCommandsForRichTextEditorInitialized =
aEvent.mEditCommandsForRichTextEditorInitialized;
if (mEditCommandsForRichTextEditorInitialized) {
mEditCommandsForRichTextEditor =
aEvent.mEditCommandsForRichTextEditor.Clone();
} else {
mEditCommandsForRichTextEditor.Clear();
}
}
private:
static const char16_t* const kKeyNames[];
static const char16_t* const kCodeNames[];
typedef nsTHashMap<nsStringHashKey, KeyNameIndex> KeyNameIndexHashtable;
typedef nsTHashMap<nsStringHashKey, CodeNameIndex> CodeNameIndexHashtable;
static KeyNameIndexHashtable* sKeyNameIndexHashtable;
static CodeNameIndexHashtable* sCodeNameIndexHashtable;
// mEditCommandsFor*Editor store edit commands. This should be initialized
// with InitEditCommandsFor().
// XXX Ideally, this should be array of Command rather than CommandInt.
// However, ParamTraits isn't aware of enum array.
CopyableTArray<CommandInt> mEditCommandsForSingleLineEditor;
CopyableTArray<CommandInt> mEditCommandsForMultiLineEditor;
CopyableTArray<CommandInt> mEditCommandsForRichTextEditor;
nsTArray<CommandInt>& EditCommandsRef(
nsIWidget::NativeKeyBindingsType aType) {
switch (aType) {
case nsIWidget::NativeKeyBindingsForSingleLineEditor:
return mEditCommandsForSingleLineEditor;
case nsIWidget::NativeKeyBindingsForMultiLineEditor:
return mEditCommandsForMultiLineEditor;
case nsIWidget::NativeKeyBindingsForRichTextEditor:
return mEditCommandsForRichTextEditor;
default:
MOZ_MAKE_COMPILER_ASSUME_IS_UNREACHABLE(
"Invalid native key binding type");
}
}
// mEditCommandsFor*EditorInitialized are set to true when
// InitEditCommandsFor() initializes edit commands for the type.
bool mEditCommandsForSingleLineEditorInitialized;
bool mEditCommandsForMultiLineEditorInitialized;
bool mEditCommandsForRichTextEditorInitialized;
bool& IsEditCommandsInitializedRef(nsIWidget::NativeKeyBindingsType aType) {
switch (aType) {
case nsIWidget::NativeKeyBindingsForSingleLineEditor:
return mEditCommandsForSingleLineEditorInitialized;
case nsIWidget::NativeKeyBindingsForMultiLineEditor:
return mEditCommandsForMultiLineEditorInitialized;
case nsIWidget::NativeKeyBindingsForRichTextEditor:
return mEditCommandsForRichTextEditorInitialized;
default:
MOZ_MAKE_COMPILER_ASSUME_IS_UNREACHABLE(
"Invalid native key binding type");
}
}
};
/******************************************************************************
* mozilla::WidgetCompositionEvent
******************************************************************************/
class WidgetCompositionEvent : public WidgetGUIEvent {
private:
friend class mozilla::dom::PBrowserParent;
friend class mozilla::dom::PBrowserChild;
WidgetCompositionEvent() : mOriginalMessage(eVoidEvent) {}
public:
virtual WidgetCompositionEvent* AsCompositionEvent() override { return this; }
WidgetCompositionEvent(bool aIsTrusted, EventMessage aMessage,
nsIWidget* aWidget)
: WidgetGUIEvent(aIsTrusted, aMessage, aWidget, eCompositionEventClass),
mNativeIMEContext(aWidget),
mOriginalMessage(eVoidEvent) {}
virtual WidgetEvent* Duplicate() const override {
MOZ_ASSERT(mClass == eCompositionEventClass,
"Duplicate() must be overridden by sub class");
// Not copying widget, it is a weak reference.
WidgetCompositionEvent* result =
new WidgetCompositionEvent(false, mMessage, nullptr);
result->AssignCompositionEventData(*this, true);
result->mFlags = mFlags;
return result;
}
// The composition string or the commit string. If the instance is a
// compositionstart event, this is initialized with selected text by
// TextComposition automatically.
nsString mData;
Bug 1207245 - part 6 - rename nsRefPtr<T> to RefPtr<T>; r=ehsan; a=Tomcat The bulk of this commit was generated with a script, executed at the top level of a typical source code checkout. The only non-machine-generated part was modifying MFBT's moz.build to reflect the new naming. CLOSED TREE makes big refactorings like this a piece of cake. # The main substitution. find . -name '*.cpp' -o -name '*.cc' -o -name '*.h' -o -name '*.mm' -o -name '*.idl'| \ xargs perl -p -i -e ' s/nsRefPtr\.h/RefPtr\.h/g; # handle includes s/nsRefPtr ?</RefPtr</g; # handle declarations and variables ' # Handle a special friend declaration in gfx/layers/AtomicRefCountedWithFinalize.h. perl -p -i -e 's/::nsRefPtr;/::RefPtr;/' gfx/layers/AtomicRefCountedWithFinalize.h # Handle nsRefPtr.h itself, a couple places that define constructors # from nsRefPtr, and code generators specially. We do this here, rather # than indiscriminantly s/nsRefPtr/RefPtr/, because that would rename # things like nsRefPtrHashtable. perl -p -i -e 's/nsRefPtr/RefPtr/g' \ mfbt/nsRefPtr.h \ xpcom/glue/nsCOMPtr.h \ xpcom/base/OwningNonNull.h \ ipc/ipdl/ipdl/lower.py \ ipc/ipdl/ipdl/builtin.py \ dom/bindings/Codegen.py \ python/lldbutils/lldbutils/utils.py # In our indiscriminate substitution above, we renamed # nsRefPtrGetterAddRefs, the class behind getter_AddRefs. Fix that up. find . -name '*.cpp' -o -name '*.h' -o -name '*.idl' | \ xargs perl -p -i -e 's/nsRefPtrGetterAddRefs/RefPtrGetterAddRefs/g' if [ -d .git ]; then git mv mfbt/nsRefPtr.h mfbt/RefPtr.h else hg mv mfbt/nsRefPtr.h mfbt/RefPtr.h fi --HG-- rename : mfbt/nsRefPtr.h => mfbt/RefPtr.h
2015-10-18 08:24:48 +03:00
RefPtr<TextRangeArray> mRanges;
// mNativeIMEContext stores the native IME context which causes the
// composition event.
widget::NativeIMEContext mNativeIMEContext;
// If the instance is a clone of another event, mOriginalMessage stores
// the another event's mMessage.
EventMessage mOriginalMessage;
void AssignCompositionEventData(const WidgetCompositionEvent& aEvent,
bool aCopyTargets) {
AssignGUIEventData(aEvent, aCopyTargets);
mData = aEvent.mData;
mOriginalMessage = aEvent.mOriginalMessage;
mRanges = aEvent.mRanges;
// Currently, we don't need to copy the other members because they are
// for internal use only (not available from JS).
}
bool IsComposing() const { return mRanges && mRanges->IsComposing(); }
uint32_t TargetClauseOffset() const {
return mRanges ? mRanges->TargetClauseOffset() : 0;
}
uint32_t TargetClauseLength() const {
uint32_t length = UINT32_MAX;
if (mRanges) {
length = mRanges->TargetClauseLength();
}
return length == UINT32_MAX ? mData.Length() : length;
}
uint32_t RangeCount() const { return mRanges ? mRanges->Length() : 0; }
bool CausesDOMTextEvent() const {
return mMessage == eCompositionChange || mMessage == eCompositionCommit ||
mMessage == eCompositionCommitAsIs;
}
bool CausesDOMCompositionEndEvent() const {
return mMessage == eCompositionEnd || mMessage == eCompositionCommit ||
mMessage == eCompositionCommitAsIs;
}
bool IsFollowedByCompositionEnd() const {
return IsFollowedByCompositionEnd(mOriginalMessage);
}
static bool IsFollowedByCompositionEnd(EventMessage aEventMessage) {
return aEventMessage == eCompositionCommit ||
aEventMessage == eCompositionCommitAsIs;
}
};
/******************************************************************************
* mozilla::WidgetQueryContentEvent
******************************************************************************/
class WidgetQueryContentEvent : public WidgetGUIEvent {
private:
friend class dom::PBrowserParent;
friend class dom::PBrowserChild;
WidgetQueryContentEvent()
: mUseNativeLineBreak(true),
mWithFontRanges(false),
mNeedsToFlushLayout(true) {
MOZ_CRASH("WidgetQueryContentEvent is created without proper arguments");
}
public:
virtual WidgetQueryContentEvent* AsQueryContentEvent() override {
return this;
}
WidgetQueryContentEvent(bool aIsTrusted, EventMessage aMessage,
nsIWidget* aWidget)
: WidgetGUIEvent(aIsTrusted, aMessage, aWidget, eQueryContentEventClass),
mUseNativeLineBreak(true),
mWithFontRanges(false),
mNeedsToFlushLayout(true) {}
WidgetQueryContentEvent(EventMessage aMessage,
const WidgetQueryContentEvent& aOtherEvent)
: WidgetGUIEvent(aOtherEvent.IsTrusted(), aMessage,
const_cast<nsIWidget*>(aOtherEvent.mWidget.get()),
eQueryContentEventClass),
mUseNativeLineBreak(aOtherEvent.mUseNativeLineBreak),
mWithFontRanges(false),
mNeedsToFlushLayout(aOtherEvent.mNeedsToFlushLayout) {}
virtual WidgetEvent* Duplicate() const override {
// This event isn't an internal event of any DOM event.
NS_ASSERTION(!IsAllowedToDispatchDOMEvent(),
"WidgetQueryContentEvent needs to support Duplicate()");
MOZ_CRASH("WidgetQueryContentEvent doesn't support Duplicate()");
}
struct Options final {
bool mUseNativeLineBreak;
bool mRelativeToInsertionPoint;
explicit Options()
: mUseNativeLineBreak(true), mRelativeToInsertionPoint(false) {}
explicit Options(const WidgetQueryContentEvent& aEvent)
: mUseNativeLineBreak(aEvent.mUseNativeLineBreak),
mRelativeToInsertionPoint(aEvent.mInput.mRelativeToInsertionPoint) {}
};
void Init(const Options& aOptions) {
mUseNativeLineBreak = aOptions.mUseNativeLineBreak;
mInput.mRelativeToInsertionPoint = aOptions.mRelativeToInsertionPoint;
MOZ_ASSERT(mInput.IsValidEventMessage(mMessage));
}
void InitForQueryTextContent(int64_t aOffset, uint32_t aLength,
const Options& aOptions = Options()) {
NS_ASSERTION(mMessage == eQueryTextContent, "wrong initializer is called");
mInput.mOffset = aOffset;
mInput.mLength = aLength;
Init(aOptions);
MOZ_ASSERT(mInput.IsValidOffset());
}
void InitForQueryCaretRect(int64_t aOffset,
const Options& aOptions = Options()) {
NS_ASSERTION(mMessage == eQueryCaretRect, "wrong initializer is called");
mInput.mOffset = aOffset;
Init(aOptions);
MOZ_ASSERT(mInput.IsValidOffset());
}
void InitForQueryTextRect(int64_t aOffset, uint32_t aLength,
const Options& aOptions = Options()) {
NS_ASSERTION(mMessage == eQueryTextRect, "wrong initializer is called");
mInput.mOffset = aOffset;
mInput.mLength = aLength;
Init(aOptions);
MOZ_ASSERT(mInput.IsValidOffset());
}
Bug 1275914 part.5 Support special selections at handling eQuerySelectedText r=smaug TextComposition needs to query first IME selection. Therefore, we need to add support to query special selection range with eQuerySelectedText. First, WidgetQueryContentEvent::mInput should have mSelectionType which should be initialized with InitForQuerySelectedText() but unfortunately, there is no method for eQuerySelectedText. Therefore, this patch initializes WidgetQueryContentEvent::mInit::mSelectionType with SelectionType::eNormal in its constructor. Next, ContentEventHandler needs to support to handle eQuerySelectedText with special selection types. However, we need to create 2 paths in some cases, one is for normal selection and the other is for special selections because there are no selection ranges may be usual case for special selections but not so for normal selection. Therefore, ContentEventHandler::InitCommon() becomes a little bit more complicated. ContentEventHandler::mSelection and ContentEventHandler::mFirstSelectedRange is initialized with the specified selection type but normal selection type is also necessary to compute the selection root since the selection root is computed from the first selected range which may not be anywhere if its selection type is not normal. Finally, ContentEventHandler::OnQuerySelectedText() returns "there are no selections" as succeeded case in special selection type cases. MozReview-Commit-ID: 9WzUx8b5piw --HG-- extra : rebase_source : fb07b40748b594d36315f1fc21c0a02ff9f668bb
2016-06-21 07:13:11 +03:00
void InitForQuerySelectedText(SelectionType aSelectionType,
const Options& aOptions = Options()) {
Bug 1275914 part.5 Support special selections at handling eQuerySelectedText r=smaug TextComposition needs to query first IME selection. Therefore, we need to add support to query special selection range with eQuerySelectedText. First, WidgetQueryContentEvent::mInput should have mSelectionType which should be initialized with InitForQuerySelectedText() but unfortunately, there is no method for eQuerySelectedText. Therefore, this patch initializes WidgetQueryContentEvent::mInit::mSelectionType with SelectionType::eNormal in its constructor. Next, ContentEventHandler needs to support to handle eQuerySelectedText with special selection types. However, we need to create 2 paths in some cases, one is for normal selection and the other is for special selections because there are no selection ranges may be usual case for special selections but not so for normal selection. Therefore, ContentEventHandler::InitCommon() becomes a little bit more complicated. ContentEventHandler::mSelection and ContentEventHandler::mFirstSelectedRange is initialized with the specified selection type but normal selection type is also necessary to compute the selection root since the selection root is computed from the first selected range which may not be anywhere if its selection type is not normal. Finally, ContentEventHandler::OnQuerySelectedText() returns "there are no selections" as succeeded case in special selection type cases. MozReview-Commit-ID: 9WzUx8b5piw --HG-- extra : rebase_source : fb07b40748b594d36315f1fc21c0a02ff9f668bb
2016-06-21 07:13:11 +03:00
MOZ_ASSERT(mMessage == eQuerySelectedText);
MOZ_ASSERT(aSelectionType != SelectionType::eNone);
mInput.mSelectionType = aSelectionType;
Init(aOptions);
Bug 1275914 part.5 Support special selections at handling eQuerySelectedText r=smaug TextComposition needs to query first IME selection. Therefore, we need to add support to query special selection range with eQuerySelectedText. First, WidgetQueryContentEvent::mInput should have mSelectionType which should be initialized with InitForQuerySelectedText() but unfortunately, there is no method for eQuerySelectedText. Therefore, this patch initializes WidgetQueryContentEvent::mInit::mSelectionType with SelectionType::eNormal in its constructor. Next, ContentEventHandler needs to support to handle eQuerySelectedText with special selection types. However, we need to create 2 paths in some cases, one is for normal selection and the other is for special selections because there are no selection ranges may be usual case for special selections but not so for normal selection. Therefore, ContentEventHandler::InitCommon() becomes a little bit more complicated. ContentEventHandler::mSelection and ContentEventHandler::mFirstSelectedRange is initialized with the specified selection type but normal selection type is also necessary to compute the selection root since the selection root is computed from the first selected range which may not be anywhere if its selection type is not normal. Finally, ContentEventHandler::OnQuerySelectedText() returns "there are no selections" as succeeded case in special selection type cases. MozReview-Commit-ID: 9WzUx8b5piw --HG-- extra : rebase_source : fb07b40748b594d36315f1fc21c0a02ff9f668bb
2016-06-21 07:13:11 +03:00
}
void InitForQueryDOMWidgetHittest(
const mozilla::LayoutDeviceIntPoint& aPoint) {
NS_ASSERTION(mMessage == eQueryDOMWidgetHittest,
"wrong initializer is called");
mRefPoint = aPoint;
}
void InitForQueryTextRectArray(uint32_t aOffset, uint32_t aLength,
const Options& aOptions = Options()) {
NS_ASSERTION(mMessage == eQueryTextRectArray,
"wrong initializer is called");
mInput.mOffset = aOffset;
mInput.mLength = aLength;
Init(aOptions);
}
Bug 1530188 - Make nsChildView::GetEditorView() use eQueryContentState without flushing layout r=smaug `nsChildView::GetEditorView()` is called by `TextInputHandlerBase::GetWindowLevel()` which is called when Cocoa requests window level of focused widget. It currently gets widget including focused element (e.g., it may be in a XUL `<panel>`) with `eQueryTextContent` event. However, it requires only the widget (i.e., when a XUL `<panel>` has focused element, the widget for the panel). Therefore, it does not require to flush the layout. However, on macOS, `ContentEventHandler` always flushes layout even with `eQueryContentState` which does not require any layout information. Whether it requires flushing layout or not is considered with `WidgetQueryContentEvent::mNeedsToFlushLayout` but this is set to false only when `IMEContentObserver` notifies widget (and IME) of focus set. At this time, only on macOS, IME caches the layout information, for example, the character coordinates, but we don't have a way to update it. This is the reason why we always flush layout on macOS. Unfortunately, when a menu popup frame is created, widget for the popup is created synchronously. Then, Cocoa retrieves window level of the widget including focused element. But this is unsafe to flush the layout. So, we need to stop flushing layout in this case. Therefore, this patch moves the `#ifdef` from `TextEvents.h` to `IMEContentObserver.cpp`, then, makes `nsChildView::GetEditorView()` use `eQueryContentState` which is the simplest query content event, and finally, sets `mNeedsToFlushLayout` to `false`. Differential Revision: https://phabricator.services.mozilla.com/D25912 --HG-- extra : moz-landing-system : lando
2019-04-03 13:27:13 +03:00
bool NeedsToFlushLayout() const { return mNeedsToFlushLayout; }
void RequestFontRanges() {
MOZ_ASSERT(mMessage == eQueryTextContent);
mWithFontRanges = true;
}
bool Succeeded() const {
if (mReply.isNothing()) {
return false;
}
switch (mMessage) {
case eQuerySelectedText:
return mReply->mOffsetAndData.isSome() ||
mInput.mSelectionType != SelectionType::eNormal;
case eQueryTextContent:
case eQueryTextRect:
case eQueryCaretRect:
return mReply->mOffsetAndData.isSome();
default:
return true;
}
}
bool Failed() const { return !Succeeded(); }
bool FoundSelection() const {
MOZ_ASSERT(mMessage == eQuerySelectedText);
return Succeeded() && mReply->mOffsetAndData.isSome();
}
bool FoundChar() const {
MOZ_ASSERT(mMessage == eQueryCharacterAtPoint);
return Succeeded() && mReply->mOffsetAndData.isSome();
}
bool FoundTentativeCaretOffset() const {
MOZ_ASSERT(mMessage == eQueryCharacterAtPoint);
return Succeeded() && mReply->mTentativeCaretOffset.isSome();
}
bool DidNotFindSelection() const {
MOZ_ASSERT(mMessage == eQuerySelectedText);
return Failed() || mReply->mOffsetAndData.isNothing();
}
bool DidNotFindChar() const {
MOZ_ASSERT(mMessage == eQueryCharacterAtPoint);
return Failed() || mReply->mOffsetAndData.isNothing();
}
bool DidNotFindTentativeCaretOffset() const {
MOZ_ASSERT(mMessage == eQueryCharacterAtPoint);
return Failed() || mReply->mTentativeCaretOffset.isNothing();
}
bool mUseNativeLineBreak;
bool mWithFontRanges;
bool mNeedsToFlushLayout;
Bug 1275914 part.5 Support special selections at handling eQuerySelectedText r=smaug TextComposition needs to query first IME selection. Therefore, we need to add support to query special selection range with eQuerySelectedText. First, WidgetQueryContentEvent::mInput should have mSelectionType which should be initialized with InitForQuerySelectedText() but unfortunately, there is no method for eQuerySelectedText. Therefore, this patch initializes WidgetQueryContentEvent::mInit::mSelectionType with SelectionType::eNormal in its constructor. Next, ContentEventHandler needs to support to handle eQuerySelectedText with special selection types. However, we need to create 2 paths in some cases, one is for normal selection and the other is for special selections because there are no selection ranges may be usual case for special selections but not so for normal selection. Therefore, ContentEventHandler::InitCommon() becomes a little bit more complicated. ContentEventHandler::mSelection and ContentEventHandler::mFirstSelectedRange is initialized with the specified selection type but normal selection type is also necessary to compute the selection root since the selection root is computed from the first selected range which may not be anywhere if its selection type is not normal. Finally, ContentEventHandler::OnQuerySelectedText() returns "there are no selections" as succeeded case in special selection type cases. MozReview-Commit-ID: 9WzUx8b5piw --HG-- extra : rebase_source : fb07b40748b594d36315f1fc21c0a02ff9f668bb
2016-06-21 07:13:11 +03:00
struct Input final {
uint32_t EndOffset() const {
CheckedInt<uint32_t> endOffset = CheckedInt<uint32_t>(mOffset) + mLength;
return NS_WARN_IF(!endOffset.isValid()) ? UINT32_MAX : endOffset.value();
}
int64_t mOffset;
uint32_t mLength;
Bug 1275914 part.5 Support special selections at handling eQuerySelectedText r=smaug TextComposition needs to query first IME selection. Therefore, we need to add support to query special selection range with eQuerySelectedText. First, WidgetQueryContentEvent::mInput should have mSelectionType which should be initialized with InitForQuerySelectedText() but unfortunately, there is no method for eQuerySelectedText. Therefore, this patch initializes WidgetQueryContentEvent::mInit::mSelectionType with SelectionType::eNormal in its constructor. Next, ContentEventHandler needs to support to handle eQuerySelectedText with special selection types. However, we need to create 2 paths in some cases, one is for normal selection and the other is for special selections because there are no selection ranges may be usual case for special selections but not so for normal selection. Therefore, ContentEventHandler::InitCommon() becomes a little bit more complicated. ContentEventHandler::mSelection and ContentEventHandler::mFirstSelectedRange is initialized with the specified selection type but normal selection type is also necessary to compute the selection root since the selection root is computed from the first selected range which may not be anywhere if its selection type is not normal. Finally, ContentEventHandler::OnQuerySelectedText() returns "there are no selections" as succeeded case in special selection type cases. MozReview-Commit-ID: 9WzUx8b5piw --HG-- extra : rebase_source : fb07b40748b594d36315f1fc21c0a02ff9f668bb
2016-06-21 07:13:11 +03:00
SelectionType mSelectionType;
// If mOffset is true, mOffset is relative to the start offset of
// composition if there is, otherwise, the start of the first selection
// range.
bool mRelativeToInsertionPoint;
Bug 1275914 part.5 Support special selections at handling eQuerySelectedText r=smaug TextComposition needs to query first IME selection. Therefore, we need to add support to query special selection range with eQuerySelectedText. First, WidgetQueryContentEvent::mInput should have mSelectionType which should be initialized with InitForQuerySelectedText() but unfortunately, there is no method for eQuerySelectedText. Therefore, this patch initializes WidgetQueryContentEvent::mInit::mSelectionType with SelectionType::eNormal in its constructor. Next, ContentEventHandler needs to support to handle eQuerySelectedText with special selection types. However, we need to create 2 paths in some cases, one is for normal selection and the other is for special selections because there are no selection ranges may be usual case for special selections but not so for normal selection. Therefore, ContentEventHandler::InitCommon() becomes a little bit more complicated. ContentEventHandler::mSelection and ContentEventHandler::mFirstSelectedRange is initialized with the specified selection type but normal selection type is also necessary to compute the selection root since the selection root is computed from the first selected range which may not be anywhere if its selection type is not normal. Finally, ContentEventHandler::OnQuerySelectedText() returns "there are no selections" as succeeded case in special selection type cases. MozReview-Commit-ID: 9WzUx8b5piw --HG-- extra : rebase_source : fb07b40748b594d36315f1fc21c0a02ff9f668bb
2016-06-21 07:13:11 +03:00
Input()
: mOffset(0),
mLength(0),
mSelectionType(SelectionType::eNormal),
mRelativeToInsertionPoint(false) {}
bool IsValidOffset() const {
return mRelativeToInsertionPoint || mOffset >= 0;
}
bool IsValidEventMessage(EventMessage aEventMessage) const {
if (!mRelativeToInsertionPoint) {
return true;
}
switch (aEventMessage) {
case eQueryTextContent:
case eQueryCaretRect:
case eQueryTextRect:
return true;
default:
return false;
}
}
bool MakeOffsetAbsolute(uint32_t aInsertionPointOffset) {
if (NS_WARN_IF(!mRelativeToInsertionPoint)) {
return true;
}
mRelativeToInsertionPoint = false;
// If mOffset + aInsertionPointOffset becomes negative value,
// we should assume the absolute offset is 0.
if (mOffset < 0 && -mOffset > aInsertionPointOffset) {
mOffset = 0;
return true;
}
// Otherwise, we don't allow too large offset.
CheckedInt<uint32_t> absOffset(mOffset + aInsertionPointOffset);
if (NS_WARN_IF(!absOffset.isValid())) {
mOffset = UINT32_MAX;
return false;
}
mOffset = absOffset.value();
return true;
Bug 1275914 part.5 Support special selections at handling eQuerySelectedText r=smaug TextComposition needs to query first IME selection. Therefore, we need to add support to query special selection range with eQuerySelectedText. First, WidgetQueryContentEvent::mInput should have mSelectionType which should be initialized with InitForQuerySelectedText() but unfortunately, there is no method for eQuerySelectedText. Therefore, this patch initializes WidgetQueryContentEvent::mInit::mSelectionType with SelectionType::eNormal in its constructor. Next, ContentEventHandler needs to support to handle eQuerySelectedText with special selection types. However, we need to create 2 paths in some cases, one is for normal selection and the other is for special selections because there are no selection ranges may be usual case for special selections but not so for normal selection. Therefore, ContentEventHandler::InitCommon() becomes a little bit more complicated. ContentEventHandler::mSelection and ContentEventHandler::mFirstSelectedRange is initialized with the specified selection type but normal selection type is also necessary to compute the selection root since the selection root is computed from the first selected range which may not be anywhere if its selection type is not normal. Finally, ContentEventHandler::OnQuerySelectedText() returns "there are no selections" as succeeded case in special selection type cases. MozReview-Commit-ID: 9WzUx8b5piw --HG-- extra : rebase_source : fb07b40748b594d36315f1fc21c0a02ff9f668bb
2016-06-21 07:13:11 +03:00
}
} mInput;
Bug 1275914 part.5 Support special selections at handling eQuerySelectedText r=smaug TextComposition needs to query first IME selection. Therefore, we need to add support to query special selection range with eQuerySelectedText. First, WidgetQueryContentEvent::mInput should have mSelectionType which should be initialized with InitForQuerySelectedText() but unfortunately, there is no method for eQuerySelectedText. Therefore, this patch initializes WidgetQueryContentEvent::mInit::mSelectionType with SelectionType::eNormal in its constructor. Next, ContentEventHandler needs to support to handle eQuerySelectedText with special selection types. However, we need to create 2 paths in some cases, one is for normal selection and the other is for special selections because there are no selection ranges may be usual case for special selections but not so for normal selection. Therefore, ContentEventHandler::InitCommon() becomes a little bit more complicated. ContentEventHandler::mSelection and ContentEventHandler::mFirstSelectedRange is initialized with the specified selection type but normal selection type is also necessary to compute the selection root since the selection root is computed from the first selected range which may not be anywhere if its selection type is not normal. Finally, ContentEventHandler::OnQuerySelectedText() returns "there are no selections" as succeeded case in special selection type cases. MozReview-Commit-ID: 9WzUx8b5piw --HG-- extra : rebase_source : fb07b40748b594d36315f1fc21c0a02ff9f668bb
2016-06-21 07:13:11 +03:00
struct Reply final {
EventMessage const mEventMessage;
void* mContentsRoot;
Maybe<OffsetAndData<uint32_t>> mOffsetAndData;
// mTentativeCaretOffset is used by only eQueryCharacterAtPoint.
// This is the offset where caret would be if user clicked at the mRefPoint.
Maybe<uint32_t> mTentativeCaretOffset;
// mRect is used by eQueryTextRect, eQueryCaretRect, eQueryCharacterAtPoint
// and eQueryEditorRect. The coordinates is system coordinates relative to
// the top level widget of mFocusedWidget. E.g., if a <xul:panel> which
// is owned by a window has focused editor, the offset of mRect is relative
// to the owner window, not the <xul:panel>.
mozilla::LayoutDeviceIntRect mRect;
// The return widget has the caret. This is set at all query events.
nsIWidget* mFocusedWidget;
// mozilla::WritingMode value at the end (focus) of the selection
mozilla::WritingMode mWritingMode;
// Used by eQuerySelectionAsTransferable
nsCOMPtr<nsITransferable> mTransferable;
// Used by eQueryTextContent with font ranges requested
CopyableAutoTArray<mozilla::FontRange, 1> mFontRanges;
// Used by eQueryTextRectArray
CopyableTArray<mozilla::LayoutDeviceIntRect> mRectArray;
// true if selection is reversed (end < start)
bool mReversed;
// true if the selection exists
bool mHasSelection;
// true if DOM element under mouse belongs to widget
bool mWidgetIsHit;
Reply() = delete;
explicit Reply(EventMessage aEventMessage)
: mEventMessage(aEventMessage),
mContentsRoot(nullptr),
mFocusedWidget(nullptr),
mReversed(false),
mHasSelection(false),
mWidgetIsHit(false) {}
// Don't allow to copy/move because of `mEventMessage`.
Reply(const Reply& aOther) = delete;
Reply(Reply&& aOther) = delete;
Reply& operator=(const Reply& aOther) = delete;
Reply& operator=(Reply&& aOther) = delete;
MOZ_NEVER_INLINE_DEBUG uint32_t StartOffset() const {
MOZ_ASSERT(mOffsetAndData.isSome());
return mOffsetAndData->StartOffset();
}
MOZ_NEVER_INLINE_DEBUG uint32_t EndOffset() const {
MOZ_ASSERT(mOffsetAndData.isSome());
return mOffsetAndData->EndOffset();
}
MOZ_NEVER_INLINE_DEBUG uint32_t DataLength() const {
MOZ_ASSERT(mOffsetAndData.isSome() ||
mEventMessage == eQuerySelectedText);
return mOffsetAndData.isSome() ? mOffsetAndData->Length() : 0;
}
MOZ_NEVER_INLINE_DEBUG uint32_t SelectionStartOffset() const {
MOZ_ASSERT(mEventMessage == eQuerySelectedText);
MOZ_ASSERT(mOffsetAndData.isSome());
return StartOffset() + (mReversed ? DataLength() : 0);
}
MOZ_NEVER_INLINE_DEBUG uint32_t SelectionEndOffset() const {
MOZ_ASSERT(mEventMessage == eQuerySelectedText);
MOZ_ASSERT(mOffsetAndData.isSome());
return StartOffset() + (mReversed ? 0 : DataLength());
}
const WritingMode& WritingModeRef() const {
MOZ_ASSERT(mEventMessage == eQuerySelectedText ||
mEventMessage == eQueryCaretRect ||
mEventMessage == eQueryTextRect);
MOZ_ASSERT(mOffsetAndData.isSome() ||
mEventMessage == eQuerySelectedText);
return mWritingMode;
}
MOZ_NEVER_INLINE_DEBUG const nsString& DataRef() const {
MOZ_ASSERT(mOffsetAndData.isSome() ||
mEventMessage == eQuerySelectedText);
return mOffsetAndData.isSome() ? mOffsetAndData->DataRef()
: EmptyString();
}
MOZ_NEVER_INLINE_DEBUG bool IsDataEmpty() const {
MOZ_ASSERT(mOffsetAndData.isSome() ||
mEventMessage == eQuerySelectedText);
return mOffsetAndData.isSome() ? mOffsetAndData->IsDataEmpty() : true;
}
MOZ_NEVER_INLINE_DEBUG bool IsOffsetInRange(uint32_t aOffset) const {
MOZ_ASSERT(mOffsetAndData.isSome() ||
mEventMessage == eQuerySelectedText);
return mOffsetAndData.isSome() ? mOffsetAndData->IsOffsetInRange(aOffset)
: false;
}
MOZ_NEVER_INLINE_DEBUG bool IsOffsetInRangeOrEndOffset(
uint32_t aOffset) const {
MOZ_ASSERT(mOffsetAndData.isSome() ||
mEventMessage == eQuerySelectedText);
return mOffsetAndData.isSome()
? mOffsetAndData->IsOffsetInRangeOrEndOffset(aOffset)
: false;
}
MOZ_NEVER_INLINE_DEBUG void TruncateData(uint32_t aLength = 0) {
MOZ_ASSERT(mOffsetAndData.isSome());
mOffsetAndData->TruncateData(aLength);
}
friend std::ostream& operator<<(std::ostream& aStream,
const Reply& aReply) {
aStream << "{ ";
if (aReply.mEventMessage == eQuerySelectedText ||
aReply.mEventMessage == eQueryTextContent ||
aReply.mEventMessage == eQueryTextRect ||
aReply.mEventMessage == eQueryCaretRect ||
aReply.mEventMessage == eQueryCharacterAtPoint) {
aStream << "mOffsetAndData=" << ToString(aReply.mOffsetAndData).c_str()
<< ", ";
if (aReply.mEventMessage == eQueryCharacterAtPoint) {
aStream << "mTentativeCaretOffset="
<< ToString(aReply.mTentativeCaretOffset).c_str() << ", ";
}
}
aStream << "mHasSelection=" << (aReply.mHasSelection ? "true" : "false");
if (aReply.mHasSelection) {
if (aReply.mEventMessage == eQuerySelectedText) {
aStream << ", mReversed=" << (aReply.mReversed ? "true" : "false");
}
if (aReply.mEventMessage == eQuerySelectionAsTransferable) {
aStream << ", mTransferable=0x" << aReply.mTransferable;
}
}
if (aReply.mEventMessage == eQuerySelectedText ||
aReply.mEventMessage == eQueryTextRect ||
aReply.mEventMessage == eQueryCaretRect) {
aStream << ", mWritingMode=" << ToString(aReply.mWritingMode).c_str();
}
aStream << ", mContentsRoot=0x" << aReply.mContentsRoot
<< ", mFocusedWidget=0x" << aReply.mFocusedWidget;
if (aReply.mEventMessage == eQueryTextContent) {
aStream << ", mFontRanges={ Length()=" << aReply.mFontRanges.Length()
<< " }";
} else if (aReply.mEventMessage == eQueryTextRect ||
aReply.mEventMessage == eQueryCaretRect ||
aReply.mEventMessage == eQueryCharacterAtPoint) {
aStream << ", mRect=" << ToString(aReply.mRect).c_str();
} else if (aReply.mEventMessage == eQueryTextRectArray) {
aStream << ", mRectArray={ Length()=" << aReply.mRectArray.Length()
<< " }";
} else if (aReply.mEventMessage == eQueryDOMWidgetHittest) {
aStream << ", mWidgetIsHit="
<< (aReply.mWidgetIsHit ? "true" : "false");
}
return aStream << " }";
}
};
void EmplaceReply() { mReply.emplace(mMessage); }
Maybe<Reply> mReply;
// values of mComputedScrollAction
enum { SCROLL_ACTION_NONE, SCROLL_ACTION_LINE, SCROLL_ACTION_PAGE };
};
/******************************************************************************
* mozilla::WidgetSelectionEvent
******************************************************************************/
class WidgetSelectionEvent : public WidgetGUIEvent {
private:
friend class mozilla::dom::PBrowserParent;
friend class mozilla::dom::PBrowserChild;
WidgetSelectionEvent()
: mOffset(0),
mLength(0),
mReversed(false),
mExpandToClusterBoundary(true),
mSucceeded(false),
mUseNativeLineBreak(true),
mReason(nsISelectionListener::NO_REASON) {}
public:
virtual WidgetSelectionEvent* AsSelectionEvent() override { return this; }
WidgetSelectionEvent(bool aIsTrusted, EventMessage aMessage,
nsIWidget* aWidget)
: WidgetGUIEvent(aIsTrusted, aMessage, aWidget, eSelectionEventClass),
mOffset(0),
mLength(0),
mReversed(false),
mExpandToClusterBoundary(true),
mSucceeded(false),
mUseNativeLineBreak(true),
mReason(nsISelectionListener::NO_REASON) {}
virtual WidgetEvent* Duplicate() const override {
// This event isn't an internal event of any DOM event.
NS_ASSERTION(!IsAllowedToDispatchDOMEvent(),
"WidgetSelectionEvent needs to support Duplicate()");
MOZ_CRASH("WidgetSelectionEvent doesn't support Duplicate()");
return nullptr;
}
// Start offset of selection
uint32_t mOffset;
// Length of selection
uint32_t mLength;
// Selection "anchor" should be in front
bool mReversed;
// Cluster-based or character-based
bool mExpandToClusterBoundary;
// true if setting selection succeeded.
bool mSucceeded;
// true if native line breaks are used for mOffset and mLength
bool mUseNativeLineBreak;
// Fennec provides eSetSelection reason codes for downstream
// use in AccessibleCaret visibility logic.
int16_t mReason;
};
/******************************************************************************
* mozilla::InternalEditorInputEvent
******************************************************************************/
class InternalEditorInputEvent : public InternalUIEvent {
private:
InternalEditorInputEvent()
: mData(VoidString()),
mInputType(EditorInputType::eUnknown),
mIsComposing(false) {}
public:
virtual InternalEditorInputEvent* AsEditorInputEvent() override {
return this;
}
InternalEditorInputEvent(bool aIsTrusted, EventMessage aMessage,
nsIWidget* aWidget = nullptr)
: InternalUIEvent(aIsTrusted, aMessage, aWidget, eEditorInputEventClass),
mData(VoidString()),
mInputType(EditorInputType::eUnknown) {}
virtual WidgetEvent* Duplicate() const override {
MOZ_ASSERT(mClass == eEditorInputEventClass,
"Duplicate() must be overridden by sub class");
// Not copying widget, it is a weak reference.
InternalEditorInputEvent* result =
new InternalEditorInputEvent(false, mMessage, nullptr);
result->AssignEditorInputEventData(*this, true);
result->mFlags = mFlags;
return result;
}
nsString mData;
RefPtr<dom::DataTransfer> mDataTransfer;
OwningNonNullStaticRangeArray mTargetRanges;
EditorInputType mInputType;
bool mIsComposing;
void AssignEditorInputEventData(const InternalEditorInputEvent& aEvent,
bool aCopyTargets) {
AssignUIEventData(aEvent, aCopyTargets);
mData = aEvent.mData;
mDataTransfer = aEvent.mDataTransfer;
mTargetRanges = aEvent.mTargetRanges.Clone();
mInputType = aEvent.mInputType;
mIsComposing = aEvent.mIsComposing;
}
void GetDOMInputTypeName(nsAString& aInputTypeName) {
GetDOMInputTypeName(mInputType, aInputTypeName);
}
static void GetDOMInputTypeName(EditorInputType aInputType,
nsAString& aInputTypeName);
static EditorInputType GetEditorInputType(const nsAString& aInputType);
static void Shutdown();
private:
static const char16_t* const kInputTypeNames[];
typedef nsTHashMap<nsStringHashKey, EditorInputType> InputTypeHashtable;
static InputTypeHashtable* sInputTypeHashtable;
};
} // namespace mozilla
#endif // mozilla_TextEvents_h__