gecko-dev/widget/android/GeckoEditableSupport.cpp

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57 KiB
C++

/* -*- Mode: c++; c-basic-offset: 4; tab-width: 4; indent-tabs-mode: nil; -*-
* vim: set sw=4 ts=4 expandtab:
* 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/. */
#include "GeckoEditableSupport.h"
#include "AndroidRect.h"
#include "KeyEvent.h"
#include "PuppetWidget.h"
#include "nsIContent.h"
#include "mozilla/IMEStateManager.h"
#include "mozilla/Preferences.h"
#include "mozilla/TextComposition.h"
#include "mozilla/TextEventDispatcherListener.h"
#include "mozilla/TextEvents.h"
#include "mozilla/dom/TabChild.h"
#include <android/api-level.h>
#include <android/input.h>
#include <android/log.h>
#ifdef DEBUG_ANDROID_IME
#define ALOGIME(args...) __android_log_print(ANDROID_LOG_INFO, \
"GeckoEditableSupport" , ## args)
#else
#define ALOGIME(args...) do { } while (0)
#endif
template<> const char
nsWindow::NativePtr<mozilla::widget::GeckoEditableSupport>::sName[] =
"GeckoEditableSupport";
enum {
AKEYCODE_dummy, // Avoid enum without declarations.
// These keycode masks are not defined in android/keycodes.h:
// Note that the NDK unified headers always define these constants, so we
// need to ensure we're _not_ using unified headers, by checking for the
// absence of __ANDROID_API_X__ macros (e.g. __ANDROID_API_L__), which are
// only defined by the unified headers.
#if __ANDROID_API__ < 13 && !defined(__ANDROID_API_I__)
AKEYCODE_ESCAPE = 111,
AKEYCODE_FORWARD_DEL = 112,
AKEYCODE_CTRL_LEFT = 113,
AKEYCODE_CTRL_RIGHT = 114,
AKEYCODE_CAPS_LOCK = 115,
AKEYCODE_SCROLL_LOCK = 116,
AKEYCODE_META_LEFT = 117,
AKEYCODE_META_RIGHT = 118,
AKEYCODE_FUNCTION = 119,
AKEYCODE_SYSRQ = 120,
AKEYCODE_BREAK = 121,
AKEYCODE_MOVE_HOME = 122,
AKEYCODE_MOVE_END = 123,
AKEYCODE_INSERT = 124,
AKEYCODE_FORWARD = 125,
AKEYCODE_MEDIA_PLAY = 126,
AKEYCODE_MEDIA_PAUSE = 127,
AKEYCODE_MEDIA_CLOSE = 128,
AKEYCODE_MEDIA_EJECT = 129,
AKEYCODE_MEDIA_RECORD = 130,
AKEYCODE_F1 = 131,
AKEYCODE_F2 = 132,
AKEYCODE_F3 = 133,
AKEYCODE_F4 = 134,
AKEYCODE_F5 = 135,
AKEYCODE_F6 = 136,
AKEYCODE_F7 = 137,
AKEYCODE_F8 = 138,
AKEYCODE_F9 = 139,
AKEYCODE_F10 = 140,
AKEYCODE_F11 = 141,
AKEYCODE_F12 = 142,
AKEYCODE_NUM_LOCK = 143,
AKEYCODE_NUMPAD_0 = 144,
AKEYCODE_NUMPAD_1 = 145,
AKEYCODE_NUMPAD_2 = 146,
AKEYCODE_NUMPAD_3 = 147,
AKEYCODE_NUMPAD_4 = 148,
AKEYCODE_NUMPAD_5 = 149,
AKEYCODE_NUMPAD_6 = 150,
AKEYCODE_NUMPAD_7 = 151,
AKEYCODE_NUMPAD_8 = 152,
AKEYCODE_NUMPAD_9 = 153,
AKEYCODE_NUMPAD_DIVIDE = 154,
AKEYCODE_NUMPAD_MULTIPLY = 155,
AKEYCODE_NUMPAD_SUBTRACT = 156,
AKEYCODE_NUMPAD_ADD = 157,
AKEYCODE_NUMPAD_DOT = 158,
AKEYCODE_NUMPAD_COMMA = 159,
AKEYCODE_NUMPAD_ENTER = 160,
AKEYCODE_NUMPAD_EQUALS = 161,
AKEYCODE_NUMPAD_LEFT_PAREN = 162,
AKEYCODE_NUMPAD_RIGHT_PAREN = 163,
AKEYCODE_VOLUME_MUTE = 164,
AKEYCODE_INFO = 165,
AKEYCODE_CHANNEL_UP = 166,
AKEYCODE_CHANNEL_DOWN = 167,
AKEYCODE_ZOOM_IN = 168,
AKEYCODE_ZOOM_OUT = 169,
AKEYCODE_TV = 170,
AKEYCODE_WINDOW = 171,
AKEYCODE_GUIDE = 172,
AKEYCODE_DVR = 173,
AKEYCODE_BOOKMARK = 174,
AKEYCODE_CAPTIONS = 175,
AKEYCODE_SETTINGS = 176,
AKEYCODE_TV_POWER = 177,
AKEYCODE_TV_INPUT = 178,
AKEYCODE_STB_POWER = 179,
AKEYCODE_STB_INPUT = 180,
AKEYCODE_AVR_POWER = 181,
AKEYCODE_AVR_INPUT = 182,
AKEYCODE_PROG_RED = 183,
AKEYCODE_PROG_GREEN = 184,
AKEYCODE_PROG_YELLOW = 185,
AKEYCODE_PROG_BLUE = 186,
AKEYCODE_APP_SWITCH = 187,
AKEYCODE_BUTTON_1 = 188,
AKEYCODE_BUTTON_2 = 189,
AKEYCODE_BUTTON_3 = 190,
AKEYCODE_BUTTON_4 = 191,
AKEYCODE_BUTTON_5 = 192,
AKEYCODE_BUTTON_6 = 193,
AKEYCODE_BUTTON_7 = 194,
AKEYCODE_BUTTON_8 = 195,
AKEYCODE_BUTTON_9 = 196,
AKEYCODE_BUTTON_10 = 197,
AKEYCODE_BUTTON_11 = 198,
AKEYCODE_BUTTON_12 = 199,
AKEYCODE_BUTTON_13 = 200,
AKEYCODE_BUTTON_14 = 201,
AKEYCODE_BUTTON_15 = 202,
AKEYCODE_BUTTON_16 = 203,
#endif
#if __ANDROID_API__ < 14 && !defined(__ANDROID_API_I__)
AKEYCODE_LANGUAGE_SWITCH = 204,
AKEYCODE_MANNER_MODE = 205,
AKEYCODE_3D_MODE = 206,
#endif
#if __ANDROID_API__ < 15 && !defined(__ANDROID_API_J__)
AKEYCODE_CONTACTS = 207,
AKEYCODE_CALENDAR = 208,
AKEYCODE_MUSIC = 209,
AKEYCODE_CALCULATOR = 210,
#endif
#if __ANDROID_API__ < 16 && !defined(__ANDROID_API_J__)
AKEYCODE_ZENKAKU_HANKAKU = 211,
AKEYCODE_EISU = 212,
AKEYCODE_MUHENKAN = 213,
AKEYCODE_HENKAN = 214,
AKEYCODE_KATAKANA_HIRAGANA = 215,
AKEYCODE_YEN = 216,
AKEYCODE_RO = 217,
AKEYCODE_KANA = 218,
AKEYCODE_ASSIST = 219,
#endif
#if __ANDROID_API__ < 18 && !defined(__ANDROID_API_J_MR2__)
AKEYCODE_BRIGHTNESS_DOWN = 220,
AKEYCODE_BRIGHTNESS_UP = 221,
#endif
#if __ANDROID_API__ < 19 && !defined(__ANDROID_API_K__)
AKEYCODE_MEDIA_AUDIO_TRACK = 222,
#endif
#if __ANDROID_API__ < 20 && !defined(__ANDROID_API_L__)
AKEYCODE_SLEEP = 223,
AKEYCODE_WAKEUP = 224,
#endif
#if __ANDROID_API__ < 21 && !defined(__ANDROID_API_L__)
AKEYCODE_PAIRING = 225,
AKEYCODE_MEDIA_TOP_MENU = 226,
AKEYCODE_11 = 227,
AKEYCODE_12 = 228,
AKEYCODE_LAST_CHANNEL = 229,
AKEYCODE_TV_DATA_SERVICE = 230,
AKEYCODE_VOICE_ASSIST = 231,
AKEYCODE_TV_RADIO_SERVICE = 232,
AKEYCODE_TV_TELETEXT = 233,
AKEYCODE_TV_NUMBER_ENTRY = 234,
AKEYCODE_TV_TERRESTRIAL_ANALOG = 235,
AKEYCODE_TV_TERRESTRIAL_DIGITAL = 236,
AKEYCODE_TV_SATELLITE = 237,
AKEYCODE_TV_SATELLITE_BS = 238,
AKEYCODE_TV_SATELLITE_CS = 239,
AKEYCODE_TV_SATELLITE_SERVICE = 240,
AKEYCODE_TV_NETWORK = 241,
AKEYCODE_TV_ANTENNA_CABLE = 242,
AKEYCODE_TV_INPUT_HDMI_1 = 243,
AKEYCODE_TV_INPUT_HDMI_2 = 244,
AKEYCODE_TV_INPUT_HDMI_3 = 245,
AKEYCODE_TV_INPUT_HDMI_4 = 246,
AKEYCODE_TV_INPUT_COMPOSITE_1 = 247,
AKEYCODE_TV_INPUT_COMPOSITE_2 = 248,
AKEYCODE_TV_INPUT_COMPONENT_1 = 249,
AKEYCODE_TV_INPUT_COMPONENT_2 = 250,
AKEYCODE_TV_INPUT_VGA_1 = 251,
AKEYCODE_TV_AUDIO_DESCRIPTION = 252,
AKEYCODE_TV_AUDIO_DESCRIPTION_MIX_UP = 253,
AKEYCODE_TV_AUDIO_DESCRIPTION_MIX_DOWN = 254,
AKEYCODE_TV_ZOOM_MODE = 255,
AKEYCODE_TV_CONTENTS_MENU = 256,
AKEYCODE_TV_MEDIA_CONTEXT_MENU = 257,
AKEYCODE_TV_TIMER_PROGRAMMING = 258,
AKEYCODE_HELP = 259,
#endif
#if __ANDROID_API__ < 23 && !defined(__ANDROID_API_M__)
AKEYCODE_NAVIGATE_PREVIOUS = 260,
AKEYCODE_NAVIGATE_NEXT = 261,
AKEYCODE_NAVIGATE_IN = 262,
AKEYCODE_NAVIGATE_OUT = 263,
AKEYCODE_MEDIA_SKIP_FORWARD = 272,
AKEYCODE_MEDIA_SKIP_BACKWARD = 273,
AKEYCODE_MEDIA_STEP_FORWARD = 274,
AKEYCODE_MEDIA_STEP_BACKWARD = 275,
#endif
#if __ANDROID_API__ < 24 && !defined(__ANDROID_API_N__)
AKEYCODE_STEM_PRIMARY = 264,
AKEYCODE_STEM_1 = 265,
AKEYCODE_STEM_2 = 266,
AKEYCODE_STEM_3 = 267,
AKEYCODE_DPAD_UP_LEFT = 268,
AKEYCODE_DPAD_DOWN_LEFT = 269,
AKEYCODE_DPAD_UP_RIGHT = 270,
AKEYCODE_DPAD_DOWN_RIGHT = 271,
AKEYCODE_SOFT_SLEEP = 276,
AKEYCODE_CUT = 277,
AKEYCODE_COPY = 278,
AKEYCODE_PASTE = 279,
#endif
#if __ANDROID_API__ < 25 && !defined(__ANDROID_API_N_MR1__)
AKEYCODE_SYSTEM_NAVIGATION_UP = 280,
AKEYCODE_SYSTEM_NAVIGATION_DOWN = 281,
AKEYCODE_SYSTEM_NAVIGATION_LEFT = 282,
AKEYCODE_SYSTEM_NAVIGATION_RIGHT = 283,
#endif
};
static uint32_t
ConvertAndroidKeyCodeToDOMKeyCode(int32_t androidKeyCode)
{
// Special-case alphanumeric keycodes because they are most common.
if (androidKeyCode >= AKEYCODE_A &&
androidKeyCode <= AKEYCODE_Z) {
return androidKeyCode - AKEYCODE_A + NS_VK_A;
}
if (androidKeyCode >= AKEYCODE_0 &&
androidKeyCode <= AKEYCODE_9) {
return androidKeyCode - AKEYCODE_0 + NS_VK_0;
}
switch (androidKeyCode) {
// KEYCODE_UNKNOWN (0) ... KEYCODE_HOME (3)
case AKEYCODE_BACK: return NS_VK_ESCAPE;
// KEYCODE_CALL (5) ... KEYCODE_POUND (18)
case AKEYCODE_DPAD_UP: return NS_VK_UP;
case AKEYCODE_DPAD_DOWN: return NS_VK_DOWN;
case AKEYCODE_DPAD_LEFT: return NS_VK_LEFT;
case AKEYCODE_DPAD_RIGHT: return NS_VK_RIGHT;
case AKEYCODE_DPAD_CENTER: return NS_VK_RETURN;
case AKEYCODE_VOLUME_UP: return NS_VK_VOLUME_UP;
case AKEYCODE_VOLUME_DOWN: return NS_VK_VOLUME_DOWN;
// KEYCODE_VOLUME_POWER (26) ... KEYCODE_Z (54)
case AKEYCODE_COMMA: return NS_VK_COMMA;
case AKEYCODE_PERIOD: return NS_VK_PERIOD;
case AKEYCODE_ALT_LEFT: return NS_VK_ALT;
case AKEYCODE_ALT_RIGHT: return NS_VK_ALT;
case AKEYCODE_SHIFT_LEFT: return NS_VK_SHIFT;
case AKEYCODE_SHIFT_RIGHT: return NS_VK_SHIFT;
case AKEYCODE_TAB: return NS_VK_TAB;
case AKEYCODE_SPACE: return NS_VK_SPACE;
// KEYCODE_SYM (63) ... KEYCODE_ENVELOPE (65)
case AKEYCODE_ENTER: return NS_VK_RETURN;
case AKEYCODE_DEL: return NS_VK_BACK; // Backspace
case AKEYCODE_GRAVE: return NS_VK_BACK_QUOTE;
// KEYCODE_MINUS (69)
case AKEYCODE_EQUALS: return NS_VK_EQUALS;
case AKEYCODE_LEFT_BRACKET: return NS_VK_OPEN_BRACKET;
case AKEYCODE_RIGHT_BRACKET: return NS_VK_CLOSE_BRACKET;
case AKEYCODE_BACKSLASH: return NS_VK_BACK_SLASH;
case AKEYCODE_SEMICOLON: return NS_VK_SEMICOLON;
// KEYCODE_APOSTROPHE (75)
case AKEYCODE_SLASH: return NS_VK_SLASH;
// KEYCODE_AT (77) ... KEYCODE_MEDIA_FAST_FORWARD (90)
case AKEYCODE_MUTE: return NS_VK_VOLUME_MUTE;
case AKEYCODE_PAGE_UP: return NS_VK_PAGE_UP;
case AKEYCODE_PAGE_DOWN: return NS_VK_PAGE_DOWN;
// KEYCODE_PICTSYMBOLS (94) ... KEYCODE_BUTTON_MODE (110)
case AKEYCODE_ESCAPE: return NS_VK_ESCAPE;
case AKEYCODE_FORWARD_DEL: return NS_VK_DELETE;
case AKEYCODE_CTRL_LEFT: return NS_VK_CONTROL;
case AKEYCODE_CTRL_RIGHT: return NS_VK_CONTROL;
case AKEYCODE_CAPS_LOCK: return NS_VK_CAPS_LOCK;
case AKEYCODE_SCROLL_LOCK: return NS_VK_SCROLL_LOCK;
// KEYCODE_META_LEFT (117) ... KEYCODE_FUNCTION (119)
case AKEYCODE_SYSRQ: return NS_VK_PRINTSCREEN;
case AKEYCODE_BREAK: return NS_VK_PAUSE;
case AKEYCODE_MOVE_HOME: return NS_VK_HOME;
case AKEYCODE_MOVE_END: return NS_VK_END;
case AKEYCODE_INSERT: return NS_VK_INSERT;
// KEYCODE_FORWARD (125) ... KEYCODE_MEDIA_RECORD (130)
case AKEYCODE_F1: return NS_VK_F1;
case AKEYCODE_F2: return NS_VK_F2;
case AKEYCODE_F3: return NS_VK_F3;
case AKEYCODE_F4: return NS_VK_F4;
case AKEYCODE_F5: return NS_VK_F5;
case AKEYCODE_F6: return NS_VK_F6;
case AKEYCODE_F7: return NS_VK_F7;
case AKEYCODE_F8: return NS_VK_F8;
case AKEYCODE_F9: return NS_VK_F9;
case AKEYCODE_F10: return NS_VK_F10;
case AKEYCODE_F11: return NS_VK_F11;
case AKEYCODE_F12: return NS_VK_F12;
case AKEYCODE_NUM_LOCK: return NS_VK_NUM_LOCK;
case AKEYCODE_NUMPAD_0: return NS_VK_NUMPAD0;
case AKEYCODE_NUMPAD_1: return NS_VK_NUMPAD1;
case AKEYCODE_NUMPAD_2: return NS_VK_NUMPAD2;
case AKEYCODE_NUMPAD_3: return NS_VK_NUMPAD3;
case AKEYCODE_NUMPAD_4: return NS_VK_NUMPAD4;
case AKEYCODE_NUMPAD_5: return NS_VK_NUMPAD5;
case AKEYCODE_NUMPAD_6: return NS_VK_NUMPAD6;
case AKEYCODE_NUMPAD_7: return NS_VK_NUMPAD7;
case AKEYCODE_NUMPAD_8: return NS_VK_NUMPAD8;
case AKEYCODE_NUMPAD_9: return NS_VK_NUMPAD9;
case AKEYCODE_NUMPAD_DIVIDE: return NS_VK_DIVIDE;
case AKEYCODE_NUMPAD_MULTIPLY: return NS_VK_MULTIPLY;
case AKEYCODE_NUMPAD_SUBTRACT: return NS_VK_SUBTRACT;
case AKEYCODE_NUMPAD_ADD: return NS_VK_ADD;
case AKEYCODE_NUMPAD_DOT: return NS_VK_DECIMAL;
case AKEYCODE_NUMPAD_COMMA: return NS_VK_SEPARATOR;
case AKEYCODE_NUMPAD_ENTER: return NS_VK_RETURN;
case AKEYCODE_NUMPAD_EQUALS: return NS_VK_EQUALS;
// KEYCODE_NUMPAD_LEFT_PAREN (162) ... KEYCODE_CALCULATOR (210)
// Needs to confirm the behavior. If the key switches the open state
// of Japanese IME (or switches input character between Hiragana and
// Roman numeric characters), then, it might be better to use
// NS_VK_KANJI which is used for Alt+Zenkaku/Hankaku key on Windows.
case AKEYCODE_ZENKAKU_HANKAKU: return 0;
case AKEYCODE_EISU: return NS_VK_EISU;
case AKEYCODE_MUHENKAN: return NS_VK_NONCONVERT;
case AKEYCODE_HENKAN: return NS_VK_CONVERT;
case AKEYCODE_KATAKANA_HIRAGANA: return 0;
case AKEYCODE_YEN: return NS_VK_BACK_SLASH; // Same as other platforms.
case AKEYCODE_RO: return NS_VK_BACK_SLASH; // Same as other platforms.
case AKEYCODE_KANA: return NS_VK_KANA;
case AKEYCODE_ASSIST: return NS_VK_HELP;
// the A key is the action key for gamepad devices.
case AKEYCODE_BUTTON_A: return NS_VK_RETURN;
default:
ALOG("ConvertAndroidKeyCodeToDOMKeyCode: "
"No DOM keycode for Android keycode %d", int(androidKeyCode));
return 0;
}
}
static KeyNameIndex
ConvertAndroidKeyCodeToKeyNameIndex(int32_t keyCode, int32_t action,
int32_t domPrintableKeyValue)
{
// Special-case alphanumeric keycodes because they are most common.
if (keyCode >= AKEYCODE_A && keyCode <= AKEYCODE_Z) {
return KEY_NAME_INDEX_USE_STRING;
}
if (keyCode >= AKEYCODE_0 && keyCode <= AKEYCODE_9) {
return KEY_NAME_INDEX_USE_STRING;
}
switch (keyCode) {
#define NS_NATIVE_KEY_TO_DOM_KEY_NAME_INDEX(aNativeKey, aKeyNameIndex) \
case aNativeKey: return aKeyNameIndex;
#include "NativeKeyToDOMKeyName.h"
#undef NS_NATIVE_KEY_TO_DOM_KEY_NAME_INDEX
// KEYCODE_0 (7) ... KEYCODE_9 (16)
case AKEYCODE_STAR: // '*' key
case AKEYCODE_POUND: // '#' key
// KEYCODE_A (29) ... KEYCODE_Z (54)
case AKEYCODE_COMMA: // ',' key
case AKEYCODE_PERIOD: // '.' key
case AKEYCODE_SPACE:
case AKEYCODE_GRAVE: // '`' key
case AKEYCODE_MINUS: // '-' key
case AKEYCODE_EQUALS: // '=' key
case AKEYCODE_LEFT_BRACKET: // '[' key
case AKEYCODE_RIGHT_BRACKET: // ']' key
case AKEYCODE_BACKSLASH: // '\' key
case AKEYCODE_SEMICOLON: // ';' key
case AKEYCODE_APOSTROPHE: // ''' key
case AKEYCODE_SLASH: // '/' key
case AKEYCODE_AT: // '@' key
case AKEYCODE_PLUS: // '+' key
case AKEYCODE_NUMPAD_0:
case AKEYCODE_NUMPAD_1:
case AKEYCODE_NUMPAD_2:
case AKEYCODE_NUMPAD_3:
case AKEYCODE_NUMPAD_4:
case AKEYCODE_NUMPAD_5:
case AKEYCODE_NUMPAD_6:
case AKEYCODE_NUMPAD_7:
case AKEYCODE_NUMPAD_8:
case AKEYCODE_NUMPAD_9:
case AKEYCODE_NUMPAD_DIVIDE:
case AKEYCODE_NUMPAD_MULTIPLY:
case AKEYCODE_NUMPAD_SUBTRACT:
case AKEYCODE_NUMPAD_ADD:
case AKEYCODE_NUMPAD_DOT:
case AKEYCODE_NUMPAD_COMMA:
case AKEYCODE_NUMPAD_EQUALS:
case AKEYCODE_NUMPAD_LEFT_PAREN:
case AKEYCODE_NUMPAD_RIGHT_PAREN:
case AKEYCODE_YEN: // yen sign key
case AKEYCODE_RO: // Japanese Ro key
return KEY_NAME_INDEX_USE_STRING;
case AKEYCODE_NUM: // XXX Not sure
case AKEYCODE_PICTSYMBOLS:
case AKEYCODE_BUTTON_A:
case AKEYCODE_BUTTON_B:
case AKEYCODE_BUTTON_C:
case AKEYCODE_BUTTON_X:
case AKEYCODE_BUTTON_Y:
case AKEYCODE_BUTTON_Z:
case AKEYCODE_BUTTON_L1:
case AKEYCODE_BUTTON_R1:
case AKEYCODE_BUTTON_L2:
case AKEYCODE_BUTTON_R2:
case AKEYCODE_BUTTON_THUMBL:
case AKEYCODE_BUTTON_THUMBR:
case AKEYCODE_BUTTON_START:
case AKEYCODE_BUTTON_SELECT:
case AKEYCODE_BUTTON_MODE:
case AKEYCODE_MEDIA_CLOSE:
case AKEYCODE_BUTTON_1:
case AKEYCODE_BUTTON_2:
case AKEYCODE_BUTTON_3:
case AKEYCODE_BUTTON_4:
case AKEYCODE_BUTTON_5:
case AKEYCODE_BUTTON_6:
case AKEYCODE_BUTTON_7:
case AKEYCODE_BUTTON_8:
case AKEYCODE_BUTTON_9:
case AKEYCODE_BUTTON_10:
case AKEYCODE_BUTTON_11:
case AKEYCODE_BUTTON_12:
case AKEYCODE_BUTTON_13:
case AKEYCODE_BUTTON_14:
case AKEYCODE_BUTTON_15:
case AKEYCODE_BUTTON_16:
return KEY_NAME_INDEX_Unidentified;
case AKEYCODE_UNKNOWN:
MOZ_ASSERT(
action != AKEY_EVENT_ACTION_MULTIPLE,
"Don't call this when action is AKEY_EVENT_ACTION_MULTIPLE!");
// It's actually an unknown key if the action isn't ACTION_MULTIPLE.
// However, it might cause text input. So, let's check the value.
return domPrintableKeyValue ?
KEY_NAME_INDEX_USE_STRING : KEY_NAME_INDEX_Unidentified;
default:
ALOG("ConvertAndroidKeyCodeToKeyNameIndex: "
"No DOM key name index for Android keycode %d", keyCode);
return KEY_NAME_INDEX_Unidentified;
}
}
static CodeNameIndex
ConvertAndroidScanCodeToCodeNameIndex(int32_t scanCode)
{
switch (scanCode) {
#define NS_NATIVE_KEY_TO_DOM_CODE_NAME_INDEX(aNativeKey, aCodeNameIndex) \
case aNativeKey: return aCodeNameIndex;
#include "NativeKeyToDOMCodeName.h"
#undef NS_NATIVE_KEY_TO_DOM_CODE_NAME_INDEX
default:
return CODE_NAME_INDEX_UNKNOWN;
}
}
static void
InitKeyEvent(WidgetKeyboardEvent& aEvent, int32_t aAction, int32_t aKeyCode,
int32_t aScanCode, int32_t aMetaState, int64_t aTime,
int32_t aDomPrintableKeyValue, int32_t aRepeatCount,
int32_t aFlags)
{
const uint32_t domKeyCode = ConvertAndroidKeyCodeToDOMKeyCode(aKeyCode);
aEvent.mModifiers = nsWindow::GetModifiers(aMetaState);
aEvent.mKeyCode = domKeyCode;
aEvent.mIsRepeat =
(aEvent.mMessage == eKeyDown || aEvent.mMessage == eKeyPress) &&
((aFlags & sdk::KeyEvent::FLAG_LONG_PRESS) || aRepeatCount);
aEvent.mKeyNameIndex = ConvertAndroidKeyCodeToKeyNameIndex(
aKeyCode, aAction, aDomPrintableKeyValue);
aEvent.mCodeNameIndex = ConvertAndroidScanCodeToCodeNameIndex(aScanCode);
if (aEvent.mKeyNameIndex == KEY_NAME_INDEX_USE_STRING &&
aDomPrintableKeyValue) {
aEvent.mKeyValue = char16_t(aDomPrintableKeyValue);
}
aEvent.mLocation =
WidgetKeyboardEvent::ComputeLocationFromCodeValue(aEvent.mCodeNameIndex);
aEvent.mTime = aTime;
aEvent.mTimeStamp = nsWindow::GetEventTimeStamp(aTime);
}
static nscolor
ConvertAndroidColor(uint32_t aArgb)
{
return NS_RGBA((aArgb & 0x00ff0000) >> 16,
(aArgb & 0x0000ff00) >> 8,
(aArgb & 0x000000ff),
(aArgb & 0xff000000) >> 24);
}
static jni::ObjectArray::LocalRef
ConvertRectArrayToJavaRectFArray(const nsTArray<LayoutDeviceIntRect>& aRects,
const CSSToLayoutDeviceScale aScale)
{
const size_t length = aRects.Length();
auto rects = jni::ObjectArray::New<sdk::RectF>(length);
for (size_t i = 0; i < length; i++) {
const LayoutDeviceIntRect& tmp = aRects[i];
// Character bounds in CSS units.
auto rect = sdk::RectF::New(tmp.x / aScale.scale, tmp.y / aScale.scale,
(tmp.x + tmp.width) / aScale.scale,
(tmp.y + tmp.height) / aScale.scale);
rects->SetElement(i, rect);
}
return rects;
}
namespace mozilla {
namespace widget {
bool GeckoEditableSupport::sDispatchKeyEventsInCompositionForAnyApps = false;
NS_IMPL_ISUPPORTS(GeckoEditableSupport,
TextEventDispatcherListener,
nsISupportsWeakReference)
void
GeckoEditableSupport::ObservePrefs()
{
static bool sIsObservingPref = false;
if (sIsObservingPref) {
return;
}
sIsObservingPref = true;
Preferences::AddBoolVarCache(
&sDispatchKeyEventsInCompositionForAnyApps,
"intl.ime.hack.on_any_apps.fire_key_events_for_composition",
false);
}
RefPtr<TextComposition>
GeckoEditableSupport::GetComposition() const
{
nsCOMPtr<nsIWidget> widget = GetWidget();
return widget ? IMEStateManager::GetTextCompositionFor(widget) : nullptr;
}
bool
GeckoEditableSupport::RemoveComposition(RemoveCompositionFlag aFlag)
{
if (!mDispatcher || !mDispatcher->IsComposing()) {
return false;
}
nsEventStatus status = nsEventStatus_eIgnore;
NS_ENSURE_SUCCESS(BeginInputTransaction(mDispatcher), false);
mDispatcher->CommitComposition(
status, aFlag == CANCEL_IME_COMPOSITION ? &EmptyString() : nullptr);
return true;
}
void
GeckoEditableSupport::OnKeyEvent(int32_t aAction, int32_t aKeyCode,
int32_t aScanCode, int32_t aMetaState, int32_t aKeyPressMetaState,
int64_t aTime, int32_t aDomPrintableKeyValue, int32_t aRepeatCount,
int32_t aFlags, bool aIsSynthesizedImeKey,
jni::Object::Param aOriginalEvent)
{
nsCOMPtr<nsIWidget> widget = GetWidget();
RefPtr<TextEventDispatcher> dispatcher =
mDispatcher ? mDispatcher.get() :
widget ? widget->GetTextEventDispatcher() : nullptr;
NS_ENSURE_TRUE_VOID(dispatcher && widget);
if (!aIsSynthesizedImeKey && mWindow) {
mWindow->UserActivity();
} else if (aIsSynthesizedImeKey && mIMEMaskEventsCount > 0) {
// Don't synthesize editor keys when not focused.
return;
}
EventMessage msg;
if (aAction == sdk::KeyEvent::ACTION_DOWN) {
msg = eKeyDown;
} else if (aAction == sdk::KeyEvent::ACTION_UP) {
msg = eKeyUp;
} else if (aAction == sdk::KeyEvent::ACTION_MULTIPLE) {
// Keys with multiple action are handled in Java,
// and we should never see one here
MOZ_CRASH("Cannot handle key with multiple action");
} else {
NS_WARNING("Unknown key action event");
return;
}
nsEventStatus status = nsEventStatus_eIgnore;
WidgetKeyboardEvent event(true, msg, widget);
InitKeyEvent(event, aAction, aKeyCode, aScanCode, aMetaState, aTime,
aDomPrintableKeyValue, aRepeatCount, aFlags);
if (nsIWidget::UsePuppetWidgets()) {
// Don't use native key bindings.
event.PreventNativeKeyBindings();
}
if (aIsSynthesizedImeKey) {
// Keys synthesized by Java IME code are saved in the mIMEKeyEvents
// array until the next IME_REPLACE_TEXT event, at which point
// these keys are dispatched in sequence.
mIMEKeyEvents.AppendElement(UniquePtr<WidgetEvent>(event.Duplicate()));
} else {
RemoveComposition();
NS_ENSURE_SUCCESS_VOID(BeginInputTransaction(dispatcher));
dispatcher->DispatchKeyboardEvent(msg, event, status);
if (widget->Destroyed() || status == nsEventStatus_eConsumeNoDefault) {
// Skip default processing.
return;
}
mEditable->OnDefaultKeyEvent(aOriginalEvent);
}
// Only send keypress after keydown.
if (msg != eKeyDown) {
return;
}
WidgetKeyboardEvent pressEvent(true, eKeyPress, widget);
InitKeyEvent(pressEvent, aAction, aKeyCode, aScanCode, aKeyPressMetaState,
aTime, aDomPrintableKeyValue, aRepeatCount, aFlags);
if (nsIWidget::UsePuppetWidgets()) {
// Don't use native key bindings.
pressEvent.PreventNativeKeyBindings();
}
if (aIsSynthesizedImeKey) {
mIMEKeyEvents.AppendElement(
UniquePtr<WidgetEvent>(pressEvent.Duplicate()));
} else {
dispatcher->MaybeDispatchKeypressEvents(pressEvent, status);
}
}
/*
* Send dummy key events for pages that are unaware of input events,
* to provide web compatibility for pages that depend on key events.
*/
void
GeckoEditableSupport::SendIMEDummyKeyEvent(nsIWidget* aWidget, EventMessage msg)
{
nsEventStatus status = nsEventStatus_eIgnore;
MOZ_ASSERT(mDispatcher);
WidgetKeyboardEvent event(true, msg, aWidget);
event.mTime = PR_Now() / 1000;
// TODO: If we can know scan code of the key event which caused replacing
// composition string, we should set mCodeNameIndex here. Then,
// we should rename this method because it becomes not a "dummy"
// keyboard event.
event.mKeyCode = NS_VK_PROCESSKEY;
event.mKeyNameIndex = KEY_NAME_INDEX_Process;
// KeyboardEvents marked as "processed by IME" shouldn't cause any edit
// actions. So, we should set their native key binding to none before
// dispatch to avoid crash on PuppetWidget and avoid running redundant
// path to look for native key bindings.
event.PreventNativeKeyBindings();
NS_ENSURE_SUCCESS_VOID(BeginInputTransaction(mDispatcher));
mDispatcher->DispatchKeyboardEvent(msg, event, status);
}
void
GeckoEditableSupport::AddIMETextChange(const IMETextChange& aChange)
{
mIMETextChanges.AppendElement(aChange);
// We may not be in the middle of flushing,
// in which case this flag is meaningless.
mIMETextChangedDuringFlush = true;
// Now that we added a new range we need to go back and
// update all the ranges before that.
// Ranges that have offsets which follow this new range
// need to be updated to reflect new offsets
const int32_t delta = aChange.mNewEnd - aChange.mOldEnd;
for (int32_t i = mIMETextChanges.Length() - 2; i >= 0; i--) {
IMETextChange& previousChange = mIMETextChanges[i];
if (previousChange.mStart > aChange.mOldEnd) {
previousChange.mStart += delta;
previousChange.mOldEnd += delta;
previousChange.mNewEnd += delta;
}
}
// Now go through all ranges to merge any ranges that are connected
// srcIndex is the index of the range to merge from
// dstIndex is the index of the range to potentially merge into
int32_t srcIndex = mIMETextChanges.Length() - 1;
int32_t dstIndex = srcIndex;
while (--dstIndex >= 0) {
IMETextChange& src = mIMETextChanges[srcIndex];
IMETextChange& dst = mIMETextChanges[dstIndex];
// When merging a more recent change into an older
// change, we need to compare recent change's (start, oldEnd)
// range to the older change's (start, newEnd)
if (src.mOldEnd < dst.mStart || dst.mNewEnd < src.mStart) {
// No overlap between ranges
continue;
}
// When merging two ranges, there are generally four posibilities:
// [----(----]----), (----[----]----),
// [----(----)----], (----[----)----]
// where [----] is the first range and (----) is the second range
// As seen above, the start of the merged range is always the lesser
// of the two start offsets. OldEnd and NewEnd then need to be
// adjusted separately depending on the case. In any case, the change
// in text length of the merged range should be the sum of text length
// changes of the two original ranges, i.e.,
// newNewEnd - newOldEnd == newEnd1 - oldEnd1 + newEnd2 - oldEnd2
dst.mStart = std::min(dst.mStart, src.mStart);
if (src.mOldEnd < dst.mNewEnd) {
// New range overlaps or is within previous range; merge
dst.mNewEnd += src.mNewEnd - src.mOldEnd;
} else { // src.mOldEnd >= dst.mNewEnd
// New range overlaps previous range; merge
dst.mOldEnd += src.mOldEnd - dst.mNewEnd;
dst.mNewEnd = src.mNewEnd;
}
// src merged to dst; delete src.
mIMETextChanges.RemoveElementAt(srcIndex);
// Any ranges that we skip over between src and dst are not mergeable
// so we can safely continue the merge starting at dst
srcIndex = dstIndex;
}
}
void
GeckoEditableSupport::PostFlushIMEChanges()
{
if (!mIMETextChanges.IsEmpty() || mIMESelectionChanged) {
// Already posted
return;
}
RefPtr<GeckoEditableSupport> self(this);
nsAppShell::PostEvent([this, self] {
nsCOMPtr<nsIWidget> widget = GetWidget();
if (widget && !widget->Destroyed()) {
FlushIMEChanges();
}
});
}
void
GeckoEditableSupport::FlushIMEChanges(FlushChangesFlag aFlags)
{
// Only send change notifications if we are *not* masking events,
// i.e. if we have a focused editor,
NS_ENSURE_TRUE_VOID(!mIMEMaskEventsCount);
nsCOMPtr<nsIWidget> widget = GetWidget();
NS_ENSURE_TRUE_VOID(widget);
struct TextRecord
{
nsString text;
int32_t start;
int32_t oldEnd;
int32_t newEnd;
};
AutoTArray<TextRecord, 4> textTransaction;
textTransaction.SetCapacity(mIMETextChanges.Length());
nsEventStatus status = nsEventStatus_eIgnore;
mIMETextChangedDuringFlush = false;
auto shouldAbort = [=] (bool aForce) -> bool {
if (!aForce && !mIMETextChangedDuringFlush) {
return false;
}
// A query event could have triggered more text changes to come in, as
// indicated by our flag. If that happens, try flushing IME changes
// again.
if (aFlags == FLUSH_FLAG_NONE) {
FlushIMEChanges(FLUSH_FLAG_RETRY);
} else {
// Don't retry if already retrying, to avoid infinite loops.
__android_log_print(ANDROID_LOG_WARN, "GeckoEditableSupport",
"Already retrying IME flush");
}
return true;
};
for (const IMETextChange &change : mIMETextChanges) {
if (change.mStart == change.mOldEnd &&
change.mStart == change.mNewEnd) {
continue;
}
WidgetQueryContentEvent event(true, eQueryTextContent, widget);
if (change.mNewEnd != change.mStart) {
event.InitForQueryTextContent(change.mStart,
change.mNewEnd - change.mStart);
widget->DispatchEvent(&event, status);
if (shouldAbort(NS_WARN_IF(!event.mSucceeded))) {
return;
}
}
textTransaction.AppendElement(
TextRecord{event.mReply.mString, change.mStart,
change.mOldEnd, change.mNewEnd});
}
int32_t selStart = -1;
int32_t selEnd = -1;
if (mIMESelectionChanged) {
WidgetQueryContentEvent event(true, eQuerySelectedText, widget);
widget->DispatchEvent(&event, status);
if (shouldAbort(NS_WARN_IF(!event.mSucceeded))) {
return;
}
selStart = int32_t(event.GetSelectionStart());
selEnd = int32_t(event.GetSelectionEnd());
}
JNIEnv* const env = jni::GetGeckoThreadEnv();
auto flushOnException = [=] () -> bool {
if (!env->ExceptionCheck()) {
return false;
}
if (aFlags != FLUSH_FLAG_RECOVER) {
// First time seeing an exception; try flushing text.
env->ExceptionClear();
__android_log_print(ANDROID_LOG_WARN, "GeckoEditableSupport",
"Recovering from IME exception");
FlushIMEText(FLUSH_FLAG_RECOVER);
} else {
// Give up because we've already tried.
#ifdef RELEASE_OR_BETA
env->ExceptionClear();
#else
MOZ_CATCH_JNI_EXCEPTION(env);
#endif
}
return true;
};
// Commit the text change and selection change transaction.
mIMETextChanges.Clear();
for (const TextRecord& record : textTransaction) {
mEditable->OnTextChange(record.text, record.start,
record.oldEnd, record.newEnd);
if (flushOnException()) {
return;
}
}
while (mIMEDelaySynchronizeReply && mIMEActiveSynchronizeCount) {
mIMEActiveSynchronizeCount--;
mEditable->NotifyIME(EditableListener::NOTIFY_IME_REPLY_EVENT);
}
mIMEDelaySynchronizeReply = false;
mIMEActiveSynchronizeCount = 0;
if (mIMESelectionChanged) {
mIMESelectionChanged = false;
mEditable->OnSelectionChange(selStart, selEnd);
flushOnException();
}
}
void
GeckoEditableSupport::FlushIMEText(FlushChangesFlag aFlags)
{
// Notify Java of the newly focused content
mIMETextChanges.Clear();
mIMESelectionChanged = true;
// Use 'INT32_MAX / 2' here because subsequent text changes might combine
// with this text change, and overflow might occur if we just use
// INT32_MAX.
IMENotification notification(NOTIFY_IME_OF_TEXT_CHANGE);
notification.mTextChangeData.mStartOffset = 0;
notification.mTextChangeData.mRemovedEndOffset = INT32_MAX / 2;
notification.mTextChangeData.mAddedEndOffset = INT32_MAX / 2;
NotifyIME(mDispatcher, notification);
FlushIMEChanges(aFlags);
}
void
GeckoEditableSupport::UpdateCompositionRects()
{
nsCOMPtr<nsIWidget> widget = GetWidget();
RefPtr<TextComposition> composition(GetComposition());
NS_ENSURE_TRUE_VOID(mDispatcher && widget);
if (!composition) {
return;
}
nsEventStatus status = nsEventStatus_eIgnore;
uint32_t offset = composition->NativeOffsetOfStartComposition();
WidgetQueryContentEvent textRects(true, eQueryTextRectArray, widget);
textRects.InitForQueryTextRectArray(offset, composition->String().Length());
widget->DispatchEvent(&textRects, status);
auto rects = ConvertRectArrayToJavaRectFArray(
textRects.mReply.mRectArray,
widget->GetDefaultScale());
mEditable->UpdateCompositionRects(rects);
}
void
GeckoEditableSupport::OnImeSynchronize()
{
if (mIMEDelaySynchronizeReply) {
// If we are waiting for other events to reply,
// queue this reply as well.
mIMEActiveSynchronizeCount++;
return;
}
if (!mIMEMaskEventsCount) {
FlushIMEChanges();
}
mEditable->NotifyIME(EditableListener::NOTIFY_IME_REPLY_EVENT);
}
void
GeckoEditableSupport::OnImeReplaceText(int32_t aStart, int32_t aEnd,
jni::String::Param aText)
{
if (DoReplaceText(aStart, aEnd, aText)) {
mIMEDelaySynchronizeReply = true;
}
OnImeSynchronize();
}
bool
GeckoEditableSupport::DoReplaceText(int32_t aStart, int32_t aEnd,
jni::String::Param aText)
{
// Return true if processed and we should reply to the OnImeReplaceText
// event later. Return false if _not_ processed and we should reply to the
// OnImeReplaceText event now.
if (mIMEMaskEventsCount > 0) {
// Not focused; still reply to events, but don't do anything else.
return false;
}
if (mWindow) {
mWindow->UserActivity();
}
/*
Replace text in Gecko thread from aStart to aEnd with the string text.
*/
nsCOMPtr<nsIWidget> widget = GetWidget();
NS_ENSURE_TRUE(mDispatcher && widget, false);
NS_ENSURE_SUCCESS(BeginInputTransaction(mDispatcher), false);
RefPtr<TextComposition> composition(GetComposition());
MOZ_ASSERT(!composition || !composition->IsEditorHandlingEvent());
nsString string(aText->ToString());
const bool composing = !mIMERanges->IsEmpty();
nsEventStatus status = nsEventStatus_eIgnore;
bool textChanged = composing;
if (!mIMEKeyEvents.IsEmpty() ||
!composition || !mDispatcher->IsComposing() ||
uint32_t(aStart) != composition->NativeOffsetOfStartComposition() ||
uint32_t(aEnd) != composition->NativeOffsetOfStartComposition() +
composition->String().Length()) {
// Only start a new composition if we have key events,
// if we don't have an existing composition, or
// the replaced text does not match our composition.
textChanged |= RemoveComposition();
{
// Use text selection to set target position(s) for
// insert, or replace, of text.
WidgetSelectionEvent event(true, eSetSelection, widget);
event.mOffset = uint32_t(aStart);
event.mLength = uint32_t(aEnd - aStart);
event.mExpandToClusterBoundary = false;
event.mReason = nsISelectionListener::IME_REASON;
widget->DispatchEvent(&event, status);
}
if (!mIMEKeyEvents.IsEmpty()) {
for (uint32_t i = 0; i < mIMEKeyEvents.Length(); i++) {
const auto event = mIMEKeyEvents[i]->AsKeyboardEvent();
// widget for duplicated events is initially nullptr.
event->mWidget = widget;
if (event->mMessage != eKeyPress) {
mDispatcher->DispatchKeyboardEvent(
event->mMessage, *event, status);
} else {
mDispatcher->MaybeDispatchKeypressEvents(*event, status);
}
if (!mDispatcher || widget->Destroyed()) {
break;
}
}
mIMEKeyEvents.Clear();
return true;
}
if (aStart != aEnd) {
// Perform a deletion first.
WidgetContentCommandEvent event(
true, eContentCommandDelete, widget);
event.mTime = PR_Now() / 1000;
widget->DispatchEvent(&event, status);
if (!mDispatcher || widget->Destroyed()) {
return false;
}
textChanged = true;
}
} else if (composition->String().Equals(string)) {
/* If the new text is the same as the existing composition text,
* the NS_COMPOSITION_CHANGE event does not generate a text
* change notification. However, the Java side still expects
* one, so we manually generate a notification. */
IMETextChange dummyChange;
dummyChange.mStart = aStart;
dummyChange.mOldEnd = dummyChange.mNewEnd = aEnd;
PostFlushIMEChanges();
mIMESelectionChanged = true;
AddIMETextChange(dummyChange);
textChanged = true;
}
if (sDispatchKeyEventsInCompositionForAnyApps ||
mInputContext.mMayBeIMEUnaware) {
SendIMEDummyKeyEvent(widget, eKeyDown);
if (!mDispatcher || widget->Destroyed()) {
return false;
}
}
if (composing) {
mDispatcher->SetPendingComposition(string, mIMERanges);
mDispatcher->FlushPendingComposition(status);
// Ensure IME ranges are empty.
mIMERanges->Clear();
} else if (!string.IsEmpty() || mDispatcher->IsComposing()) {
mDispatcher->CommitComposition(status, &string);
textChanged = true;
}
if (!mDispatcher || widget->Destroyed()) {
return false;
}
if (sDispatchKeyEventsInCompositionForAnyApps ||
mInputContext.mMayBeIMEUnaware) {
SendIMEDummyKeyEvent(widget, eKeyUp);
// Widget may be destroyed after dispatching the above event.
}
return textChanged;
}
void
GeckoEditableSupport::OnImeAddCompositionRange(
int32_t aStart, int32_t aEnd, int32_t aRangeType, int32_t aRangeStyle,
int32_t aRangeLineStyle, bool aRangeBoldLine, int32_t aRangeForeColor,
int32_t aRangeBackColor, int32_t aRangeLineColor)
{
if (mIMEMaskEventsCount > 0) {
// Not focused.
return;
}
TextRange range;
range.mStartOffset = aStart;
range.mEndOffset = aEnd;
range.mRangeType = ToTextRangeType(aRangeType);
range.mRangeStyle.mDefinedStyles = aRangeStyle;
range.mRangeStyle.mLineStyle = aRangeLineStyle;
range.mRangeStyle.mIsBoldLine = aRangeBoldLine;
range.mRangeStyle.mForegroundColor =
ConvertAndroidColor(uint32_t(aRangeForeColor));
range.mRangeStyle.mBackgroundColor =
ConvertAndroidColor(uint32_t(aRangeBackColor));
range.mRangeStyle.mUnderlineColor =
ConvertAndroidColor(uint32_t(aRangeLineColor));
mIMERanges->AppendElement(range);
}
void
GeckoEditableSupport::OnImeUpdateComposition(int32_t aStart, int32_t aEnd,
int32_t aFlags)
{
if (DoUpdateComposition(aStart, aEnd, aFlags)) {
mIMEDelaySynchronizeReply = true;
}
}
bool
GeckoEditableSupport::DoUpdateComposition(int32_t aStart, int32_t aEnd,
int32_t aFlags)
{
if (mIMEMaskEventsCount > 0) {
// Not focused.
return false;
}
nsCOMPtr<nsIWidget> widget = GetWidget();
nsEventStatus status = nsEventStatus_eIgnore;
NS_ENSURE_TRUE(mDispatcher && widget, false);
const bool keepCurrent = !!(aFlags &
java::GeckoEditableChild::FLAG_KEEP_CURRENT_COMPOSITION);
bool compositionChanged = false;
// A composition with no ranges means we want to set the selection.
if (mIMERanges->IsEmpty()) {
if (keepCurrent && mDispatcher->IsComposing()) {
// Don't set selection if we want to keep current composition.
return false;
}
MOZ_ASSERT(aStart >= 0 && aEnd >= 0);
compositionChanged = RemoveComposition();
WidgetSelectionEvent selEvent(true, eSetSelection, widget);
selEvent.mOffset = std::min(aStart, aEnd);
selEvent.mLength = std::max(aStart, aEnd) - selEvent.mOffset;
selEvent.mReversed = aStart > aEnd;
selEvent.mExpandToClusterBoundary = false;
widget->DispatchEvent(&selEvent, status);
return compositionChanged;
}
/**
* Update the composition from aStart to aEnd using information from added
* ranges. This is only used for visual indication and does not affect the
* text content. Only the offsets are specified and not the text content
* to eliminate the possibility of this event altering the text content
* unintentionally.
*/
nsString string;
RefPtr<TextComposition> composition(GetComposition());
MOZ_ASSERT(!composition || !composition->IsEditorHandlingEvent());
if (!composition || !mDispatcher->IsComposing() ||
uint32_t(aStart) != composition->NativeOffsetOfStartComposition() ||
uint32_t(aEnd) != composition->NativeOffsetOfStartComposition() +
composition->String().Length()) {
if (keepCurrent) {
// Don't start a new composition if we want to keep the current one.
mIMERanges->Clear();
return false;
}
// Only start new composition if we don't have an existing one,
// or if the existing composition doesn't match the new one.
RemoveComposition();
compositionChanged = true;
{
WidgetSelectionEvent event(true, eSetSelection, widget);
event.mOffset = uint32_t(aStart);
event.mLength = uint32_t(aEnd - aStart);
event.mExpandToClusterBoundary = false;
event.mReason = nsISelectionListener::IME_REASON;
widget->DispatchEvent(&event, status);
}
{
WidgetQueryContentEvent event(true, eQuerySelectedText, widget);
widget->DispatchEvent(&event, status);
MOZ_ASSERT(event.mSucceeded);
string = event.mReply.mString;
}
} else {
// If the new composition matches the existing composition,
// reuse the old composition.
string = composition->String();
}
#ifdef DEBUG_ANDROID_IME
const NS_ConvertUTF16toUTF8 data(string);
const char* text = data.get();
ALOGIME("IME: IME_SET_TEXT: text=\"%s\", length=%u, range=%u",
text, string.Length(), mIMERanges->Length());
#endif // DEBUG_ANDROID_IME
if (NS_WARN_IF(NS_FAILED(BeginInputTransaction(mDispatcher)))) {
mIMERanges->Clear();
return false;
}
mDispatcher->SetPendingComposition(string, mIMERanges);
mDispatcher->FlushPendingComposition(status);
mIMERanges->Clear();
return compositionChanged;
}
void
GeckoEditableSupport::OnImeRequestCursorUpdates(int aRequestMode)
{
if (aRequestMode == EditableClient::ONE_SHOT) {
UpdateCompositionRects();
return;
}
mIMEMonitorCursor = (aRequestMode == EditableClient::START_MONITOR);
}
void
GeckoEditableSupport::AsyncNotifyIME(int32_t aNotification)
{
RefPtr<GeckoEditableSupport> self(this);
nsAppShell::PostEvent([this, self, aNotification] {
if (!mIMEMaskEventsCount) {
mEditable->NotifyIME(aNotification);
}
});
}
nsresult
GeckoEditableSupport::NotifyIME(TextEventDispatcher* aTextEventDispatcher,
const IMENotification& aNotification)
{
MOZ_ASSERT(mEditable);
switch (aNotification.mMessage) {
case REQUEST_TO_COMMIT_COMPOSITION: {
ALOGIME("IME: REQUEST_TO_COMMIT_COMPOSITION");
RemoveComposition(COMMIT_IME_COMPOSITION);
AsyncNotifyIME(EditableListener::
NOTIFY_IME_TO_COMMIT_COMPOSITION);
break;
}
case REQUEST_TO_CANCEL_COMPOSITION: {
ALOGIME("IME: REQUEST_TO_CANCEL_COMPOSITION");
RemoveComposition(CANCEL_IME_COMPOSITION);
AsyncNotifyIME(EditableListener::
NOTIFY_IME_TO_CANCEL_COMPOSITION);
break;
}
case NOTIFY_IME_OF_FOCUS: {
ALOGIME("IME: NOTIFY_IME_OF_FOCUS");
mIMEFocusCount++;
RefPtr<GeckoEditableSupport> self(this);
RefPtr<TextEventDispatcher> dispatcher = aTextEventDispatcher;
// Post an event because we have to flush the text before sending a
// focus event, and we may not be able to flush text during the
// NotifyIME call.
nsAppShell::PostEvent([this, self, dispatcher] {
nsCOMPtr<nsIWidget> widget = dispatcher->GetWidget();
--mIMEMaskEventsCount;
if (!mIMEFocusCount || !widget || widget->Destroyed()) {
return;
}
mEditable->NotifyIME(
EditableListener::NOTIFY_IME_OF_TOKEN);
if (mIsRemote) {
if (!mEditableAttached) {
// Re-attach on focus; see OnRemovedFrom().
AttachNative(mEditable, this);
mEditableAttached = true;
}
// Because GeckoEditableSupport in content process doesn't
// manage the active input context, we need to retrieve the
// input context from the widget, for use by
// OnImeReplaceText.
mInputContext = widget->GetInputContext();
}
mDispatcher = dispatcher;
mIMEKeyEvents.Clear();
FlushIMEText();
// IME will call requestCursorUpdates after getting context.
// So reset cursor update mode before getting context.
mIMEMonitorCursor = false;
mEditable->NotifyIME(
EditableListener::NOTIFY_IME_OF_FOCUS);
});
break;
}
case NOTIFY_IME_OF_BLUR: {
ALOGIME("IME: NOTIFY_IME_OF_BLUR");
mIMEFocusCount--;
MOZ_ASSERT(mIMEFocusCount >= 0);
RefPtr<GeckoEditableSupport> self(this);
nsAppShell::PostEvent([this, self] {
if (!mIMEFocusCount) {
mIMEDelaySynchronizeReply = false;
mIMEActiveSynchronizeCount = 0;
mEditable->NotifyIME(EditableListener::NOTIFY_IME_OF_BLUR);
OnRemovedFrom(mDispatcher);
}
});
// Mask events because we lost focus. Unmask on the next focus.
mIMEMaskEventsCount++;
break;
}
case NOTIFY_IME_OF_SELECTION_CHANGE: {
ALOGIME("IME: NOTIFY_IME_OF_SELECTION_CHANGE");
PostFlushIMEChanges();
mIMESelectionChanged = true;
break;
}
case NOTIFY_IME_OF_TEXT_CHANGE: {
ALOGIME("IME: NotifyIMEOfTextChange: s=%d, oe=%d, ne=%d",
aNotification.mTextChangeData.mStartOffset,
aNotification.mTextChangeData.mRemovedEndOffset,
aNotification.mTextChangeData.mAddedEndOffset);
/* Make sure Java's selection is up-to-date */
PostFlushIMEChanges();
mIMESelectionChanged = true;
AddIMETextChange(IMETextChange(aNotification));
break;
}
case NOTIFY_IME_OF_COMPOSITION_EVENT_HANDLED: {
ALOGIME("IME: NOTIFY_IME_OF_COMPOSITION_EVENT_HANDLED");
// Hardware keyboard support requires each string rect.
if (mIMEMonitorCursor) {
UpdateCompositionRects();
}
break;
}
default:
break;
}
return NS_OK;
}
void
GeckoEditableSupport::OnRemovedFrom(TextEventDispatcher* aTextEventDispatcher)
{
mDispatcher = nullptr;
if (mIsRemote && mEditable->HasEditableParent()) {
// When we're remote, detach every time.
OnDetach(NS_NewRunnableFunction("GeckoEditableSupport::OnRemovedFrom",
[editable = java::GeckoEditableChild::GlobalRef(mEditable)] {
DisposeNative(editable);
}));
}
}
void
GeckoEditableSupport::WillDispatchKeyboardEvent(
TextEventDispatcher* aTextEventDispatcher,
WidgetKeyboardEvent& aKeyboardEvent, uint32_t aIndexOfKeypress,
void* aData)
{
}
NS_IMETHODIMP_(IMENotificationRequests)
GeckoEditableSupport::GetIMENotificationRequests()
{
return IMENotificationRequests(IMENotificationRequests::NOTIFY_TEXT_CHANGE);
}
void
GeckoEditableSupport::SetInputContext(const InputContext& aContext,
const InputContextAction& aAction)
{
MOZ_ASSERT(mEditable);
ALOGIME("IME: SetInputContext: s=0x%X, 0x%X, action=0x%X, 0x%X",
aContext.mIMEState.mEnabled, aContext.mIMEState.mOpen,
aAction.mCause, aAction.mFocusChange);
mInputContext = aContext;
if (mInputContext.mIMEState.mEnabled != IMEState::DISABLED &&
aAction.UserMightRequestOpenVKB()) {
// Don't reset keyboard when we should simply open the vkb
mEditable->NotifyIME(EditableListener::NOTIFY_IME_OPEN_VKB);
return;
}
// Post an event to keep calls in order relative to NotifyIME.
nsAppShell::PostEvent([this, self = RefPtr<GeckoEditableSupport>(this),
context = mInputContext, action = aAction] {
nsCOMPtr<nsIWidget> widget = GetWidget();
if (!widget || widget->Destroyed()) {
return;
}
NotifyIMEContext(context, action);
});
}
void
GeckoEditableSupport::NotifyIMEContext(const InputContext& aContext,
const InputContextAction& aAction)
{
const bool inPrivateBrowsing = aContext.mInPrivateBrowsing;
const bool isUserAction =
aAction.IsHandlingUserInput() || aContext.mHasHandledUserInput;
const int32_t flags =
(inPrivateBrowsing ? EditableListener::IME_FLAG_PRIVATE_BROWSING : 0) |
(isUserAction ? EditableListener::IME_FLAG_USER_ACTION : 0);
mEditable->NotifyIMEContext(aContext.mIMEState.mEnabled,
aContext.mHTMLInputType,
aContext.mHTMLInputInputmode,
aContext.mActionHint,
flags);
}
InputContext
GeckoEditableSupport::GetInputContext()
{
InputContext context = mInputContext;
context.mIMEState.mOpen = IMEState::OPEN_STATE_NOT_SUPPORTED;
return context;
}
void
GeckoEditableSupport::TransferParent(jni::Object::Param aEditableParent)
{
mEditable->SetParent(aEditableParent);
// If we are already focused, make sure the new parent has our token
// and focus information, so it can accept additional calls from us.
if (mIMEFocusCount > 0) {
mEditable->NotifyIME(EditableListener::NOTIFY_IME_OF_TOKEN);
NotifyIMEContext(mInputContext, InputContextAction());
mEditable->NotifyIME(EditableListener::NOTIFY_IME_OF_FOCUS);
}
if (mIsRemote && !mDispatcher) {
// Detach now if we were only attached temporarily.
OnRemovedFrom(/* dispatcher */ nullptr);
}
}
void
GeckoEditableSupport::SetOnTabChild(dom::TabChild* aTabChild)
{
MOZ_ASSERT(!XRE_IsParentProcess());
NS_ENSURE_TRUE_VOID(aTabChild);
const dom::ContentChild* const contentChild =
dom::ContentChild::GetSingleton();
RefPtr<widget::PuppetWidget> widget(aTabChild->WebWidget());
NS_ENSURE_TRUE_VOID(contentChild && widget);
// Get the content/tab ID in order to get the correct
// IGeckoEditableParent object, which GeckoEditableChild uses to
// communicate with the parent process.
const uint64_t contentId = contentChild->GetID();
const uint64_t tabId = aTabChild->GetTabId();
NS_ENSURE_TRUE_VOID(contentId && tabId);
RefPtr<widget::TextEventDispatcherListener> listener =
widget->GetNativeTextEventDispatcherListener();
if (!listener || listener.get() ==
static_cast<widget::TextEventDispatcherListener*>(widget)) {
// We need to set a new listener.
const auto editableChild = java::GeckoEditableChild::New(
/* parent */ nullptr, /* default */ false);
RefPtr<widget::GeckoEditableSupport> editableSupport =
new widget::GeckoEditableSupport(editableChild);
// Tell PuppetWidget to use our listener for IME operations.
widget->SetNativeTextEventDispatcherListener(editableSupport);
// Temporarily attach so we can receive the initial editable parent.
AttachNative(editableChild, editableSupport);
editableSupport->mEditableAttached = true;
// Connect the new child to a parent that corresponds to the TabChild.
java::GeckoServiceChildProcess::GetEditableParent(
editableChild, contentId, tabId);
return;
}
// We need to update the existing listener to use the new parent.
// We expect the existing TextEventDispatcherListener to be a
// GeckoEditableSupport object, so we perform a sanity check to make
// sure, by comparing their respective vtable pointers.
const RefPtr<widget::GeckoEditableSupport> dummy =
new widget::GeckoEditableSupport(/* child */ nullptr);
NS_ENSURE_TRUE_VOID(*reinterpret_cast<const uintptr_t*>(listener.get()) ==
*reinterpret_cast<const uintptr_t*>(dummy.get()));
const auto support =
static_cast<widget::GeckoEditableSupport*>(listener.get());
if (!support->mEditableAttached) {
// Temporarily attach so we can receive the initial editable parent.
AttachNative(support->GetJavaEditable(), support);
support->mEditableAttached = true;
}
// Transfer to a new parent that corresponds to the TabChild.
java::GeckoServiceChildProcess::GetEditableParent(
support->GetJavaEditable(), contentId, tabId);
}
} // namespace widget
} // namespace mozilla