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|
/****************************************************************************
**
** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
** Contact: Qt Software Information (qt-info@nokia.com)
**
** This file is part of the QtGui module of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** No Commercial Usage
** This file contains pre-release code and may not be distributed.
** You may use this file in accordance with the terms and conditions
** contained in the either Technology Preview License Agreement or the
** Beta Release License Agreement.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Nokia gives you certain
** additional rights. These rights are described in the Nokia Qt LGPL
** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this
** package.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3.0 as published by the Free Software
** Foundation and appearing in the file LICENSE.GPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU General Public License version 3.0 requirements will be
** met: http://www.gnu.org/copyleft/gpl.html.
**
** If you are unsure which license is appropriate for your use, please
** contact the sales department at qt-sales@nokia.com.
** $QT_END_LICENSE$
**
****************************************************************************/
#include "qkeymapper_p.h"
#include <windows.h>
#include <qdebug.h>
#include <private/qevent_p.h>
#include <private/qlocale_p.h>
#include <private/qapplication_p.h>
#include <qwidget.h>
#include <qapplication.h>
#include <ctype.h>
QT_BEGIN_NAMESPACE
// Uncommend, to show debugging information for the keymapper
//#define DEBUG_KEYMAPPER
// Implemented elsewhere
extern "C" LRESULT CALLBACK QtWndProc(HWND, UINT, WPARAM, LPARAM);
Q_CORE_EXPORT bool winPostMessage(HWND hWnd, UINT msg, WPARAM wParam, LPARAM lParam);
Q_CORE_EXPORT bool winPeekMessage(MSG* msg, HWND hWnd, UINT wMsgFilterMin, UINT wMsgFilterMax,
UINT wRemoveMsg);
extern Q_CORE_EXPORT QLocale qt_localeFromLCID(LCID id);
#ifndef LANG_PASHTO
#define LANG_PASHTO 0x63
#endif
#ifndef LANG_SYRIAC
#define LANG_SYRIAC 0x5a
#endif
#ifndef LANG_DIVEHI
#define LANG_DIVEHI 0x65
#endif
#ifndef VK_OEM_PLUS
#define VK_OEM_PLUS 0xBB
#endif
#ifndef VK_OEM_3
#define VK_OEM_3 0xC0
#endif
#if defined(Q_OS_WINCE)
bool GetKeyboardState(unsigned char* kbuffer)
{
for (int i=0; i< 256; ++i)
kbuffer[i] = GetAsyncKeyState(i);
return true;
}
#endif
// Key recorder ------------------------------------------------------------------------[ start ] --
struct KeyRecord {
KeyRecord(int c, int a, int s, const QString &t) : code(c), ascii(a), state(s), text(t) {}
KeyRecord() {}
int code;
int ascii;
int state;
QString text;
};
static const int QT_MAX_KEY_RECORDINGS = 64; // User has LOTS of fingers...
struct KeyRecorder
{
KeyRecorder() : nrecs(0) {}
inline KeyRecord *findKey(int code, bool remove);
inline void storeKey(int code, int ascii, int state, const QString& text);
inline void clearKeys();
int nrecs;
KeyRecord deleted_record; // A copy of last entry removed from records[]
KeyRecord records[QT_MAX_KEY_RECORDINGS];
};
static KeyRecorder key_recorder;
KeyRecord *KeyRecorder::findKey(int code, bool remove)
{
KeyRecord *result = 0;
for (int i = 0; i < nrecs; ++i) {
if (records[i].code == code) {
if (remove) {
deleted_record = records[i];
// Move rest down, and decrease count
while (i + 1 < nrecs) {
records[i] = records[i + 1];
++i;
}
--nrecs;
result = &deleted_record;
} else {
result = &records[i];
}
break;
}
}
return result;
}
void KeyRecorder::storeKey(int code, int ascii, int state, const QString& text)
{
Q_ASSERT_X(nrecs != QT_MAX_KEY_RECORDINGS,
"Internal KeyRecorder",
"Keyboard recorder buffer overflow, consider increasing QT_MAX_KEY_RECORDINGS");
if (nrecs == QT_MAX_KEY_RECORDINGS) {
qWarning("Qt: Internal keyboard buffer overflow");
return;
}
records[nrecs++] = KeyRecord(code,ascii,state,text);
}
void KeyRecorder::clearKeys()
{
nrecs = 0;
}
// Key recorder --------------------------------------------------------------------------[ end ] --
// Key translation ---------------------------------------------------------------------[ start ] --
// Meaning of values:
// 0 = Character output key, needs keyboard driver mapping
// Key_unknown = Unknown Virtual Key, no translation possible, ignore
static const uint KeyTbl[] = { // Keyboard mapping table
// Dec | Hex | Windows Virtual key
Qt::Key_unknown, // 0 0x00
Qt::Key_unknown, // 1 0x01 VK_LBUTTON | Left mouse button
Qt::Key_unknown, // 2 0x02 VK_RBUTTON | Right mouse button
Qt::Key_Cancel, // 3 0x03 VK_CANCEL | Control-Break processing
Qt::Key_unknown, // 4 0x04 VK_MBUTTON | Middle mouse button
Qt::Key_unknown, // 5 0x05 VK_XBUTTON1 | X1 mouse button
Qt::Key_unknown, // 6 0x06 VK_XBUTTON2 | X2 mouse button
Qt::Key_unknown, // 7 0x07 -- unassigned --
Qt::Key_Backspace, // 8 0x08 VK_BACK | BackSpace key
Qt::Key_Tab, // 9 0x09 VK_TAB | Tab key
Qt::Key_unknown, // 10 0x0A -- reserved --
Qt::Key_unknown, // 11 0x0B -- reserved --
Qt::Key_Clear, // 12 0x0C VK_CLEAR | Clear key
Qt::Key_Return, // 13 0x0D VK_RETURN | Enter key
Qt::Key_unknown, // 14 0x0E -- unassigned --
Qt::Key_unknown, // 15 0x0F -- unassigned --
Qt::Key_Shift, // 16 0x10 VK_SHIFT | Shift key
Qt::Key_Control, // 17 0x11 VK_CONTROL | Ctrl key
Qt::Key_Alt, // 18 0x12 VK_MENU | Alt key
Qt::Key_Pause, // 19 0x13 VK_PAUSE | Pause key
Qt::Key_CapsLock, // 20 0x14 VK_CAPITAL | Caps-Lock
Qt::Key_unknown, // 21 0x15 VK_KANA / VK_HANGUL | IME Kana or Hangul mode
Qt::Key_unknown, // 22 0x16 -- unassigned --
Qt::Key_unknown, // 23 0x17 VK_JUNJA | IME Junja mode
Qt::Key_unknown, // 24 0x18 VK_FINAL | IME final mode
Qt::Key_unknown, // 25 0x19 VK_HANJA / VK_KANJI | IME Hanja or Kanji mode
Qt::Key_unknown, // 26 0x1A -- unassigned --
Qt::Key_Escape, // 27 0x1B VK_ESCAPE | Esc key
Qt::Key_unknown, // 28 0x1C VK_CONVERT | IME convert
Qt::Key_unknown, // 29 0x1D VK_NONCONVERT | IME non-convert
Qt::Key_unknown, // 30 0x1E VK_ACCEPT | IME accept
Qt::Key_Mode_switch,// 31 0x1F VK_MODECHANGE | IME mode change request
Qt::Key_Space, // 32 0x20 VK_SPACE | Spacebar
Qt::Key_PageUp, // 33 0x21 VK_PRIOR | Page Up key
Qt::Key_PageDown, // 34 0x22 VK_NEXT | Page Down key
Qt::Key_End, // 35 0x23 VK_END | End key
Qt::Key_Home, // 36 0x24 VK_HOME | Home key
Qt::Key_Left, // 37 0x25 VK_LEFT | Left arrow key
Qt::Key_Up, // 38 0x26 VK_UP | Up arrow key
Qt::Key_Right, // 39 0x27 VK_RIGHT | Right arrow key
Qt::Key_Down, // 40 0x28 VK_DOWN | Down arrow key
Qt::Key_Select, // 41 0x29 VK_SELECT | Select key
Qt::Key_Printer, // 42 0x2A VK_PRINT | Print key
Qt::Key_Execute, // 43 0x2B VK_EXECUTE | Execute key
Qt::Key_Print, // 44 0x2C VK_SNAPSHOT | Print Screen key
Qt::Key_Insert, // 45 0x2D VK_INSERT | Ins key
Qt::Key_Delete, // 46 0x2E VK_DELETE | Del key
Qt::Key_Help, // 47 0x2F VK_HELP | Help key
0, // 48 0x30 (VK_0) | 0 key
0, // 49 0x31 (VK_1) | 1 key
0, // 50 0x32 (VK_2) | 2 key
0, // 51 0x33 (VK_3) | 3 key
0, // 52 0x34 (VK_4) | 4 key
0, // 53 0x35 (VK_5) | 5 key
0, // 54 0x36 (VK_6) | 6 key
0, // 55 0x37 (VK_7) | 7 key
0, // 56 0x38 (VK_8) | 8 key
0, // 57 0x39 (VK_9) | 9 key
Qt::Key_unknown, // 58 0x3A -- unassigned --
Qt::Key_unknown, // 59 0x3B -- unassigned --
Qt::Key_unknown, // 60 0x3C -- unassigned --
Qt::Key_unknown, // 61 0x3D -- unassigned --
Qt::Key_unknown, // 62 0x3E -- unassigned --
Qt::Key_unknown, // 63 0x3F -- unassigned --
Qt::Key_unknown, // 64 0x40 -- unassigned --
0, // 65 0x41 (VK_A) | A key
0, // 66 0x42 (VK_B) | B key
0, // 67 0x43 (VK_C) | C key
0, // 68 0x44 (VK_D) | D key
0, // 69 0x45 (VK_E) | E key
0, // 70 0x46 (VK_F) | F key
0, // 71 0x47 (VK_G) | G key
0, // 72 0x48 (VK_H) | H key
0, // 73 0x49 (VK_I) | I key
0, // 74 0x4A (VK_J) | J key
0, // 75 0x4B (VK_K) | K key
0, // 76 0x4C (VK_L) | L key
0, // 77 0x4D (VK_M) | M key
0, // 78 0x4E (VK_N) | N key
0, // 79 0x4F (VK_O) | O key
0, // 80 0x50 (VK_P) | P key
0, // 81 0x51 (VK_Q) | Q key
0, // 82 0x52 (VK_R) | R key
0, // 83 0x53 (VK_S) | S key
0, // 84 0x54 (VK_T) | T key
0, // 85 0x55 (VK_U) | U key
0, // 86 0x56 (VK_V) | V key
0, // 87 0x57 (VK_W) | W key
0, // 88 0x58 (VK_X) | X key
0, // 89 0x59 (VK_Y) | Y key
0, // 90 0x5A (VK_Z) | Z key
Qt::Key_Meta, // 91 0x5B VK_LWIN | Left Windows - MS Natural kbd
Qt::Key_Meta, // 92 0x5C VK_RWIN | Right Windows - MS Natural kbd
Qt::Key_Menu, // 93 0x5D VK_APPS | Application key-MS Natural kbd
Qt::Key_unknown, // 94 0x5E -- reserved --
Qt::Key_Sleep, // 95 0x5F VK_SLEEP
Qt::Key_0, // 96 0x60 VK_NUMPAD0 | Numeric keypad 0 key
Qt::Key_1, // 97 0x61 VK_NUMPAD1 | Numeric keypad 1 key
Qt::Key_2, // 98 0x62 VK_NUMPAD2 | Numeric keypad 2 key
Qt::Key_3, // 99 0x63 VK_NUMPAD3 | Numeric keypad 3 key
Qt::Key_4, // 100 0x64 VK_NUMPAD4 | Numeric keypad 4 key
Qt::Key_5, // 101 0x65 VK_NUMPAD5 | Numeric keypad 5 key
Qt::Key_6, // 102 0x66 VK_NUMPAD6 | Numeric keypad 6 key
Qt::Key_7, // 103 0x67 VK_NUMPAD7 | Numeric keypad 7 key
Qt::Key_8, // 104 0x68 VK_NUMPAD8 | Numeric keypad 8 key
Qt::Key_9, // 105 0x69 VK_NUMPAD9 | Numeric keypad 9 key
Qt::Key_Asterisk, // 106 0x6A VK_MULTIPLY | Multiply key
Qt::Key_Plus, // 107 0x6B VK_ADD | Add key
Qt::Key_Comma, // 108 0x6C VK_SEPARATOR | Separator key
Qt::Key_Minus, // 109 0x6D VK_SUBTRACT | Subtract key
Qt::Key_Period, // 110 0x6E VK_DECIMAL | Decimal key
Qt::Key_Slash, // 111 0x6F VK_DIVIDE | Divide key
Qt::Key_F1, // 112 0x70 VK_F1 | F1 key
Qt::Key_F2, // 113 0x71 VK_F2 | F2 key
Qt::Key_F3, // 114 0x72 VK_F3 | F3 key
Qt::Key_F4, // 115 0x73 VK_F4 | F4 key
Qt::Key_F5, // 116 0x74 VK_F5 | F5 key
Qt::Key_F6, // 117 0x75 VK_F6 | F6 key
Qt::Key_F7, // 118 0x76 VK_F7 | F7 key
Qt::Key_F8, // 119 0x77 VK_F8 | F8 key
Qt::Key_F9, // 120 0x78 VK_F9 | F9 key
Qt::Key_F10, // 121 0x79 VK_F10 | F10 key
Qt::Key_F11, // 122 0x7A VK_F11 | F11 key
Qt::Key_F12, // 123 0x7B VK_F12 | F12 key
Qt::Key_F13, // 124 0x7C VK_F13 | F13 key
Qt::Key_F14, // 125 0x7D VK_F14 | F14 key
Qt::Key_F15, // 126 0x7E VK_F15 | F15 key
Qt::Key_F16, // 127 0x7F VK_F16 | F16 key
Qt::Key_F17, // 128 0x80 VK_F17 | F17 key
Qt::Key_F18, // 129 0x81 VK_F18 | F18 key
Qt::Key_F19, // 130 0x82 VK_F19 | F19 key
Qt::Key_F20, // 131 0x83 VK_F20 | F20 key
Qt::Key_F21, // 132 0x84 VK_F21 | F21 key
Qt::Key_F22, // 133 0x85 VK_F22 | F22 key
Qt::Key_F23, // 134 0x86 VK_F23 | F23 key
Qt::Key_F24, // 135 0x87 VK_F24 | F24 key
Qt::Key_unknown, // 136 0x88 -- unassigned --
Qt::Key_unknown, // 137 0x89 -- unassigned --
Qt::Key_unknown, // 138 0x8A -- unassigned --
Qt::Key_unknown, // 139 0x8B -- unassigned --
Qt::Key_unknown, // 140 0x8C -- unassigned --
Qt::Key_unknown, // 141 0x8D -- unassigned --
Qt::Key_unknown, // 142 0x8E -- unassigned --
Qt::Key_unknown, // 143 0x8F -- unassigned --
Qt::Key_NumLock, // 144 0x90 VK_NUMLOCK | Num Lock key
Qt::Key_ScrollLock, // 145 0x91 VK_SCROLL | Scroll Lock key
// Fujitsu/OASYS kbd --------------------
0, //Qt::Key_Jisho, // 146 0x92 VK_OEM_FJ_JISHO | 'Dictionary' key /
// VK_OEM_NEC_EQUAL = key on numpad on NEC PC-9800 kbd
Qt::Key_Massyo, // 147 0x93 VK_OEM_FJ_MASSHOU | 'Unregister word' key
Qt::Key_Touroku, // 148 0x94 VK_OEM_FJ_TOUROKU | 'Register word' key
0, //Qt::Key_Oyayubi_Left,//149 0x95 VK_OEM_FJ_LOYA | 'Left OYAYUBI' key
0, //Qt::Key_Oyayubi_Right,//150 0x96 VK_OEM_FJ_ROYA | 'Right OYAYUBI' key
Qt::Key_unknown, // 151 0x97 -- unassigned --
Qt::Key_unknown, // 152 0x98 -- unassigned --
Qt::Key_unknown, // 153 0x99 -- unassigned --
Qt::Key_unknown, // 154 0x9A -- unassigned --
Qt::Key_unknown, // 155 0x9B -- unassigned --
Qt::Key_unknown, // 156 0x9C -- unassigned --
Qt::Key_unknown, // 157 0x9D -- unassigned --
Qt::Key_unknown, // 158 0x9E -- unassigned --
Qt::Key_unknown, // 159 0x9F -- unassigned --
Qt::Key_Shift, // 160 0xA0 VK_LSHIFT | Left Shift key
Qt::Key_Shift, // 161 0xA1 VK_RSHIFT | Right Shift key
Qt::Key_Control, // 162 0xA2 VK_LCONTROL | Left Ctrl key
Qt::Key_Control, // 163 0xA3 VK_RCONTROL | Right Ctrl key
Qt::Key_Alt, // 164 0xA4 VK_LMENU | Left Menu key
Qt::Key_Alt, // 165 0xA5 VK_RMENU | Right Menu key
Qt::Key_Back, // 166 0xA6 VK_BROWSER_BACK | Browser Back key
Qt::Key_Forward, // 167 0xA7 VK_BROWSER_FORWARD | Browser Forward key
Qt::Key_Refresh, // 168 0xA8 VK_BROWSER_REFRESH | Browser Refresh key
Qt::Key_Stop, // 169 0xA9 VK_BROWSER_STOP | Browser Stop key
Qt::Key_Search, // 170 0xAA VK_BROWSER_SEARCH | Browser Search key
Qt::Key_Favorites, // 171 0xAB VK_BROWSER_FAVORITES| Browser Favorites key
Qt::Key_HomePage, // 172 0xAC VK_BROWSER_HOME | Browser Start and Home key
Qt::Key_VolumeMute, // 173 0xAD VK_VOLUME_MUTE | Volume Mute key
Qt::Key_VolumeDown, // 174 0xAE VK_VOLUME_DOWN | Volume Down key
Qt::Key_VolumeUp, // 175 0xAF VK_VOLUME_UP | Volume Up key
Qt::Key_MediaNext, // 176 0xB0 VK_MEDIA_NEXT_TRACK | Next Track key
Qt::Key_MediaPrevious, //177 0xB1 VK_MEDIA_PREV_TRACK | Previous Track key
Qt::Key_MediaStop, // 178 0xB2 VK_MEDIA_STOP | Stop Media key
Qt::Key_MediaPlay, // 179 0xB3 VK_MEDIA_PLAY_PAUSE | Play/Pause Media key
Qt::Key_LaunchMail, // 180 0xB4 VK_LAUNCH_MAIL | Start Mail key
Qt::Key_LaunchMedia,// 181 0xB5 VK_LAUNCH_MEDIA_SELECT Select Media key
Qt::Key_Launch0, // 182 0xB6 VK_LAUNCH_APP1 | Start Application 1 key
Qt::Key_Launch1, // 183 0xB7 VK_LAUNCH_APP2 | Start Application 2 key
Qt::Key_unknown, // 184 0xB8 -- reserved --
Qt::Key_unknown, // 185 0xB9 -- reserved --
0, // 186 0xBA VK_OEM_1 | ';:' for US
0, // 187 0xBB VK_OEM_PLUS | '+' any country
0, // 188 0xBC VK_OEM_COMMA | ',' any country
0, // 189 0xBD VK_OEM_MINUS | '-' any country
0, // 190 0xBE VK_OEM_PERIOD | '.' any country
0, // 191 0xBF VK_OEM_2 | '/?' for US
0, // 192 0xC0 VK_OEM_3 | '`~' for US
Qt::Key_unknown, // 193 0xC1 -- reserved --
Qt::Key_unknown, // 194 0xC2 -- reserved --
Qt::Key_unknown, // 195 0xC3 -- reserved --
Qt::Key_unknown, // 196 0xC4 -- reserved --
Qt::Key_unknown, // 197 0xC5 -- reserved --
Qt::Key_unknown, // 198 0xC6 -- reserved --
Qt::Key_unknown, // 199 0xC7 -- reserved --
Qt::Key_unknown, // 200 0xC8 -- reserved --
Qt::Key_unknown, // 201 0xC9 -- reserved --
Qt::Key_unknown, // 202 0xCA -- reserved --
Qt::Key_unknown, // 203 0xCB -- reserved --
Qt::Key_unknown, // 204 0xCC -- reserved --
Qt::Key_unknown, // 205 0xCD -- reserved --
Qt::Key_unknown, // 206 0xCE -- reserved --
Qt::Key_unknown, // 207 0xCF -- reserved --
Qt::Key_unknown, // 208 0xD0 -- reserved --
Qt::Key_unknown, // 209 0xD1 -- reserved --
Qt::Key_unknown, // 210 0xD2 -- reserved --
Qt::Key_unknown, // 211 0xD3 -- reserved --
Qt::Key_unknown, // 212 0xD4 -- reserved --
Qt::Key_unknown, // 213 0xD5 -- reserved --
Qt::Key_unknown, // 214 0xD6 -- reserved --
Qt::Key_unknown, // 215 0xD7 -- reserved --
Qt::Key_unknown, // 216 0xD8 -- unassigned --
Qt::Key_unknown, // 217 0xD9 -- unassigned --
Qt::Key_unknown, // 218 0xDA -- unassigned --
0, // 219 0xDB VK_OEM_4 | '[{' for US
0, // 220 0xDC VK_OEM_5 | '\|' for US
0, // 221 0xDD VK_OEM_6 | ']}' for US
0, // 222 0xDE VK_OEM_7 | ''"' for US
0, // 223 0xDF VK_OEM_8
Qt::Key_unknown, // 224 0xE0 -- reserved --
Qt::Key_unknown, // 225 0xE1 VK_OEM_AX | 'AX' key on Japanese AX kbd
Qt::Key_unknown, // 226 0xE2 VK_OEM_102 | "<>" or "\|" on RT 102-key kbd
Qt::Key_unknown, // 227 0xE3 VK_ICO_HELP | Help key on ICO
Qt::Key_unknown, // 228 0xE4 VK_ICO_00 | 00 key on ICO
Qt::Key_unknown, // 229 0xE5 VK_PROCESSKEY | IME Process key
Qt::Key_unknown, // 230 0xE6 VK_ICO_CLEAR |
Qt::Key_unknown, // 231 0xE7 VK_PACKET | Unicode char as keystrokes
Qt::Key_unknown, // 232 0xE8 -- unassigned --
// Nokia/Ericsson definitions ---------------
Qt::Key_unknown, // 233 0xE9 VK_OEM_RESET
Qt::Key_unknown, // 234 0xEA VK_OEM_JUMP
Qt::Key_unknown, // 235 0xEB VK_OEM_PA1
Qt::Key_unknown, // 236 0xEC VK_OEM_PA2
Qt::Key_unknown, // 237 0xED VK_OEM_PA3
Qt::Key_unknown, // 238 0xEE VK_OEM_WSCTRL
Qt::Key_unknown, // 239 0xEF VK_OEM_CUSEL
Qt::Key_unknown, // 240 0xF0 VK_OEM_ATTN
Qt::Key_unknown, // 241 0xF1 VK_OEM_FINISH
Qt::Key_unknown, // 242 0xF2 VK_OEM_COPY
Qt::Key_unknown, // 243 0xF3 VK_OEM_AUTO
Qt::Key_unknown, // 244 0xF4 VK_OEM_ENLW
Qt::Key_unknown, // 245 0xF5 VK_OEM_BACKTAB
Qt::Key_unknown, // 246 0xF6 VK_ATTN | Attn key
Qt::Key_unknown, // 247 0xF7 VK_CRSEL | CrSel key
Qt::Key_unknown, // 248 0xF8 VK_EXSEL | ExSel key
Qt::Key_unknown, // 249 0xF9 VK_EREOF | Erase EOF key
Qt::Key_Play, // 250 0xFA VK_PLAY | Play key
Qt::Key_Zoom, // 251 0xFB VK_ZOOM | Zoom key
Qt::Key_unknown, // 252 0xFC VK_NONAME | Reserved
Qt::Key_unknown, // 253 0xFD VK_PA1 | PA1 key
Qt::Key_Clear, // 254 0xFE VK_OEM_CLEAR | Clear key
0
};
// Possible modifier states.
// NOTE: The order of these states match the order in QKeyMapperPrivate::updatePossibleKeyCodes()!
static const Qt::KeyboardModifiers ModsTbl[] = {
Qt::NoModifier, // 0
Qt::ShiftModifier, // 1
Qt::ControlModifier, // 2
Qt::ControlModifier | Qt::ShiftModifier, // 3
Qt::AltModifier, // 4
Qt::AltModifier | Qt::ShiftModifier, // 5
Qt::AltModifier | Qt::ControlModifier, // 6
Qt::AltModifier | Qt::ShiftModifier | Qt::ControlModifier, // 7
Qt::NoModifier, // Fall-back to raw Key_*
};
#if defined(Q_OS_WINCE)
// Use the KeyTbl to resolve a Qt::Key out of the virtual keys.
// In case it is not resolvable, continue using the virtual key itself.
QT_BEGIN_INCLUDE_NAMESPACE
int ToUnicode(UINT vk, int /*scancode*/, unsigned char* /*kbdBuffer*/, LPWSTR unicodeBuffer, int, int)
{
QT_USE_NAMESPACE
QChar* buf = reinterpret_cast< QChar*>(unicodeBuffer);
if (KeyTbl[vk] == 0) {
buf[0] = vk;
return 1;
}
return 0;
}
int ToAscii(UINT vk, int scancode, unsigned char *kbdBuffer, LPWORD unicodeBuffer, int flag)
{
return ToUnicode(vk, scancode, kbdBuffer, (LPWSTR) unicodeBuffer, 0, flag);
}
QT_END_INCLUDE_NAMESPACE
#endif
// Translate a VK into a Qt key code, or unicode character
static inline int toKeyOrUnicode(int vk, int scancode, unsigned char *kbdBuffer, bool *isDeadkey = 0)
{
Q_ASSERT(vk > 0 && vk < 256);
int code = 0;
QChar unicodeBuffer[5];
int res = 0;
if (QSysInfo::WindowsVersion < QSysInfo::WV_NT)
res = ToAscii(vk, scancode, kbdBuffer, reinterpret_cast<LPWORD>(unicodeBuffer), 0);
else
res = ToUnicode(vk, scancode, kbdBuffer, reinterpret_cast<LPWSTR>(unicodeBuffer), 5, 0);
if (res)
code = unicodeBuffer[0].toUpper().unicode();
// Qt::Key_*'s are not encoded below 0x20, so try again, and DEL keys (0x7f) is encoded with a
// proper Qt::Key_ code
if (code < 0x20 || code == 0x7f) // Handles res==0 too
code = KeyTbl[vk];
if (isDeadkey)
*isDeadkey = (res == -1);
return code == Qt::Key_unknown ? 0 : code;
}
Q_GUI_EXPORT int qt_translateKeyCode(int vk)
{
int code = (vk < 0 || vk > 255) ? 0 : KeyTbl[vk];
return code == Qt::Key_unknown ? 0 : code;
}
static inline int asciiToKeycode(char a, int state)
{
if (a >= 'a' && a <= 'z')
a = toupper(a);
if ((state & Qt::ControlModifier) != 0) {
if (a >= 0 && a <= 31) // Ctrl+@..Ctrl+A..CTRL+Z..Ctrl+_
a += '@'; // to @..A..Z.._
}
return a & 0xff;
}
static int inputcharset = CP_ACP;
static inline QChar wmchar_to_unicode(DWORD c)
{
// qt_winMB2QString is the generalization of this function.
QT_WA({
return QChar((ushort)c);
} , {
char mb[2];
mb[0] = c & 0xff;
mb[1] = 0;
WCHAR wc[1];
MultiByteToWideChar(inputcharset, MB_PRECOMPOSED, mb, -1, wc, 1);
return QChar(wc[0]);
});
}
static inline QChar imechar_to_unicode(DWORD c)
{
// qt_winMB2QString is the generalization of this function.
QT_WA({
return QChar((ushort)c);
} , {
char mb[3];
mb[0] = (c >> 8) & 0xff;
mb[1] = c & 0xff;
mb[2] = 0;
WCHAR wc[1];
MultiByteToWideChar(CP_ACP, MB_PRECOMPOSED, mb, -1, wc, 1);
return QChar(wc[0]);
});
}
static inline bool isModifierKey(int code)
{
return (code >= Qt::Key_Shift) && (code <= Qt::Key_ScrollLock);
}
// Key translation -----------------------------------------------------------------------[ end ]---
static void qt_show_system_menu(QWidget* tlw)
{
Q_ASSERT(tlw->testAttribute(Qt::WA_WState_Created));
HMENU menu = GetSystemMenu(tlw->internalWinId(), FALSE);
if (!menu)
return; // no menu for this window
#define enabled (MF_BYCOMMAND | MF_ENABLED)
#define disabled (MF_BYCOMMAND | MF_GRAYED)
#ifndef Q_OS_WINCE
EnableMenuItem(menu, SC_MINIMIZE, (tlw->windowFlags() & Qt::WindowMinimizeButtonHint)?enabled:disabled);
bool maximized = IsZoomed(tlw->internalWinId());
EnableMenuItem(menu, SC_MAXIMIZE, ! (tlw->windowFlags() & Qt::WindowMaximizeButtonHint) || maximized?disabled:enabled);
EnableMenuItem(menu, SC_RESTORE, maximized?enabled:disabled);
// We should _not_ check with the setFixedSize(x,y) case here, since Windows is not able to check
// this and our menu here would be out-of-sync with the menu produced by mouse-click on the
// System Menu, or right-click on the title bar.
EnableMenuItem(menu, SC_SIZE, (tlw->windowFlags() & Qt::MSWindowsFixedSizeDialogHint) || maximized?disabled:enabled);
EnableMenuItem(menu, SC_MOVE, maximized?disabled:enabled);
EnableMenuItem(menu, SC_CLOSE, enabled);
// Set bold on close menu item
MENUITEMINFO closeItem;
closeItem.cbSize = sizeof(MENUITEMINFO);
closeItem.fMask = MIIM_STATE;
closeItem.fState = MFS_DEFAULT;
SetMenuItemInfo(menu, SC_CLOSE, FALSE, &closeItem);
#endif
#undef enabled
#undef disabled
int ret = TrackPopupMenuEx(menu,
TPM_LEFTALIGN | TPM_TOPALIGN | TPM_NONOTIFY | TPM_RETURNCMD,
tlw->geometry().x(), tlw->geometry().y(),
tlw->internalWinId(),
0);
if (ret)
QtWndProc(tlw->internalWinId(), WM_SYSCOMMAND, ret, 0);
}
// QETWidget class is only for accessing the sendSpontaneousEvent function in QApplication
class QETWidget : public QWidget {
public:
static bool sendSpontaneousEvent(QObject *r, QEvent *e)
{ return QApplication::sendSpontaneousEvent(r, e); }
};
// Keyboard map private ----------------------------------------------------------------[ start ]---
/*
\internal
A Windows KeyboardLayoutItem has 8 possible states:
1. Unmodified
2. Shift
3. Control
4. Control + Shift
5. Alt
6. Alt + Shift
7. Alt + Control
8. Alt + Control + Shift
*/
struct KeyboardLayoutItem {
bool dirty;
quint8 deadkeys;
quint32 qtKey[9]; // Can by any Qt::Key_<foo>, or unicode character
};
QKeyMapperPrivate::QKeyMapperPrivate()
{
memset(keyLayout, 0, sizeof(keyLayout));
}
QKeyMapperPrivate::~QKeyMapperPrivate()
{
clearMappings();
}
void QKeyMapperPrivate::clearMappings()
{
for (int i = 0; i < 255; ++i) {
if (keyLayout[i]) {
delete keyLayout[i];
keyLayout[i] = 0;
}
}
/* MAKELCID()'s first argument is a WORD, and GetKeyboardLayout()
* returns a DWORD. */
// LCID newLCID = MAKELCID(DWORD(GetKeyboardLayout(0)), SORT_DEFAULT);
// keyboardInputLocale = qt_localeFromLCID(newLCID);
LCID newLCID = MAKELCID(
reinterpret_cast<long>(GetKeyboardLayout(0)),
SORT_DEFAULT
);
keyboardInputLocale = qt_localeFromLCID(newLCID);
bool bidi = false;
#ifdef UNICODE
if (QSysInfo::WindowsVersion >= QSysInfo::WV_2000) {
WCHAR wchLCIDFontSig[16];
if (GetLocaleInfoW(newLCID,
LOCALE_FONTSIGNATURE,
&wchLCIDFontSig[0],
(sizeof(wchLCIDFontSig)/sizeof(WCHAR)))
&& (wchLCIDFontSig[7] & (WCHAR)0x0800))
bidi = true;
} else
#endif //UNICODE
{
if (newLCID == 0x0859 || //Sindhi (Arabic script)
newLCID == 0x0460) //Kashmiri (Arabic script)
bidi = true;;
switch (PRIMARYLANGID(newLCID))
{
case LANG_ARABIC:
case LANG_HEBREW:
case LANG_URDU:
case LANG_FARSI:
case LANG_PASHTO:
//case LANG_UIGHUR:
case LANG_SYRIAC:
case LANG_DIVEHI:
bidi = true;
}
}
keyboardInputDirection = bidi ? Qt::RightToLeft : Qt::LeftToRight;
}
void QKeyMapperPrivate::clearRecordedKeys()
{
key_recorder.clearKeys();
}
inline void setKbdState(unsigned char *kbd, bool shift, bool ctrl, bool alt)
{
kbd[VK_LSHIFT ] = (shift ? 0x80 : 0);
kbd[VK_SHIFT ] = (shift ? 0x80 : 0);
kbd[VK_LCONTROL] = (ctrl ? 0x80 : 0);
kbd[VK_CONTROL ] = (ctrl ? 0x80 : 0);
kbd[VK_RMENU ] = (alt ? 0x80 : 0);
kbd[VK_MENU ] = (alt ? 0x80 : 0);
}
void QKeyMapperPrivate::updateKeyMap(const MSG &msg)
{
unsigned char kbdBuffer[256]; // Will hold the complete keyboard state
GetKeyboardState(kbdBuffer);
quint32 scancode = (msg.lParam >> 16) & 0xfff;
updatePossibleKeyCodes(kbdBuffer, scancode, msg.wParam);
}
void QKeyMapperPrivate::updatePossibleKeyCodes(unsigned char *kbdBuffer, quint32 scancode,
quint32 vk_key)
{
if (!vk_key || (keyLayout[vk_key] && !keyLayout[vk_key]->dirty))
return;
if (!keyLayout[vk_key])
keyLayout[vk_key] = new KeyboardLayoutItem;
// Copy keyboard state, so we can modify and query output for each possible permutation
unsigned char buffer[256];
memcpy(buffer, kbdBuffer, sizeof(buffer));
// Always 0, as Windows doesn't treat these as modifiers;
buffer[VK_LWIN ] = 0;
buffer[VK_RWIN ] = 0;
buffer[VK_CAPITAL ] = 0;
buffer[VK_NUMLOCK ] = 0;
buffer[VK_SCROLL ] = 0;
// Always 0, since we'll only change the other versions
buffer[VK_RSHIFT ] = 0;
buffer[VK_RCONTROL] = 0;
buffer[VK_LMENU ] = 0; // Use right Alt, since left Ctrl + right Alt is considered AltGraph
bool isDeadKey = false;
keyLayout[vk_key]->deadkeys = 0;
keyLayout[vk_key]->dirty = false;
setKbdState(buffer, false, false, false);
keyLayout[vk_key]->qtKey[0] = toKeyOrUnicode(vk_key, scancode, buffer, &isDeadKey);
keyLayout[vk_key]->deadkeys |= isDeadKey ? 0x01 : 0;
setKbdState(buffer, true, false, false);
keyLayout[vk_key]->qtKey[1] = toKeyOrUnicode(vk_key, scancode, buffer, &isDeadKey);
keyLayout[vk_key]->deadkeys |= isDeadKey ? 0x02 : 0;
setKbdState(buffer, false, true, false);
keyLayout[vk_key]->qtKey[2] = toKeyOrUnicode(vk_key, scancode, buffer, &isDeadKey);
keyLayout[vk_key]->deadkeys |= isDeadKey ? 0x04 : 0;
setKbdState(buffer, true, true, false);
keyLayout[vk_key]->qtKey[3] = toKeyOrUnicode(vk_key, scancode, buffer, &isDeadKey);
keyLayout[vk_key]->deadkeys |= isDeadKey ? 0x08 : 0;
setKbdState(buffer, false, false, true);
keyLayout[vk_key]->qtKey[4] = toKeyOrUnicode(vk_key, scancode, buffer, &isDeadKey);
keyLayout[vk_key]->deadkeys |= isDeadKey ? 0x10 : 0;
setKbdState(buffer, true, false, true);
keyLayout[vk_key]->qtKey[5] = toKeyOrUnicode(vk_key, scancode, buffer, &isDeadKey);
keyLayout[vk_key]->deadkeys |= isDeadKey ? 0x20 : 0;
setKbdState(buffer, false, true, true);
keyLayout[vk_key]->qtKey[6] = toKeyOrUnicode(vk_key, scancode, buffer, &isDeadKey);
keyLayout[vk_key]->deadkeys |= isDeadKey ? 0x40 : 0;
setKbdState(buffer, true, true, true);
keyLayout[vk_key]->qtKey[7] = toKeyOrUnicode(vk_key, scancode, buffer, &isDeadKey);
keyLayout[vk_key]->deadkeys |= isDeadKey ? 0x80 : 0;
// Add a fall back key for layouts which don't do composition and show non-latin1 characters
int fallbackKey = KeyTbl[vk_key];
if (!fallbackKey || fallbackKey == Qt::Key_unknown) {
fallbackKey = 0;
if (vk_key != keyLayout[vk_key]->qtKey[0] && vk_key < 0x5B && vk_key > 0x2F)
fallbackKey = vk_key;
}
keyLayout[vk_key]->qtKey[8] = fallbackKey;
// If this vk_key a Dead Key
if (MapVirtualKey(vk_key, 2) & 0x80008000) { // (High-order dead key on Win 95 is 0x8000)
// Push a Space, then the original key through the low-level ToAscii functions.
// We do this because these functions (ToAscii / ToUnicode) will alter the internal state of
// the keyboard driver By doing the following, we set the keyboard driver state back to what
// it was before we wrecked it with the code above.
// We need to push the space with an empty keystate map, since the driver checks the map for
// transitions in modifiers, so this helps us capture all possible deadkeys.
unsigned char emptyBuffer[256];
memset(emptyBuffer, 0, sizeof(emptyBuffer));
::ToAscii(VK_SPACE, 0, emptyBuffer, reinterpret_cast<LPWORD>(&buffer), 0);
::ToAscii(vk_key, scancode, kbdBuffer, reinterpret_cast<LPWORD>(&buffer), 0);
}
#ifdef DEBUG_KEYMAPPER
qDebug("updatePossibleKeyCodes for virtual key = 0x%02x!", vk_key);
for (int i = 0; i < 9; ++i) {
qDebug(" [%d] (%d,0x%02x,'%c') %s", i,
keyLayout[vk_key]->qtKey[i],
keyLayout[vk_key]->qtKey[i],
keyLayout[vk_key]->qtKey[i] ? keyLayout[vk_key]->qtKey[i] : 0x03,
keyLayout[vk_key]->deadkeys & (1<<i) ? "deadkey" : "");
}
#endif // DEBUG_KEYMAPPER
}
bool QKeyMapperPrivate::isADeadKey(unsigned int vk_key, unsigned int modifiers)
{
if (keyLayout && (vk_key < 256) && keyLayout[vk_key]) {
for(register int i = 0; i < 9; ++i) {
if (uint(ModsTbl[i]) == modifiers)
return bool(keyLayout[vk_key]->deadkeys & 1<<i);
}
}
return false;
}
extern bool qt_use_rtl_extensions;
QList<int> QKeyMapperPrivate::possibleKeys(QKeyEvent *e)
{
QList<int> result;
KeyboardLayoutItem *kbItem = keyLayout[e->nativeVirtualKey()];
if(!kbItem)
return result;
quint32 baseKey = kbItem->qtKey[0];
Qt::KeyboardModifiers keyMods = e->modifiers();
if (baseKey == Qt::Key_Return && (e->nativeModifiers() & ExtendedKey)) {
result << int(Qt::Key_Enter + keyMods);
return result;
}
result << int(baseKey + keyMods); // The base key is _always_ valid, of course
for(int i = 1; i < 9; ++i) {
Qt::KeyboardModifiers neededMods = ModsTbl[i];
quint32 key = kbItem->qtKey[i];
if (key && key != baseKey && ((keyMods & neededMods) == neededMods))
result << int(key + (keyMods & ~neededMods));
}
return result;
}
bool QKeyMapperPrivate::translateKeyEvent(QWidget *widget, const MSG &msg, bool grab)
{
Q_Q(QKeyMapper);
Q_UNUSED(q); // Strange, but the compiler complains on q not being referenced, even if it is..
bool k0 = false;
bool k1 = false;
int msgType = msg.message;
quint32 scancode = (msg.lParam >> 16) & 0xfff;
quint32 vk_key = MapVirtualKey(scancode, 1);
bool isNumpad = (msg.wParam >= VK_NUMPAD0 && msg.wParam <= VK_NUMPAD9);
quint32 nModifiers = 0;
if (QSysInfo::WindowsVersion < QSysInfo::WV_NT || QSysInfo::WindowsVersion & QSysInfo::WV_CE_based) {
nModifiers |= (GetKeyState(VK_SHIFT ) < 0 ? ShiftAny : 0);
nModifiers |= (GetKeyState(VK_CONTROL) < 0 ? ControlAny : 0);
nModifiers |= (GetKeyState(VK_MENU ) < 0 ? AltAny : 0);
nModifiers |= (GetKeyState(VK_LWIN ) < 0 ? MetaLeft : 0);
nModifiers |= (GetKeyState(VK_RWIN ) < 0 ? MetaRight : 0);
} else {
// Map native modifiers to some bit representation
nModifiers |= (GetKeyState(VK_LSHIFT ) & 0x80 ? ShiftLeft : 0);
nModifiers |= (GetKeyState(VK_RSHIFT ) & 0x80 ? ShiftRight : 0);
nModifiers |= (GetKeyState(VK_LCONTROL) & 0x80 ? ControlLeft : 0);
nModifiers |= (GetKeyState(VK_RCONTROL) & 0x80 ? ControlRight : 0);
nModifiers |= (GetKeyState(VK_LMENU ) & 0x80 ? AltLeft : 0);
nModifiers |= (GetKeyState(VK_RMENU ) & 0x80 ? AltRight : 0);
nModifiers |= (GetKeyState(VK_LWIN ) & 0x80 ? MetaLeft : 0);
nModifiers |= (GetKeyState(VK_RWIN ) & 0x80 ? MetaRight : 0);
// Add Lock keys to the same bits
nModifiers |= (GetKeyState(VK_CAPITAL ) & 0x01 ? CapsLock : 0);
nModifiers |= (GetKeyState(VK_NUMLOCK ) & 0x01 ? NumLock : 0);
nModifiers |= (GetKeyState(VK_SCROLL ) & 0x01 ? ScrollLock : 0);
}
if (msg.lParam & ExtendedKey)
nModifiers |= msg.lParam & ExtendedKey;
// Get the modifier states (may be altered later, depending on key code)
int state = 0;
state |= (nModifiers & ShiftAny ? Qt::ShiftModifier : 0);
state |= (nModifiers & ControlAny ? Qt::ControlModifier : 0);
state |= (nModifiers & AltAny ? Qt::AltModifier : 0);
state |= (nModifiers & MetaAny ? Qt::MetaModifier : 0);
// Now we know enough to either have MapVirtualKey or our own keymap tell us if it's a deadkey
bool isDeadKey = isADeadKey(msg.wParam, state)
|| MapVirtualKey(msg.wParam, 2) & 0x80008000; // High-order on 95 is 0x8000
// A multi-character key not found by our look-ahead
if (msgType == WM_CHAR) {
QString s;
QChar ch = wmchar_to_unicode(msg.wParam);
if (!ch.isNull())
s += ch;
k0 = q->sendKeyEvent(widget, grab, QEvent::KeyPress, 0, Qt::KeyboardModifier(state), s, false, 0, scancode, vk_key, nModifiers);
k1 = q->sendKeyEvent(widget, grab, QEvent::KeyRelease, 0, Qt::KeyboardModifier(state), s, false, 0, scancode, vk_key, nModifiers);
}
// Input method characters not found by our look-ahead
else if (msgType == WM_IME_CHAR) {
QString s;
QChar ch = imechar_to_unicode(msg.wParam);
if (!ch.isNull())
s += ch;
k0 = q->sendKeyEvent(widget, grab, QEvent::KeyPress, 0, Qt::KeyboardModifier(state), s, false, 0, scancode, vk_key, nModifiers);
k1 = q->sendKeyEvent(widget, grab, QEvent::KeyRelease, 0, Qt::KeyboardModifier(state), s, false, 0, scancode, vk_key, nModifiers);
}
else {
// handle Directionality changes (BiDi) with RTL extensions
if (qt_use_rtl_extensions) {
static int dirStatus = 0;
if (!dirStatus && state == Qt::ControlModifier
&& msg.wParam == VK_CONTROL
&& msgType == WM_KEYDOWN) {
if (GetKeyState(VK_LCONTROL) < 0)
dirStatus = VK_LCONTROL;
else if (GetKeyState(VK_RCONTROL) < 0)
dirStatus = VK_RCONTROL;
} else if (dirStatus) {
if (msgType == WM_KEYDOWN) {
if (msg.wParam == VK_SHIFT) {
if (dirStatus == VK_LCONTROL && GetKeyState(VK_LSHIFT) < 0)
dirStatus = VK_LSHIFT;
else if (dirStatus == VK_RCONTROL && GetKeyState(VK_RSHIFT) < 0)
dirStatus = VK_RSHIFT;
} else {
dirStatus = 0;
}
} else if (msgType == WM_KEYUP) {
if (dirStatus == VK_LSHIFT
&& (msg.wParam == VK_SHIFT && GetKeyState(VK_LCONTROL)
|| msg.wParam == VK_CONTROL && GetKeyState(VK_LSHIFT))) {
k0 = q->sendKeyEvent(widget, grab, QEvent::KeyPress, Qt::Key_Direction_L, 0,
QString(), false, 0,
scancode, msg.wParam, nModifiers);
k1 = q->sendKeyEvent(widget, grab, QEvent::KeyRelease, Qt::Key_Direction_L, 0,
QString(), false, 0,
scancode, msg.wParam, nModifiers);
dirStatus = 0;
} else if (dirStatus == VK_RSHIFT
&& (msg.wParam == VK_SHIFT && GetKeyState(VK_RCONTROL)
|| msg.wParam == VK_CONTROL && GetKeyState(VK_RSHIFT))) {
k0 = q->sendKeyEvent(widget, grab, QEvent::KeyPress, Qt::Key_Direction_R,
0, QString(), false, 0,
scancode, msg.wParam, nModifiers);
k1 = q->sendKeyEvent(widget, grab, QEvent::KeyRelease, Qt::Key_Direction_R,
0, QString(), false, 0,
scancode, msg.wParam, nModifiers);
dirStatus = 0;
} else {
dirStatus = 0;
}
} else {
dirStatus = 0;
}
}
}
// IME will process these keys, so simply return
if(msg.wParam == VK_PROCESSKEY)
return true;
// Ignore invalid virtual keycode (see bug 127424)
if (msg.wParam == 0xFF)
return true;
// Translate VK_* (native) -> Key_* (Qt) keys
// If it's a dead key, we cannot use the toKeyOrUnicode() function, since that will change
// the internal state of the keyboard driver, resulting in that dead keys no longer works.
// ..also if we're typing numbers on the keypad, while holding down the Alt modifier.
int code = 0;
if (isNumpad && (nModifiers & AltAny)) {
code = KeyTbl[msg.wParam];
} else if (!isDeadKey) {
unsigned char kbdBuffer[256]; // Will hold the complete keyboard state
GetKeyboardState(kbdBuffer);
code = toKeyOrUnicode(msg.wParam, scancode, kbdBuffer);
}
// Invert state logic:
// If the key actually pressed is a modifier key, then we remove its modifier key from the
// state, since a modifier-key can't have itself as a modifier
if (code == Qt::Key_Control)
state = state ^ Qt::ControlModifier;
else if (code == Qt::Key_Shift)
state = state ^ Qt::ShiftModifier;
else if (code == Qt::Key_Alt)
state = state ^ Qt::AltModifier;
// If the bit 24 of lParm is set you received a enter,
// otherwise a Return. (This is the extended key bit)
if ((code == Qt::Key_Return) && (msg.lParam & 0x1000000))
code = Qt::Key_Enter;
// All cursor keys without extended bit
if (!(msg.lParam & 0x1000000)) {
switch (code) {
case Qt::Key_Left:
case Qt::Key_Right:
case Qt::Key_Up:
case Qt::Key_Down:
case Qt::Key_PageUp:
case Qt::Key_PageDown:
case Qt::Key_Home:
case Qt::Key_End:
case Qt::Key_Insert:
case Qt::Key_Delete:
case Qt::Key_Asterisk:
case Qt::Key_Plus:
case Qt::Key_Minus:
case Qt::Key_Period:
case Qt::Key_0:
case Qt::Key_1:
case Qt::Key_2:
case Qt::Key_3:
case Qt::Key_4:
case Qt::Key_5:
case Qt::Key_6:
case Qt::Key_7:
case Qt::Key_8:
case Qt::Key_9:
state |= ((msg.wParam >= '0' && msg.wParam <= '9')
|| (msg.wParam >= VK_OEM_PLUS && msg.wParam <= VK_OEM_3))
? 0 : Qt::KeypadModifier;
default:
if ((uint)msg.lParam == 0x004c0001 || (uint)msg.lParam == 0xc04c0001)
state |= Qt::KeypadModifier;
break;
}
}
// Other keys with with extended bit
else {
switch (code) {
case Qt::Key_Enter:
case Qt::Key_Slash:
case Qt::Key_NumLock:
state |= Qt::KeypadModifier;
default:
break;
}
}
// KEYDOWN ---------------------------------------------------------------------------------
if (msgType == WM_KEYDOWN || msgType == WM_IME_KEYDOWN || msgType == WM_SYSKEYDOWN) {
// Get the last record of this key press, so we can validate the current state
// The record is not removed from the list
KeyRecord *rec = key_recorder.findKey(msg.wParam, false);
// If rec's state doesn't match the current state, something has changed behind our back
// (Consumed by modal widget is one possibility) So, remove the record from the list
// This will stop the auto-repeat of the key, should a modifier change, for example
if (rec && rec->state != state) {
key_recorder.findKey(msg.wParam, true);
rec = 0;
}
// Find unicode character from Windows Message Queue
MSG wm_char;
UINT charType = (msgType == WM_KEYDOWN
? WM_CHAR
: msgType == WM_IME_KEYDOWN ? WM_IME_CHAR : WM_SYSCHAR);
QChar uch;
if (winPeekMessage(&wm_char, 0, charType, charType, PM_REMOVE)) {
// Found a ?_CHAR
uch = charType == WM_IME_CHAR
? imechar_to_unicode(wm_char.wParam)
: wmchar_to_unicode(wm_char.wParam);
if (msgType == WM_SYSKEYDOWN && uch.isLetter() && (msg.lParam & KF_ALTDOWN))
uch = uch.toLower(); // (See doc of WM_SYSCHAR) Alt-letter
if (!code && !uch.row())
code = asciiToKeycode(uch.cell(), state);
}
// Special handling for the WM_IME_KEYDOWN message. Microsoft IME (Korean) will not
// generate a WM_IME_CHAR message corresponding to this message. We might get wrong
// results, if we map this virtual key-code directly (for eg '?' US layouts). So try
// to find the correct key using the current message parameters & keyboard state.
if (uch.isNull() && msgType == WM_IME_KEYDOWN) {
BYTE keyState[256];
WCHAR newKey[3] = {0};
GetKeyboardState(keyState);
int val = ToUnicode(vk_key, scancode, keyState, newKey, 2, 0);
if (val == 1) {
uch = QChar(newKey[0]);
} else {
// If we are still not able to find a unicode key, pass the WM_IME_KEYDOWN
// message to DefWindowProc() for generating a proper WM_KEYDOWN.
return false;
}
}
// If no ?_CHAR was found in the queue; deduct character from the ?_KEYDOWN parameters
if (uch.isNull()) {
if (msg.wParam == VK_DELETE) {
uch = QChar(QLatin1Char(0x7f)); // Windows doesn't know this one.
} else {
if (msgType != WM_SYSKEYDOWN || !code) {
UINT map;
QT_WA({
map = MapVirtualKey(msg.wParam, 2);
} , {
map = MapVirtualKeyA(msg.wParam, 2);
// High-order bit is 0x8000 on '95
if (map & 0x8000)
map = (map^0x8000)|0x80000000;
});
// If the high bit of the return value is set, it's a deadkey
if (!(map & 0x80000000))
uch = wmchar_to_unicode((DWORD)map);
}
}
if (!code && !uch.row())
code = asciiToKeycode(uch.cell(), state);
}
// Special handling of global Windows hotkeys
if (state == Qt::AltModifier) {
switch (code) {
case Qt::Key_Escape:
case Qt::Key_Tab:
case Qt::Key_Enter:
case Qt::Key_F4:
return false; // Send the event on to Windows
case Qt::Key_Space:
// do not pass this key to windows, we will process it ourselves
qt_show_system_menu(widget->window());
return true;
default:
break;
}
}
// Map SHIFT + Tab to SHIFT + BackTab, QShortcutMap knows about this translation
if (code == Qt::Key_Tab && (state & Qt::ShiftModifier) == Qt::ShiftModifier)
code = Qt::Key_Backtab;
// If we have a record, it means that the key is already pressed, the state is the same
// so, we have an auto-repeating key
if (rec) {
if (code < Qt::Key_Shift || code > Qt::Key_ScrollLock) {
k0 = q->sendKeyEvent(widget, grab, QEvent::KeyRelease, code,
Qt::KeyboardModifier(state), rec->text, true, 0,
scancode, msg.wParam, nModifiers);
k1 = q->sendKeyEvent(widget, grab, QEvent::KeyPress, code,
Qt::KeyboardModifier(state), rec->text, true, 0,
scancode, msg.wParam, nModifiers);
}
}
// No record of the key being previous pressed, so we now send a QEvent::KeyPress event,
// and store the key data into our records.
else {
QString text;
if (!uch.isNull())
text += uch;
char a = uch.row() ? 0 : uch.cell();
key_recorder.storeKey(msg.wParam, a, state, text);
k0 = q->sendKeyEvent(widget, grab, QEvent::KeyPress, code, Qt::KeyboardModifier(state),
text, false, 0, scancode, msg.wParam, nModifiers);
bool store = true;
// Alt+<alphanumerical> go to the Win32 menu system if unhandled by Qt
#if !defined(Q_OS_WINCE)
if (msgType == WM_SYSKEYDOWN && !k0 && a) {
HWND parent = GetParent(widget->internalWinId());
while (parent) {
if (GetMenu(parent)) {
SendMessage(parent, WM_SYSCOMMAND, SC_KEYMENU, a);
store = false;
k0 = true;
break;
}
parent = GetParent(parent);
}
}
#endif
if (!store)
key_recorder.findKey(msg.wParam, true);
}
}
// KEYUP -----------------------------------------------------------------------------------
else {
// Try to locate the key in our records, and remove it if it exists.
// The key may not be in our records if, for example, the down event was handled by
// win32 natively, or our window gets focus while a key is already press, but now gets
// the key release event.
KeyRecord* rec = key_recorder.findKey(msg.wParam, true);
if (!rec && !(code == Qt::Key_Shift
|| code == Qt::Key_Control
|| code == Qt::Key_Meta
|| code == Qt::Key_Alt)) {
// Someone ate the key down event
} else {
if (!code)
code = asciiToKeycode(rec->ascii ? rec->ascii : msg.wParam, state);
// Map SHIFT + Tab to SHIFT + BackTab, QShortcutMap knows about this translation
if (code == Qt::Key_Tab && (state & Qt::ShiftModifier) == Qt::ShiftModifier)
code = Qt::Key_Backtab;
k0 = q->sendKeyEvent(widget, grab, QEvent::KeyRelease, code, Qt::KeyboardModifier(state),
(rec ? rec->text : QString()), false, 0, scancode, msg.wParam, nModifiers);
// don't pass Alt to Windows unless we are embedded in a non-Qt window
#if !defined(Q_OS_WINCE)
if (code == Qt::Key_Alt) {
k0 = true;
HWND parent = GetParent(widget->internalWinId());
while (parent) {
if (!QWidget::find(parent) && GetMenu(parent)) {
k0 = false;
break;
}
parent = GetParent(parent);
}
}
#endif
}
}
}
// Return true, if a QKeyEvent was sent to a widget
return k0 || k1;
}
// QKeyMapper (Windows) implementation -------------------------------------------------[ start ]---
bool QKeyMapper::sendKeyEvent(QWidget *widget, bool grab,
QEvent::Type type, int code, Qt::KeyboardModifiers modifiers,
const QString &text, bool autorepeat, int count,
quint32 nativeScanCode, quint32 nativeVirtualKey, quint32 nativeModifiers,
bool *)
{
#if defined(Q_OS_WINCE)
Q_UNUSED(grab);
#endif
Q_UNUSED(count);
#if defined QT3_SUPPORT && !defined(QT_NO_SHORTCUT)
if (type == QEvent::KeyPress
&& !grab
&& QApplicationPrivate::instance()->use_compat()) {
// send accel events if the keyboard is not grabbed
QKeyEventEx a(type, code, modifiers,
text, autorepeat, qMax(1, int(text.length())),
nativeScanCode, nativeVirtualKey, nativeModifiers);
if (QApplicationPrivate::instance()->qt_tryAccelEvent(widget, &a))
return true;
}
#endif
if (!widget->isEnabled())
return false;
QKeyEventEx e(type, code, modifiers,
text, autorepeat, qMax(1, int(text.length())),
nativeScanCode, nativeVirtualKey, nativeModifiers);
QETWidget::sendSpontaneousEvent(widget, &e);
if (!isModifierKey(code)
&& modifiers == Qt::AltModifier
&& ((code >= Qt::Key_A && code <= Qt::Key_Z) || (code >= Qt::Key_0 && code <= Qt::Key_9))
&& type == QEvent::KeyPress
&& !e.isAccepted())
QApplication::beep(); // Emulate windows behavior
return e.isAccepted();
}
QT_END_NAMESPACE
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