source: trunk/src/user32/winkeyboard.cpp@ 21303

Last change on this file since 21303 was 21303, checked in by ydario, 16 years ago

User32 updates.
File size: 90.5 KB
Line 
1/* $Id: winkeyboard.cpp,v 1.45 2004-03-23 15:49:50 sandervl Exp $ */
2/*
3 * Win32 <-> PM key translation
4 *
5 *
6 * Project Odin Software License can be found in LICENSE.TXT
7 *
8 */
9
10#include <odin.h>
11#include <odinwrap.h>
12#include <os2sel.h>
13
14#include <os2win.h>
15
16#include <string.h>
17#include <stdio.h>
18#include <winkeyboard.h>
19#include "oslibkbd.h"
20#include <heapstring.h>
21#include <pmscan.h>
22#include <winscan.h>
23#include <winuser32.h>
24#include "initterm.h"
25
26#define DBG_LOCALLOG DBG_winkeyboard
27#include "dbglocal.h"
28
29
30/****************************************************************************
31 * module local variables
32 ****************************************************************************/
33
34static char arrchOverlayKeyState[256] = {0};
35
36
37
38
39/****************************************************************************
40 * implementation
41 ****************************************************************************/
42
43BOOL OPEN32API _O32_GetKeyboardState( PBYTE lpKeyState );
44
45inline BOOL O32_GetKeyboardState(PBYTE lpKeyState)
46{
47 BOOL yyrc;
48 USHORT sel = RestoreOS2FS();
49
50 yyrc = _O32_GetKeyboardState(lpKeyState);
51 SetFS(sel);
52
53 return yyrc;
54}
55
56
57BYTE abPMScanToWinVKey[256][2] =
58/****************************************************************************/
59/* PM Scancode * Win32 vkey Extended Key */
60/****************************************************************************/
61/* 0x00 */ { 0x00, FALSE
62/* 0x01 PMSCAN_ESC */ , VK_ESCAPE ,FALSE
63/* 0x02 PMSCAN_ONE */ , VK_1 ,FALSE
64/* 0x03 PMSCAN_TWO */ , VK_2 ,FALSE
65/* 0x04 PMSCAN_THREE */ , VK_3 ,FALSE
66/* 0x05 PMSCAN_FOUR */ , VK_4 ,FALSE
67/* 0x06 PMSCAN_FIVE */ , VK_5 ,FALSE
68/* 0x07 PMSCAN_SIX */ , VK_6 ,FALSE
69/* 0x08 PMSCAN_SEVEN */ , VK_7 ,FALSE
70/* 0x09 PMSCAN_EIGHT */ , VK_8 ,FALSE
71/* 0x0A PMSCAN_NINE */ , VK_9 ,FALSE
72/* 0x0B PMSCAN_ZERO */ , VK_0 ,FALSE
73/* 0x0C PMSCAN_HYPHEN */ , VK_HYPHEN ,FALSE
74/* 0x0D PMSCAN_EQUAL */ , VK_EQUAL ,FALSE
75/* 0x0E PMSCAN_BACKSPACE */ , VK_BACK ,FALSE
76/* 0x0F PMSCAN_TAB */ , VK_TAB ,FALSE
77/* 0x10 PMSCAN_Q */ , VK_Q ,FALSE
78/* 0x11 PMSCAN_W */ , VK_W ,FALSE
79/* 0x12 PMSCAN_E */ , VK_E ,FALSE
80/* 0x13 PMSCAN_R */ , VK_R ,FALSE
81/* 0x14 PMSCAN_T */ , VK_T ,FALSE
82/* 0x15 PMSCAN_Y */ , VK_Y ,FALSE
83/* 0x16 PMSCAN_U */ , VK_U ,FALSE
84/* 0x17 PMSCAN_I */ , VK_I ,FALSE
85/* 0x18 PMSCAN_O */ , VK_O ,FALSE
86/* 0x19 PMSCAN_P */ , VK_P ,FALSE
87/* 0x1A PMSCAN_BRACKETLEFT */ , VK_BRACKETLEFT ,FALSE
88/* 0x1B PMSCAN_BRACKETRIGHT */ , VK_BRACKETRIGHT ,FALSE
89/* 0x1C PMSCAN_ENTER */ , VK_RETURN ,FALSE
90/* 0x1D PMSCAN_CTRLLEFT */ , VK_LCONTROL ,FALSE
91/* 0x1E PMSCAN_A */ , VK_A ,FALSE
92/* 0x1F PMSCAN_S */ , VK_S ,FALSE
93/* 0x20 PMSCAN_D */ , VK_D ,FALSE
94/* 0x21 PMSCAN_F */ , VK_F ,FALSE
95/* 0x22 PMSCAN_G */ , VK_G ,FALSE
96/* 0x23 PMSCAN_H */ , VK_H ,FALSE
97/* 0x24 PMSCAN_J */ , VK_J ,FALSE
98/* 0x25 PMSCAN_K */ , VK_K ,FALSE
99/* 0x26 PMSCAN_L */ , VK_L ,FALSE
100/* 0x27 PMSCAN_SEMICOLON */ , VK_SEMICOLON ,FALSE
101/* 0x28 PMSCAN_QUOTESINGLE */ , VK_QUOTESINGLE ,FALSE
102/* 0x29 PMSCAN_GRAVE */ , VK_GRAVE ,FALSE
103/* 0x2A PMSCAN_SHIFTLEFT */ , VK_LSHIFT ,FALSE
104/* 0x2B PMSCAN_BACKSLASH */ , VK_BACKSLASH ,FALSE
105/* 0x2C PMSCAN_Z */ , VK_Z ,FALSE
106/* 0x2D PMSCAN_X */ , VK_X ,FALSE
107/* 0x2E PMSCAN_C */ , VK_C ,FALSE
108/* 0x2F PMSCAN_V */ , VK_V ,FALSE
109/* 0x30 PMSCAN_B */ , VK_B ,FALSE
110/* 0x31 PMSCAN_N */ , VK_N ,FALSE
111/* 0x32 PMSCAN_M */ , VK_M ,FALSE
112/* 0x33 PMSCAN_COMMA */ , VK_COMMA ,FALSE
113/* 0x34 PMSCAN_PERIOD */ , VK_PERIOD ,FALSE
114/* 0x35 PMSCAN_SLASH */ , VK_SLASH ,FALSE
115/* 0x36 PMSCAN_SHIFTRIGHT */ , VK_RSHIFT ,FALSE
116/* 0x37 PMSCAN_PADASTERISK */ , VK_MULTIPLY ,FALSE
117/* 0x38 PMSCAN_ALTLEFT */ , VK_LMENU ,FALSE
118/* 0x39 PMSCAN_SPACE */ , VK_SPACE ,FALSE
119/* 0x3A PMSCAN_CAPSLOCK */ , VK_CAPITAL ,FALSE
120/* 0x3B PMSCAN_F1 */ , VK_F1 ,FALSE
121/* 0x3C PMSCAN_F2 */ , VK_F2 ,FALSE
122/* 0x3D PMSCAN_F3 */ , VK_F3 ,FALSE
123/* 0x3E PMSCAN_F4 */ , VK_F4 ,FALSE
124/* 0x3F PMSCAN_F5 */ , VK_F5 ,FALSE
125/* 0x40 PMSCAN_F6 */ , VK_F6 ,FALSE
126/* 0x41 PMSCAN_F7 */ , VK_F7 ,FALSE
127/* 0x42 PMSCAN_F8 */ , VK_F8 ,FALSE
128/* 0x43 PMSCAN_F9 */ , VK_F9 ,FALSE
129/* 0x44 PMSCAN_F10 */ , VK_F10 ,FALSE
130/* 0x45 PMSCAN_NUMLOCK */ , VK_NUMLOCK ,TRUE
131/* 0x46 PMSCAN_SCROLLLOCK */ , VK_SCROLL ,FALSE
132/* 0x47 PMSCAN_PAD7 */ , VK_NUMPAD7 ,FALSE
133/* 0x48 PMSCAN_PAD8 */ , VK_NUMPAD8 ,FALSE
134/* 0x49 PMSCAN_PAD9 */ , VK_NUMPAD9 ,FALSE
135/* 0x4A PMSCAN_PADMINUS */ , VK_SUBTRACT ,FALSE
136/* 0x4B PMSCAN_PAD4 */ , VK_NUMPAD4 ,FALSE
137/* 0x4C PMSCAN_PAD5 */ , VK_NUMPAD5 ,FALSE
138/* 0x4D PMSCAN_PAD6 */ , VK_NUMPAD6 ,FALSE
139/* 0x4E PMSCAN_PADPLUS */ , VK_ADD ,FALSE
140/* 0x4F PMSCAN_PAD1 */ , VK_NUMPAD1 ,FALSE
141/* 0x50 PMSCAN_PAD2 */ , VK_NUMPAD2 ,FALSE
142/* 0x51 PMSCAN_PAD3 */ , VK_NUMPAD3 ,FALSE
143/* 0x52 PMSCAN_PAD0 */ , VK_NUMPAD0 ,FALSE
144/* 0x53 PMSCAN_PADPERIOD */ , VK_DECIMAL ,FALSE
145/* 0x54 PMSCAN_SYSREQ */ , 0x00 ,FALSE
146/* 0x55 PMSCAN_RESET */ , 0x00 ,FALSE
147/* 0x56 PMSCAN_EXTRA */ , VK_EXTRA ,FALSE
148/* 0x57 PMSCAN_F11 */ , VK_F11 ,FALSE
149/* 0x58 PMSCAN_F12 */ , VK_F12 ,FALSE
150/* 0x59 PMSCAN_BACKTAB */ , 0x00 ,FALSE
151/* 0x5A PMSCAN_PADENTER */ , VK_RETURN ,TRUE
152/* 0x5B PMSCAN_CTRLRIGHT */ , VK_RCONTROL ,TRUE
153/* 0x5C PMSCAN_PADSLASH */ , VK_DIVIDE ,TRUE
154/* 0x5D PMSCAN_PRINT */ , VK_SNAPSHOT ,TRUE
155/* 0x5E PMSCAN_ALTRIGHT */ , VK_RMENU ,TRUE
156/* 0x5F PMSCAN_PAUSE */ , VK_PAUSE ,FALSE
157/* 0x60 PMSCAN_HOME */ , VK_HOME ,TRUE
158/* 0x61 PMSCAN_UP */ , VK_UP ,TRUE
159/* 0x62 PMSCAN_PAGEUP */ , VK_PRIOR ,TRUE
160/* 0x63 PMSCAN_LEFT */ , VK_LEFT ,TRUE
161/* 0x64 PMSCAN_RIGHT */ , VK_RIGHT ,TRUE
162/* 0x65 PMSCAN_END */ , VK_END ,TRUE
163/* 0x66 PMSCAN_DOWN */ , VK_DOWN ,TRUE
164/* 0x67 PMSCAN_PAGEDOWN */ , VK_NEXT ,TRUE
165/* 0x68 PMSCAN_INSERT */ , VK_INSERT ,TRUE
166/* 0x69 PMSCAN_DELETE */ , VK_DELETE ,TRUE
167/* 0x6A PMSCAN_F23 */ , VK_F23 ,FALSE
168/* 0x6B PMSCAN_F24 */ , VK_F24 ,FALSE
169/* 0x6C PMSCAN_SYSMEM */ , 0x00 ,FALSE
170/* 0x6D PMSCAN_ERASEEOF */ , VK_EREOF ,FALSE
171/* 0x6E PMSCAN_BREAK */ , VK_CANCEL ,TRUE
172/* 0x6F PMSCAN_MOVEWIN */ , 0x00 ,FALSE
173/* 0x70 PMSCAN_NLS3 */ , 0x00 ,FALSE
174/* 0x71 PMSCAN_HELP */ , VK_HELP ,FALSE
175/* 0x72 PMSCAN_TASKMAN */ , 0x00 ,FALSE
176/* 0x73 PMSCAN_B11 */ , 0x00 ,FALSE
177/* 0x74 PMSCAN_JUMP */ , 0x00 ,FALSE
178/* 0x75 PMSCAN_MINWIN */ , 0x00 ,FALSE
179/* 0x76 PMSCAN_CLEAR */ , 0x00 ,FALSE
180/* 0x77 PMSCAN_77 */ , 0x00 ,FALSE
181/* 0x78 PMSCAN_78 */ , 0x00 ,FALSE
182/* 0x79 PMSCAN_NLS2 */ , 0x00 ,FALSE
183/* 0x7a PMSCAN_SIZE */ , 0x00 ,FALSE
184/* 0x7b PMSCAN_NLS1 */ , 0x00 ,FALSE
185/* 0x7c PMSCAN_APPLICATION */ , VK_APPS ,TRUE
186/* 0x7d PMSCAN_E13 */ , 0x00 ,FALSE
187/* 0x7e PMSCAN_WINLEFT */ , VK_LWIN ,TRUE
188/* 0x7f PMSCAN_WINRIGHT */ , VK_RWIN ,TRUE
189/* 0x80 PMSCAN_PA1 */ , VK_PA1 ,FALSE
190/* 0x81 PMSCAN_F13 */ , VK_F13 ,FALSE
191/* 0x82 PMSCAN_F14 */ , VK_F14 ,FALSE
192/* 0x83 PMSCAN_F15 */ , VK_F15 ,FALSE
193/* 0x84 PMSCAN_PA2 */ , 0x00 ,FALSE
194/* 0x85 PMSCAN_PA3 */ , 0x00 ,FALSE
195/* 0x86 PMSCAN_SPACEBREAK */ , 0x00 ,FALSE
196/* 0x87 PMSCAN_TABRIGHT */ , 0x00 ,FALSE
197/* 0x88 PMSCAN_NOOP */ , 0x00 ,FALSE
198/* 0x89 PMSCAN_F16 */ , VK_F16 ,FALSE
199/* 0x8a PMSCAN_F17 */ , VK_F17 ,FALSE
200/* 0x8b PMSCAN_F18 */ , VK_F18 ,FALSE
201/* 0x8c PMSCAN_F19 */ , VK_F19 ,FALSE
202/* 0x8d PMSCAN_F20 */ , VK_F20 ,FALSE
203/* 0x8e PMSCAN_F21 */ , VK_F21 ,FALSE
204/* 0x8f PMSCAN_F22 */ , VK_F22 ,FALSE
205/* 0x90 */ , 0x00 ,FALSE
206/* 0x91 */ , 0x00 ,FALSE
207/* 0x92 */ , 0x00 ,FALSE
208/* 0x93 */ , 0x00 ,FALSE
209/* 0x94 */ , 0x00 ,FALSE
210/* 0x95 PMSCAN_DBE_CONV */ , 0x00 ,FALSE //TODO ??
211/* 0x96 PMSCAN_DBE_NOCONV */ , 0x00 ,FALSE //TODO ??
212/* 0x97 */ , 0x00 ,FALSE
213/* 0x98 */ , 0x00 ,FALSE
214/* 0x99 */ , 0x00 ,FALSE
215/* 0x9A */ , 0x00 ,FALSE
216/* 0x9B */ , 0x00 ,FALSE
217/* 0x9C */ , 0x00 ,FALSE
218/* 0x9D */ , 0x00 ,FALSE
219/* 0x9E */ , 0x00 ,FALSE
220/* 0x9F */ , 0x00 ,FALSE
221/* 0xA0 */ , 0x00 ,FALSE
222/* 0xA1 */ , 0x00 ,FALSE
223/* 0xA2 */ , 0x00 ,FALSE
224/* 0xA3 */ , 0x00 ,FALSE
225/* 0xA4 */ , 0x00 ,FALSE
226/* 0xA5 */ , 0x00 ,FALSE
227/* 0xA6 */ , 0x00 ,FALSE
228/* 0xA7 */ , 0x00 ,FALSE
229/* 0xA8 */ , 0x00 ,FALSE
230/* 0xA9 */ , 0x00 ,FALSE
231/* 0xAA */ , 0x00 ,FALSE
232/* 0xAB */ , 0x00 ,FALSE
233/* 0xAC */ , 0x00 ,FALSE
234/* 0xAD */ , 0x00 ,FALSE
235/* 0xAE */ , 0x00 ,FALSE
236/* 0xAF */ , 0x00 ,FALSE
237/* 0xB0 */ , 0x00 ,FALSE
238/* 0xB1 */ , 0x00 ,FALSE
239/* 0xB2 */ , 0x00 ,FALSE
240/* 0xB3 */ , 0x00 ,FALSE
241/* 0xB4 */ , 0x00 ,FALSE
242/* 0xB5 */ , 0x00 ,FALSE
243/* 0xB6 */ , 0x00 ,FALSE
244/* 0xB7 */ , 0x00 ,FALSE
245/* 0xB8 */ , 0x00 ,FALSE
246/* 0xB9 */ , 0x00 ,FALSE
247/* 0xBA */ , 0x00 ,FALSE
248/* 0xBB */ , 0x00 ,FALSE
249/* 0xBC */ , 0x00 ,FALSE
250/* 0xBD */ , 0x00 ,FALSE
251/* 0xBE */ , 0x00 ,FALSE
252/* 0xBF */ , 0x00 ,FALSE
253/* 0xC0 */ , 0x00 ,FALSE
254/* 0xC1 */ , 0x00 ,FALSE
255/* 0xC2 */ , 0x00 ,FALSE
256/* 0xC3 */ , 0x00 ,FALSE
257/* 0xC4 */ , 0x00 ,FALSE
258/* 0xC5 */ , 0x00 ,FALSE
259/* 0xC6 */ , 0x00 ,FALSE
260/* 0xC7 */ , 0x00 ,FALSE
261/* 0xC8 */ , 0x00 ,FALSE
262/* 0xC9 */ , 0x00 ,FALSE
263/* 0xCA */ , 0x00 ,FALSE
264/* 0xCB */ , 0x00 ,FALSE
265/* 0xCC */ , 0x00 ,FALSE
266/* 0xCD */ , 0x00 ,FALSE
267/* 0xCE */ , 0x00 ,FALSE
268/* 0xCF */ , 0x00 ,FALSE
269/* 0xD0 */ , 0x00 ,FALSE
270/* 0xD1 */ , 0x00 ,FALSE
271/* 0xD2 */ , 0x00 ,FALSE
272/* 0xD3 */ , 0x00 ,FALSE
273/* 0xD4 */ , 0x00 ,FALSE
274/* 0xD5 */ , 0x00 ,FALSE
275/* 0xD6 */ , 0x00 ,FALSE
276/* 0xD7 */ , 0x00 ,FALSE
277/* 0xD8 */ , 0x00 ,FALSE
278/* 0xD9 */ , 0x00 ,FALSE
279/* 0xDA */ , 0x00 ,FALSE
280/* 0xDB */ , 0x00 ,FALSE
281/* 0xDC */ , 0x00 ,FALSE
282/* 0xDD */ , 0x00 ,FALSE
283/* 0xDE */ , 0x00 ,FALSE
284/* 0xDF */ , 0x00 ,FALSE
285/* 0xE0 */ , 0x00 ,FALSE
286/* 0xE1 */ , 0x00 ,FALSE
287/* 0xE2 */ , 0x00 ,FALSE
288/* 0xE3 */ , 0x00 ,FALSE
289/* 0xE4 */ , 0x00 ,FALSE
290/* 0xE5 */ , 0x00 ,FALSE
291/* 0xE6 */ , 0x00 ,FALSE
292/* 0xE7 */ , 0x00 ,FALSE
293/* 0xE8 */ , 0x00 ,FALSE
294/* 0xE9 */ , 0x00 ,FALSE
295/* 0xEA */ , 0x00 ,FALSE
296/* 0xEB */ , 0x00 ,FALSE
297/* 0xEC */ , 0x00 ,FALSE
298/* 0xED */ , 0x00 ,FALSE
299/* 0xEE */ , 0x00 ,FALSE
300/* 0xEF */ , 0x00 ,FALSE
301/* 0xF0 */ , 0x00 ,FALSE
302/* 0xF1 */ , 0x00 ,FALSE
303/* 0xF2 */ , 0x00 ,FALSE
304/* 0xF3 */ , 0x00 ,FALSE
305/* 0xF4 */ , 0x00 ,FALSE
306/* 0xF5 */ , 0x00 ,FALSE
307/* 0xF6 */ , 0x00 ,FALSE
308/* 0xF7 */ , 0x00 ,FALSE
309/* 0xF8 */ , 0x00 ,FALSE
310/* 0xF9 */ , 0x00 ,FALSE
311/* 0xFA */ , 0x00 ,FALSE
312/* 0xFB */ , 0x00 ,FALSE
313/* 0xFC */ , 0x00 ,FALSE
314/* 0xFD */ , 0x00 ,FALSE
315/* 0xFE */ , 0x00 ,FALSE
316/* 0xFF */ , 0x00 ,FALSE
317 };
318
319typedef struct tagWinVKeyToPMScan
320{
321 /* index is the VKey value */
322 BYTE bPMScanCode;
323 LPSTR lpstrName;
324} WINVKEYTOPMSCAN, *PWINVKEYTOPMSCAN;
325
326static WINVKEYTOPMSCAN abWinVKeyToPMScan[256] =
327/**********************************************************************/
328/* Vkey * Scancode * Name */
329/**********************************************************************/
330/* 0x00 */ { 0x00 , NULL
331/* 0x01 VK_LBUTTON */ , 0x00 , NULL
332/* 0x02 VK_RBUTTON */ , 0x00 , NULL
333/* 0x03 VK_CANCEL */ , PMSCAN_BREAK , "Break"
334/* 0x04 VK_MBUTTON */ , 0x00 , NULL
335/* 0x05 */ , 0x00 , NULL
336/* 0x06 */ , 0x00 , NULL
337/* 0x07 */ , 0x00 , NULL
338/* 0x08 VK_BACK */ , PMSCAN_BACKSPACE , "Backspace"
339/* 0x09 VK_TAB */ , PMSCAN_TAB , "Tab"
340/* 0x0A */ , 0x00 , NULL
341/* 0x0B */ , 0x00 , NULL
342/* 0x0C VK_CLEAR */ , PMSCAN_PAD5 , "Num 5"
343/* 0x0D VK_RETURN */ , PMSCAN_ENTER , "Enter"
344/* 0x0E */ , 0x00 , NULL
345/* 0x0F */ , 0x00 , NULL
346/* 0x10 VK_SHIFT */ , PMSCAN_SHIFTLEFT , "Left Shift"
347/* 0x11 VK_CONTROL */ , PMSCAN_CTRLLEFT , "Left Control"
348/* 0x12 VK_MENU */ , PMSCAN_ALTLEFT , "Left Alt"
349/* 0x13 VK_PAUSE */ , PMSCAN_PAUSE , "Pause"
350/* 0x14 VK_CAPITAL */ , PMSCAN_CAPSLOCK , "Caps Lock"
351/* 0x15 */ , 0x00 , NULL
352/* 0x16 */ , 0x00 , NULL
353/* 0x17 */ , 0x00 , NULL
354/* 0x18 */ , 0x00 , NULL
355/* 0x19 */ , 0x00 , NULL
356/* 0x1A */ , 0x00 , NULL
357/* 0x1B VK_ESCAPE */ , PMSCAN_ESC , "Escape"
358/* 0x1C */ , 0x00 , NULL
359/* 0x1D */ , 0x00 , NULL
360/* 0x1E */ , 0x00 , NULL
361/* 0x1F */ , 0x00 , NULL
362/* 0x20 VK_SPACE */ , PMSCAN_SPACE , "Space"
363/* 0x21 VK_PRIOR */ , PMSCAN_PAGEUP , "Page Up"
364/* 0x22 VK_NEXT */ , PMSCAN_PAGEDOWN , "Page Down"
365/* 0x23 VK_END */ , PMSCAN_END , "End"
366/* 0x24 VK_HOME */ , PMSCAN_HOME , "Home"
367/* 0x25 VK_LEFT */ , PMSCAN_LEFT , "Left"
368/* 0x26 VK_UP */ , PMSCAN_UP , "Up"
369/* 0x27 VK_RIGHT */ , PMSCAN_RIGHT , "Right"
370/* 0x28 VK_DOWN */ , PMSCAN_DOWN , "Down"
371/* 0x29 VK_SELECT */ , 0x00 , NULL
372/* 0x2A VK_PRINT */ , 0x00 , NULL
373/* 0x2B VK_EXECUTE */ , 0x00 , NULL
374/* 0x2C VK_SNAPSHOT */ , PMSCAN_PRINT , "Print" // NT4SP6: appears to be printscreen!
375/* 0x2D VK_INSERT */ , PMSCAN_INSERT , "Insert"
376/* 0x2E VK_DELETE */ , PMSCAN_DELETE , "Delete"
377/* 0x2F VK_HELP */ , PMSCAN_HELP , "Help"
378/* 0x30 VK_0 */ , PMSCAN_ZERO , "0"
379/* 0x31 VK_1 */ , PMSCAN_ONE , "1"
380/* 0x32 VK_2 */ , PMSCAN_TWO , "2"
381/* 0x33 VK_3 */ , PMSCAN_THREE , "3"
382/* 0x34 VK_4 */ , PMSCAN_FOUR , "4"
383/* 0x35 VK_5 */ , PMSCAN_FIVE , "5"
384/* 0x36 VK_6 */ , PMSCAN_SIX , "6"
385/* 0x37 VK_7 */ , PMSCAN_SEVEN , "7"
386/* 0x38 VK_8 */ , PMSCAN_EIGHT , "8"
387/* 0x39 VK_9 */ , PMSCAN_NINE , "9"
388/* 0x3A */ , 0x00 , NULL
389/* 0x3B */ , 0x00 , NULL
390/* 0x3C */ , 0x00 , NULL
391/* 0x3D */ , 0x00 , NULL
392/* 0x3E */ , 0x00 , NULL
393/* 0x3F */ , 0x00 , NULL
394/* 0x40 */ , 0x00 , NULL
395/* 0x41 VK_A */ , PMSCAN_A , "A"
396/* 0x42 VK_B */ , PMSCAN_B , "B"
397/* 0x43 VK_C */ , PMSCAN_C , "C"
398/* 0x44 VK_D */ , PMSCAN_D , "D"
399/* 0x45 VK_E */ , PMSCAN_E , "E"
400/* 0x46 VK_F */ , PMSCAN_F , "F"
401/* 0x47 VK_G */ , PMSCAN_G , "G"
402/* 0x48 VK_H */ , PMSCAN_H , "H"
403/* 0x49 VK_I */ , PMSCAN_I , "I"
404/* 0x4A VK_J */ , PMSCAN_J , "J"
405/* 0x4B VK_K */ , PMSCAN_K , "K"
406/* 0x4C VK_L */ , PMSCAN_L , "L"
407/* 0x4D VK_M */ , PMSCAN_M , "M"
408/* 0x4E VK_N */ , PMSCAN_N , "N"
409/* 0x4F VK_O */ , PMSCAN_O , "O"
410/* 0x50 VK_P */ , PMSCAN_P , "P"
411/* 0x51 VK_Q */ , PMSCAN_Q , "Q"
412/* 0x52 VK_R */ , PMSCAN_R , "R"
413/* 0x53 VK_S */ , PMSCAN_S , "S"
414/* 0x54 VK_T */ , PMSCAN_T , "T"
415/* 0x55 VK_U */ , PMSCAN_U , "U"
416/* 0x56 VK_V */ , PMSCAN_V , "V"
417/* 0x57 VK_W */ , PMSCAN_W , "W"
418/* 0x58 VK_X */ , PMSCAN_X , "X"
419/* 0x59 VK_Y */ , PMSCAN_Y , "Y"
420/* 0x5A VK_Z */ , PMSCAN_Z , "Z"
421/* 0x5B VK_LWIN */ , PMSCAN_WINLEFT , "Left Win"
422/* 0x5C VK_RWIN */ , PMSCAN_WINRIGHT , "Right Win"
423/* 0x5D VK_APPS */ , PMSCAN_APPLICATION , "Application"
424/* 0x5E */ , 0x00 , NULL
425/* 0x5F */ , 0x00 , NULL
426/* 0x60 VK_NUMPAD0 */ , PMSCAN_PAD0 , "Num 0"
427/* 0x61 VK_NUMPAD1 */ , PMSCAN_PAD1 , "Num 1"
428/* 0x62 VK_NUMPAD2 */ , PMSCAN_PAD2 , "Num 2"
429/* 0x63 VK_NUMPAD3 */ , PMSCAN_PAD3 , "Num 3"
430/* 0x64 VK_NUMPAD4 */ , PMSCAN_PAD4 , "Num 4"
431/* 0x65 VK_NUMPAD5 */ , PMSCAN_PAD5 , "Num 5"
432/* 0x66 VK_NUMPAD6 */ , PMSCAN_PAD6 , "Num 6"
433/* 0x67 VK_NUMPAD7 */ , PMSCAN_PAD7 , "Num 7"
434/* 0x68 VK_NUMPAD8 */ , PMSCAN_PAD8 , "Num 8"
435/* 0x69 VK_NUMPAD9 */ , PMSCAN_PAD9 , "Num 9"
436/* 0x6A VK_MULTIPLY */ , PMSCAN_PADASTERISK , "Num *"
437/* 0x6B VK_ADD */ , PMSCAN_PADPLUS , "Num +"
438/* 0x6C VK_SEPARATOR */ , 0x00 , NULL
439/* 0x6D VK_SUBTRACT */ , PMSCAN_PADMINUS , "Num -"
440/* 0x6E VK_DECIMAL */ , PMSCAN_PADPERIOD , "Num ."
441/* 0x6F VK_DIVIDE */ , PMSCAN_PADSLASH , "Num /"
442/* 0x70 VK_F1 */ , PMSCAN_F1 , "F1"
443/* 0x71 VK_F2 */ , PMSCAN_F2 , "F2"
444/* 0x72 VK_F3 */ , PMSCAN_F3 , "F3"
445/* 0x73 VK_F4 */ , PMSCAN_F4 , "F4"
446/* 0x74 VK_F5 */ , PMSCAN_F5 , "F5"
447/* 0x75 VK_F6 */ , PMSCAN_F6 , "F6"
448/* 0x76 VK_F7 */ , PMSCAN_F7 , "F7"
449/* 0x77 VK_F8 */ , PMSCAN_F8 , "F8"
450/* 0x78 VK_F9 */ , PMSCAN_F9 , "F9"
451/* 0x79 VK_F10 */ , PMSCAN_F10 , "F10"
452/* 0x7A VK_F11 */ , PMSCAN_F11 , "F11"
453/* 0x7B VK_F12 */ , PMSCAN_F12 , "F12"
454/* 0x7C VK_F13 */ , PMSCAN_F13 , "F13"
455/* 0x7D VK_F14 */ , PMSCAN_F14 , "F14"
456/* 0x7E VK_F15 */ , PMSCAN_F15 , "F15"
457/* 0x7F VK_F16 */ , PMSCAN_F16 , "F16"
458/* 0x80 VK_F17 */ , PMSCAN_F17 , "F17"
459/* 0x81 VK_F18 */ , PMSCAN_F18 , "F18"
460/* 0x82 VK_F19 */ , PMSCAN_F19 , "F19"
461/* 0x83 VK_F20 */ , PMSCAN_F20 , "F20"
462/* 0x84 VK_F21 */ , PMSCAN_F21 , "F21"
463/* 0x85 VK_F22 */ , PMSCAN_F22 , "F22"
464/* 0x86 VK_F23 */ , PMSCAN_F23 , "F23"
465/* 0x87 VK_F24 */ , PMSCAN_F24 , "F24"
466/* 0x88 */ , 0x00 , NULL
467/* 0x89 */ , 0x00 , NULL
468/* 0x8A */ , 0x00 , NULL
469/* 0x8B */ , 0x00 , NULL
470/* 0x8C */ , 0x00 , NULL
471/* 0x8D */ , 0x00 , NULL
472/* 0x8E */ , 0x00 , NULL
473/* 0x8F */ , 0x00 , NULL
474/* 0x90 VK_NUMLOCK */ , PMSCAN_NUMLOCK , "Num Lock"
475/* 0x91 VK_SCROLL */ , PMSCAN_SCROLLLOCK , "Scroll Lock"
476/* 0x92 */ , 0x00 , NULL
477/* 0x93 */ , 0x00 , NULL
478/* 0x94 */ , 0x00 , NULL
479/* 0x95 */ , 0x00 , NULL
480/* 0x96 */ , 0x00 , NULL
481/* 0x97 */ , 0x00 , NULL
482/* 0x98 */ , 0x00 , NULL
483/* 0x99 */ , 0x00 , NULL
484/* 0x9A */ , 0x00 , NULL
485/* 0x9B */ , 0x00 , NULL
486/* 0x9C */ , 0x00 , NULL
487/* 0x9D */ , 0x00 , NULL
488/* 0x9E */ , 0x00 , NULL
489/* 0x9F */ , 0x00 , NULL
490/* 0xA0 VK_LSHIFT */ , PMSCAN_SHIFTLEFT , "Left Shift"
491/* 0xA1 VK_RSHIFT */ , PMSCAN_SHIFTRIGHT , "Right Shift"
492/* 0xA2 VK_LCONTROL */ , PMSCAN_CTRLLEFT , "Left Control"
493/* 0xA3 VK_RCONTROL */ , PMSCAN_CTRLRIGHT , "Right Control"
494/* 0xA4 VK_LMENU */ , PMSCAN_ALTLEFT , "Left Alt"
495/* 0xA5 VK_RMENU */ , PMSCAN_ALTRIGHT , "Right Alt"
496/* 0xA6 */ , 0x00 , NULL
497/* 0xA7 */ , 0x00 , NULL
498/* 0xA8 */ , 0x00 , NULL
499/* 0xA9 */ , 0x00 , NULL
500/* 0xAA */ , 0x00 , NULL
501/* 0xAB */ , 0x00 , NULL
502/* 0xAC */ , 0x00 , NULL
503/* 0xAD */ , 0x00 , NULL
504/* 0xAE */ , 0x00 , NULL
505/* 0xAF */ , 0x00 , NULL
506/* 0xB0 */ , 0x00 , NULL
507/* 0xB1 */ , 0x00 , NULL
508/* 0xB2 */ , 0x00 , NULL
509/* 0xB3 */ , 0x00 , NULL
510/* 0xB4 */ , 0x00 , NULL
511/* 0xB5 */ , 0x00 , NULL
512/* 0xB6 */ , 0x00 , NULL
513/* 0xB7 */ , 0x00 , NULL
514/* 0xB8 */ , 0x00 , NULL
515/* 0xB9 */ , 0x00 , NULL
516/* 0xBA VK_SEMICOLON */ , PMSCAN_SEMICOLON , ";"
517/* 0xBB VK_EQUAL */ , PMSCAN_EQUAL , "="
518/* 0xBC VK_COMMA */ , PMSCAN_COMMA , ","
519/* 0xBD VK_HYPHEN */ , PMSCAN_HYPHEN , "-"
520/* 0xBE VK_PERIOD */ , PMSCAN_PERIOD , "."
521/* 0xBF VK_SLASH */ , PMSCAN_SLASH , "/"
522/* 0xC0 VK_GRAVE */ , PMSCAN_GRAVE , "'"
523/* 0xC1 VK_FFC1 */ , PMSCAN_JEXTRA , "JExtra" //??
524/* 0xC2 VK_YEN */ , PMSCAN_YEN , "Yen"
525/* 0xC3 */ , 0x00 , NULL
526/* 0xC4 */ , 0x00 , NULL
527/* 0xC5 */ , 0x00 , NULL
528/* 0xC6 */ , 0x00 , NULL
529/* 0xC7 */ , 0x00 , NULL
530/* 0xC8 */ , 0x00 , NULL
531/* 0xC9 */ , 0x00 , NULL
532/* 0xCA */ , 0x00 , NULL
533/* 0xCB */ , 0x00 , NULL
534/* 0xCC */ , 0x00 , NULL
535/* 0xCD */ , 0x00 , NULL
536/* 0xCE */ , 0x00 , NULL
537/* 0xCF */ , 0x00 , NULL
538/* 0xD0 */ , 0x00 , NULL
539/* 0xD1 */ , 0x00 , NULL
540/* 0xD2 */ , 0x00 , NULL
541/* 0xD3 */ , 0x00 , NULL
542/* 0xD4 */ , 0x00 , NULL
543/* 0xD5 */ , 0x00 , NULL
544/* 0xD6 */ , 0x00 , NULL
545/* 0xD7 */ , 0x00 , NULL
546/* 0xD8 */ , 0x00 , NULL
547/* 0xD9 */ , 0x00 , NULL
548/* 0xDA */ , 0x00 , NULL
549/* 0xDB VK_BRACKETLEFT */ , PMSCAN_BRACKETLEFT , "["
550/* 0xDC VK_BACKSLASH */ , PMSCAN_BACKSLASH , "\\"
551/* 0xDD VK_BRACKETRIGHT */ , PMSCAN_BRACKETRIGHT , "]"
552/* 0xDE VK_QUOTESINGLE */ , PMSCAN_QUOTESINGLE , "'"
553/* 0xDF */ , 0x00 , NULL
554/* 0xE0 */ , 0x00 , NULL
555/* 0xE1 */ , 0x00 , NULL
556/* 0xE2 VK_EXTRA */ , PMSCAN_EXTRA , "<"
557/* 0xE3 */ , 0x00 , NULL
558/* 0xE4 */ , 0x00 , NULL
559/* 0xE5 */ , 0x00 , NULL
560/* 0xE6 */ , 0x00 , NULL
561/* 0xE7 */ , 0x00 , NULL
562/* 0xE8 */ , 0x00 , NULL
563/* 0xE9 */ , 0x00 , NULL
564/* 0xEA */ , 0x00 , NULL
565/* 0xEB */ , 0x00 , NULL
566/* 0xEC */ , 0x00 , NULL
567/* 0xED */ , 0x00 , NULL
568/* 0xEE */ , 0x00 , NULL
569/* 0xEF */ , 0x00 , NULL
570/* 0xF0 */ , 0x00 , NULL
571/* 0xF1 */ , 0x00 , NULL
572/* 0xF2 */ , 0x00 , NULL
573/* 0xF3 */ , 0x00 , NULL
574/* 0xF4 */ , 0x00 , NULL
575/* 0xF5 */ , 0x00 , NULL
576/* 0xF6 VK_ATTN */ , 0x00 , NULL
577/* 0xF7 VK_CRSEL */ , 0x00 , NULL
578/* 0xF8 VK_EXSEL */ , 0x00 , NULL
579/* 0xF9 VK_EREOF */ , PMSCAN_ERASEEOF , "Erase"
580/* 0xFA VK_PLAY */ , 0x00 , NULL
581/* 0xFB VK_ZOOM */ , 0x00 , NULL
582/* 0xFC VK_NONAME */ , 0x00 , NULL
583/* 0xFD VK_PA1 */ , PMSCAN_PA1 , "PA1"
584/* 0xFE VK_OEM_CLEAR */ , 0x00 , NULL
585/* 0xFF */ , 0x00 , NULL
586 };
587
588// @@PF reflect Num Enter key
589LPSTR lpstrNumEnter = "Num Enter";
590
591// @@@PH
592// Note: windows uses different scancodes if numlock is pressed
593// This is not (yet) reflected here!
594static BYTE abPMScanToWinScan[256][2] =
595/****************************************************************************/
596/* PM Scancode * Win32 Scancode Extended Key */
597/****************************************************************************/
598/* 0x00 */ { 0x00, FALSE
599/* 0x01 PMSCAN_ESC */ , WINSCAN_ESC ,FALSE
600/* 0x02 PMSCAN_ONE */ , WINSCAN_ONE ,FALSE
601/* 0x03 PMSCAN_TWO */ , WINSCAN_TWO ,FALSE
602/* 0x04 PMSCAN_THREE */ , WINSCAN_THREE ,FALSE
603/* 0x05 PMSCAN_FOUR */ , WINSCAN_FOUR ,FALSE
604/* 0x06 PMSCAN_FIVE */ , WINSCAN_FIVE ,FALSE
605/* 0x07 PMSCAN_SIX */ , WINSCAN_SIX ,FALSE
606/* 0x08 PMSCAN_SEVEN */ , WINSCAN_SEVEN ,FALSE
607/* 0x09 PMSCAN_EIGHT */ , WINSCAN_EIGHT ,FALSE
608/* 0x0A PMSCAN_NINE */ , WINSCAN_NINE ,FALSE
609/* 0x0B PMSCAN_ZERO */ , WINSCAN_ZERO ,FALSE
610/* 0x0C PMSCAN_HYPHEN */ , WINSCAN_HYPHEN ,FALSE
611/* 0x0D PMSCAN_EQUAL */ , WINSCAN_EQUAL ,FALSE
612/* 0x0E PMSCAN_BACKSPACE */ , WINSCAN_BACKSPACE ,FALSE
613/* 0x0F PMSCAN_TAB */ , WINSCAN_TAB ,FALSE
614/* 0x10 PMSCAN_Q */ , WINSCAN_Q ,FALSE
615/* 0x11 PMSCAN_W */ , WINSCAN_W ,FALSE
616/* 0x12 PMSCAN_E */ , WINSCAN_E ,FALSE
617/* 0x13 PMSCAN_R */ , WINSCAN_R ,FALSE
618/* 0x14 PMSCAN_T */ , WINSCAN_T ,FALSE
619/* 0x15 PMSCAN_Y */ , WINSCAN_Y ,FALSE
620/* 0x16 PMSCAN_U */ , WINSCAN_U ,FALSE
621/* 0x17 PMSCAN_I */ , WINSCAN_I ,FALSE
622/* 0x18 PMSCAN_O */ , WINSCAN_O ,FALSE
623/* 0x19 PMSCAN_P */ , WINSCAN_P ,FALSE
624/* 0x1A PMSCAN_BRACKETLEFT */ , WINSCAN_BRACKETLEFT ,FALSE
625/* 0x1B PMSCAN_BRACKETRIGHT */ , WINSCAN_BRACKETRIGHT ,FALSE
626/* 0x1C PMSCAN_ENTER */ , WINSCAN_ENTER ,FALSE
627/* 0x1D PMSCAN_CTRLLEFT */ , WINSCAN_CTRLLEFT ,FALSE
628/* 0x1E PMSCAN_A */ , WINSCAN_A ,FALSE
629/* 0x1F PMSCAN_S */ , WINSCAN_S ,FALSE
630/* 0x20 PMSCAN_D */ , WINSCAN_D ,FALSE
631/* 0x21 PMSCAN_F */ , WINSCAN_F ,FALSE
632/* 0x22 PMSCAN_G */ , WINSCAN_G ,FALSE
633/* 0x23 PMSCAN_H */ , WINSCAN_H ,FALSE
634/* 0x24 PMSCAN_J */ , WINSCAN_J ,FALSE
635/* 0x25 PMSCAN_K */ , WINSCAN_K ,FALSE
636/* 0x26 PMSCAN_L */ , WINSCAN_L ,FALSE
637/* 0x27 PMSCAN_SEMICOLON */ , WINSCAN_SEMICOLON ,FALSE
638/* 0x28 PMSCAN_QUOTESINGLE */ , WINSCAN_QUOTESINGLE ,FALSE
639/* 0x29 PMSCAN_GRAVE */ , WINSCAN_GRAVE ,FALSE
640/* 0x2A PMSCAN_SHIFTLEFT */ , WINSCAN_SHIFTLEFT ,FALSE
641/* 0x2B PMSCAN_BACKSLASH */ , WINSCAN_BACKSLASH ,FALSE
642/* 0x2C PMSCAN_Z */ , WINSCAN_Z ,FALSE
643/* 0x2D PMSCAN_X */ , WINSCAN_X ,FALSE
644/* 0x2E PMSCAN_C */ , WINSCAN_C ,FALSE
645/* 0x2F PMSCAN_V */ , WINSCAN_V ,FALSE
646/* 0x30 PMSCAN_B */ , WINSCAN_B ,FALSE
647/* 0x31 PMSCAN_N */ , WINSCAN_N ,FALSE
648/* 0x32 PMSCAN_M */ , WINSCAN_M ,FALSE
649/* 0x33 PMSCAN_COMMA */ , WINSCAN_COMMA ,FALSE
650/* 0x34 PMSCAN_PERIOD */ , WINSCAN_PERIOD ,FALSE
651/* 0x35 PMSCAN_SLASH */ , WINSCAN_SLASH ,FALSE
652/* 0x36 PMSCAN_SHIFTRIGHT */ , WINSCAN_SHIFTRIGHT ,TRUE
653/* 0x37 PMSCAN_PADASTERISK */ , WINSCAN_PADASTERISK ,FALSE
654/* 0x38 PMSCAN_ALTLEFT */ , WINSCAN_ALTLEFT ,FALSE
655/* 0x39 PMSCAN_SPACE */ , WINSCAN_SPACE ,FALSE
656/* 0x3A PMSCAN_CAPSLOCK */ , WINSCAN_CAPSLOCK ,FALSE
657/* 0x3B PMSCAN_F1 */ , WINSCAN_F1 ,FALSE
658/* 0x3C PMSCAN_F2 */ , WINSCAN_F2 ,FALSE
659/* 0x3D PMSCAN_F3 */ , WINSCAN_F3 ,FALSE
660/* 0x3E PMSCAN_F4 */ , WINSCAN_F4 ,FALSE
661/* 0x3F PMSCAN_F5 */ , WINSCAN_F5 ,FALSE
662/* 0x40 PMSCAN_F6 */ , WINSCAN_F6 ,FALSE
663/* 0x41 PMSCAN_F7 */ , WINSCAN_F7 ,FALSE
664/* 0x42 PMSCAN_F8 */ , WINSCAN_F8 ,FALSE
665/* 0x43 PMSCAN_F9 */ , WINSCAN_F9 ,FALSE
666/* 0x44 PMSCAN_F10 */ , WINSCAN_F10 ,FALSE
667/* 0x45 PMSCAN_NUMLOCK */ , WINSCAN_NUMLOCK ,TRUE
668/* 0x46 PMSCAN_SCROLLLOCK */ , WINSCAN_SCROLLLOCK ,FALSE
669/* 0x47 PMSCAN_PAD7 */ , WINSCAN_PAD7 ,FALSE
670/* 0x48 PMSCAN_PAD8 */ , WINSCAN_PAD8 ,FALSE
671/* 0x49 PMSCAN_PAD9 */ , WINSCAN_PAD9 ,FALSE
672/* 0x4A PMSCAN_PADMINUS */ , WINSCAN_PADMINUS ,FALSE
673/* 0x4B PMSCAN_PAD4 */ , WINSCAN_PAD4 ,FALSE
674/* 0x4C PMSCAN_PAD5 */ , WINSCAN_PAD5 ,FALSE
675/* 0x4D PMSCAN_PAD6 */ , WINSCAN_PAD6 ,FALSE
676/* 0x4E PMSCAN_PADPLUS */ , WINSCAN_PADPLUS ,FALSE
677/* 0x4F PMSCAN_PAD1 */ , WINSCAN_PAD1 ,FALSE
678/* 0x50 PMSCAN_PAD2 */ , WINSCAN_PAD2 ,FALSE
679/* 0x51 PMSCAN_PAD3 */ , WINSCAN_PAD3 ,FALSE
680/* 0x52 PMSCAN_PAD0 */ , WINSCAN_PAD0 ,FALSE
681/* 0x53 PMSCAN_PADPERIOD */ , WINSCAN_PADPERIOD ,FALSE
682/* 0x54 PMSCAN_SYSREQ */ , 0x00 ,FALSE
683/* 0x55 PMSCAN_RESET */ , 0x00 ,FALSE
684/* 0x56 PMSCAN_EXTRA */ , WINSCAN_EXTRA ,FALSE
685/* 0x57 PMSCAN_F11 */ , WINSCAN_F11 ,FALSE
686/* 0x58 PMSCAN_F12 */ , WINSCAN_F12 ,FALSE
687/* 0x59 PMSCAN_BACKTAB */ , 0x00 ,FALSE
688/* 0x5A PMSCAN_PADENTER */ , WINSCAN_PADENTER ,TRUE
689/* 0x5B PMSCAN_CTRLRIGHT */ , WINSCAN_CTRLRIGHT ,TRUE
690/* 0x5C PMSCAN_PADSLASH */ , WINSCAN_PADSLASH ,TRUE
691/* 0x5D PMSCAN_PRINT */ , WINSCAN_PRINT ,TRUE
692/* 0x5E PMSCAN_ALTRIGHT */ , WINSCAN_ALTRIGHT ,TRUE
693/* 0x5F PMSCAN_PAUSE */ , WINSCAN_PAUSE ,FALSE
694/* 0x60 PMSCAN_HOME */ , WINSCAN_HOME ,TRUE
695/* 0x61 PMSCAN_UP */ , WINSCAN_UP ,TRUE
696/* 0x62 PMSCAN_PAGEUP */ , WINSCAN_PAGEUP ,TRUE
697/* 0x63 PMSCAN_LEFT */ , WINSCAN_LEFT ,TRUE
698/* 0x64 PMSCAN_RIGHT */ , WINSCAN_RIGHT ,TRUE
699/* 0x65 PMSCAN_END */ , WINSCAN_END ,TRUE
700/* 0x66 PMSCAN_DOWN */ , WINSCAN_DOWN ,TRUE
701/* 0x67 PMSCAN_PAGEDOWN */ , WINSCAN_PAGEDOWN ,TRUE
702/* 0x68 PMSCAN_INSERT */ , WINSCAN_INSERT ,TRUE
703/* 0x69 PMSCAN_DELETE */ , WINSCAN_DELETE ,TRUE
704/* 0x6A PMSCAN_F23 */ , WINSCAN_F23 ,FALSE
705/* 0x6B PMSCAN_F24 */ , WINSCAN_F24 ,FALSE
706/* 0x6C PMSCAN_SYSMEM */ , 0x00 ,FALSE
707/* 0x6D PMSCAN_ERASEEOF */ , WINSCAN_ERASEEOF ,FALSE
708/* 0x6E PMSCAN_BREAK */ , WINSCAN_BREAK ,TRUE
709/* 0x6F PMSCAN_MOVEWIN */ , 0x00 ,FALSE
710/* 0x70 PMSCAN_NLS3 */ , WINSCAN_NLS3 ,FALSE
711/* 0x71 PMSCAN_HELP */ , WINSCAN_HELP ,FALSE
712/* 0x72 PMSCAN_TASKMAN */ , 0x00 ,FALSE
713/* 0x73 PMSCAN_B11 */ , WINSCAN_B11 ,FALSE
714/* 0x74 PMSCAN_JUMP */ , 0x00 ,FALSE
715/* 0x75 PMSCAN_MINWIN */ , 0x00 ,FALSE
716/* 0x76 PMSCAN_CLEAR */ , 0x00 ,FALSE
717/* 0x77 PMSCAN_77 */ , 0x00 ,FALSE
718/* 0x78 PMSCAN_78 */ , 0x00 ,FALSE
719/* 0x79 PMSCAN_NLS2 */ , WINSCAN_NLS2 ,FALSE
720/* 0x7a PMSCAN_SIZE */ , 0x00 ,FALSE
721/* 0x7b PMSCAN_NLS1 */ , WINSCAN_NLS1 ,FALSE
722/* 0x7c PMSCAN_APPLICATION */ , WINSCAN_APPLICATION ,TRUE
723/* 0x7d PMSCAN_E13 */ , WINSCAN_YEN ,FALSE
724/* 0x7e PMSCAN_WINLEFT */ , WINSCAN_WINLEFT ,TRUE
725/* 0x7f PMSCAN_WINRIGHT */ , WINSCAN_WINRIGHT ,TRUE
726/* 0x80 PMSCAN_PA1 */ , WINSCAN_PA1 ,FALSE
727/* 0x81 PMSCAN_F13 */ , WINSCAN_F13 ,FALSE
728/* 0x82 PMSCAN_F14 */ , WINSCAN_F14 ,FALSE
729/* 0x83 PMSCAN_F15 */ , WINSCAN_F15 ,FALSE
730/* 0x84 PMSCAN_PA2 */ , 0x00 ,FALSE
731/* 0x85 PMSCAN_PA3 */ , 0x00 ,FALSE
732/* 0x86 PMSCAN_SPACEBREAK */ , 0x00 ,FALSE
733/* 0x87 PMSCAN_TABRIGHT */ , 0x00 ,FALSE
734/* 0x88 PMSCAN_NOOP */ , 0x00 ,FALSE
735/* 0x89 PMSCAN_F16 */ , WINSCAN_F16 ,FALSE
736/* 0x8a PMSCAN_F17 */ , WINSCAN_F17 ,FALSE
737/* 0x8b PMSCAN_F18 */ , WINSCAN_F18 ,FALSE
738/* 0x8c PMSCAN_F19 */ , WINSCAN_F19 ,FALSE
739/* 0x8d PMSCAN_F20 */ , WINSCAN_F20 ,FALSE
740/* 0x8e PMSCAN_F21 */ , WINSCAN_F21 ,FALSE
741/* 0x8f PMSCAN_F22 */ , WINSCAN_F22 ,FALSE
742/* 0x90 */ , WINSCAN_PREVTRACK ,FALSE
743/* 0x91 */ , WINSCAN_AT ,FALSE
744/* 0x92 */ , WINSCAN_COLON ,FALSE
745/* 0x93 */ , WINSCAN_UNDERLINE ,FALSE
746/* 0x94 */ , WINSCAN_KANJI ,FALSE
747/* 0x95 PMSCAN_DBE_CONV */ , WINSCAN_NLS2 ,FALSE // CONVERT (Japanese keyboard)
748/* 0x96 PMSCAN_DBE_NOCONV */ , WINSCAN_NLS1 ,FALSE // NOCONVERT (Japanese keyboard)
749/* 0x97 */ , WINSCAN_UNLABELED ,FALSE
750/* 0x98 */ , 0x00 ,FALSE
751/* 0x99 */ , WINSCAN_NEXTTRACK ,FALSE
752/* 0x9A */ , 0x00 ,FALSE
753/* 0x9B */ , 0x00 ,FALSE
754/* 0x9C */ , 0x00 ,FALSE
755/* 0x9D */ , 0x00 ,FALSE
756/* 0x9E */ , 0x00 ,FALSE
757/* 0x9F */ , 0x00 ,FALSE
758/* 0xA0 */ , WINSCAN_MUTE ,FALSE
759/* 0xA1 */ , WINSCAN_CALCULATOR ,FALSE
760/* 0xA2 */ , WINSCAN_PLAYPAUSE ,FALSE
761/* 0xA3 */ , 0x00 ,FALSE
762/* 0xA4 */ , WINSCAN_MEDIASTOP ,FALSE
763/* 0xA5 */ , 0x00 ,FALSE
764/* 0xA6 */ , 0x00 ,FALSE
765/* 0xA7 */ , 0x00 ,FALSE
766/* 0xA8 */ , 0x00 ,FALSE
767/* 0xA9 */ , 0x00 ,FALSE
768/* 0xAA */ , 0x00 ,FALSE
769/* 0xAB */ , 0x00 ,FALSE
770/* 0xAC */ , 0x00 ,FALSE
771/* 0xAD */ , 0x00 ,FALSE
772/* 0xAE */ , WINSCAN_VOLUMEDOWN ,FALSE
773/* 0xAF */ , 0x00 ,FALSE
774/* 0xB0 */ , WINSCAN_VOLUMEUP ,FALSE
775/* 0xB1 */ , 0x00 ,FALSE
776/* 0xB2 */ , WINSCAN_WEBHOME ,FALSE
777/* 0xB3 */ , WINSCAN_NUMPADCOMMA ,FALSE
778/* 0xB4 */ , 0x00 ,FALSE
779/* 0xB5 */ , 0x00 ,FALSE
780/* 0xB6 */ , 0x00 ,FALSE
781/* 0xB7 */ , 0x00 ,FALSE
782/* 0xB8 */ , 0x00 ,FALSE
783/* 0xB9 */ , 0x00 ,FALSE
784/* 0xBA */ , 0x00 ,FALSE
785/* 0xBB */ , 0x00 ,FALSE
786/* 0xBC */ , 0x00 ,FALSE
787/* 0xBD */ , 0x00 ,FALSE
788/* 0xBE */ , 0x00 ,FALSE
789/* 0xBF */ , 0x00 ,FALSE
790/* 0xC0 */ , 0x00 ,FALSE
791/* 0xC1 */ , 0x00 ,FALSE
792/* 0xC2 */ , 0x00 ,FALSE
793/* 0xC3 */ , 0x00 ,FALSE
794/* 0xC4 */ , 0x00 ,FALSE
795/* 0xC5 */ , 0x00 ,FALSE
796/* 0xC6 */ , 0x00 ,FALSE
797/* 0xC7 */ , 0x00 ,FALSE
798/* 0xC8 */ , 0x00 ,FALSE
799/* 0xC9 */ , 0x00 ,FALSE
800/* 0xCA */ , 0x00 ,FALSE
801/* 0xCB */ , 0x00 ,FALSE
802/* 0xCC */ , 0x00 ,FALSE
803/* 0xCD */ , 0x00 ,FALSE
804/* 0xCE */ , 0x00 ,FALSE
805/* 0xCF */ , 0x00 ,FALSE
806/* 0xD0 */ , 0x00 ,FALSE
807/* 0xD1 */ , 0x00 ,FALSE
808/* 0xD2 */ , 0x00 ,FALSE
809/* 0xD3 */ , 0x00 ,FALSE
810/* 0xD4 */ , 0x00 ,FALSE
811/* 0xD5 */ , 0x00 ,FALSE
812/* 0xD6 */ , 0x00 ,FALSE
813/* 0xD7 */ , 0x00 ,FALSE
814/* 0xD8 */ , 0x00 ,FALSE
815/* 0xD9 */ , 0x00 ,FALSE
816/* 0xDA */ , 0x00 ,FALSE
817/* 0xDB */ , 0x00 ,FALSE
818/* 0xDC */ , 0x00 ,FALSE
819/* 0xDD */ , 0x00 ,FALSE
820/* 0xDE */ , WINSCAN_POWER ,FALSE
821/* 0xDF */ , WINSCAN_SLEEP ,FALSE
822/* 0xE0 */ , 0x00 ,FALSE
823/* 0xE1 */ , 0x00 ,FALSE
824/* 0xE2 */ , 0x00 ,FALSE
825/* 0xE3 */ , WINSCAN_WAKE ,FALSE
826/* 0xE4 */ , 0x00 ,FALSE
827/* 0xE5 */ , WINSCAN_WEBSEARCH ,FALSE
828/* 0xE6 */ , WINSCAN_WEBFAVORITES ,FALSE
829/* 0xE7 */ , WINSCAN_WEBREFRESH ,FALSE
830/* 0xE8 */ , WINSCAN_WEBSTOP ,FALSE
831/* 0xE9 */ , WINSCAN_WEBFORWARD ,FALSE
832/* 0xEA */ , WINSCAN_WEBBACK ,FALSE
833/* 0xEB */ , WINSCAN_MYCOMPUTER ,FALSE
834/* 0xEC */ , WINSCAN_MAIL ,FALSE
835/* 0xED */ , WINSCAN_MEDIASELECT ,FALSE
836/* 0xEE */ , 0x00 ,FALSE
837/* 0xEF */ , 0x00 ,FALSE
838/* 0xF0 */ , 0x00 ,FALSE
839/* 0xF1 */ , 0x00 ,FALSE
840/* 0xF2 */ , 0x00 ,FALSE
841/* 0xF3 */ , 0x00 ,FALSE
842/* 0xF4 */ , 0x00 ,FALSE
843/* 0xF5 */ , 0x00 ,FALSE
844/* 0xF6 */ , 0x00 ,FALSE
845/* 0xF7 */ , 0x00 ,FALSE
846/* 0xF8 */ , 0x00 ,FALSE
847/* 0xF9 */ , 0x00 ,FALSE
848/* 0xFA */ , 0x00 ,FALSE
849/* 0xFB */ , 0x00 ,FALSE
850/* 0xFC */ , 0x00 ,FALSE
851/* 0xFD */ , 0x00 ,FALSE
852/* 0xFE */ , 0x00 ,FALSE
853/* 0xFF */ , 0x00 ,FALSE
854 };
855
856
857//******************************************************************************
858//******************************************************************************
859
860VOID WIN32API KeyTranslatePMToWinBuf(BYTE *pmkey, BYTE *winkey,
861 int nrkeys)
862{
863 int pmvkey;
864
865#ifdef DEBUG
866 for(int j=1;j<nrkeys;j++) {
867 if(pmkey[j])
868 dprintf2(("PM vkey %x state %x", j, pmkey[j]));
869 }
870#endif
871
872 for(int i=1;i<nrkeys;i++) {
873 if(abWinVKeyToPMScan[i].bPMScanCode) {
874 pmvkey = OSLibWinTranslateChar(abWinVKeyToPMScan[i].bPMScanCode, TC_SCANCODETOVIRTUALKEY, 0);
875 if(pmvkey == 0) {
876 dprintf2(("WinTranslateChar %x (%x) FAILED!!", i, abWinVKeyToPMScan[i].bPMScanCode));
877 }
878 winkey[i] = pmkey[pmvkey];
879 }
880 else dprintf2(("key %x has no PM scancode", i));
881 }
882 winkey[VK_SHIFT] = winkey[VK_LSHIFT] | winkey[VK_RSHIFT];
883 winkey[VK_CONTROL] = winkey[VK_LCONTROL] | winkey[VK_RCONTROL];
884 winkey[VK_MENU] = winkey[VK_LMENU] | winkey[VK_RMENU];
885}
886//******************************************************************************
887//******************************************************************************
888BYTE KeyTranslateWinVKeyToPMScan(BYTE bWinVKey, BOOL fExtended)
889{
890 // if the extended bit didn't match, this is
891 // the closest hit
892 BYTE bAlmost = 0;
893
894 // experiment
895
896#if 0
897 bAlmost = abWinVKeyToPMScan[bWinVKey].bPMScanCode;
898#else
899 for(int i = 0;
900 i < 256; // sizeof(row of abPMScanToWinVKey)
901 i++)
902 {
903 if (abPMScanToWinVKey[i][0] == bWinVKey)
904 {
905 // this represents the PMScan code which is used as index
906 bAlmost = i;
907
908 // exact match!
909 if (abPMScanToWinVKey[i][1] == fExtended)
910 break;
911 }
912 }
913#endif
914
915 dprintf(("KeyTranslateWinVKeyToPMScan(%02xh,%d) = %02xh",
916 bWinVKey,
917 fExtended,
918 bAlmost));
919
920 // almost a match or no match at all.
921 return bAlmost;
922}
923//******************************************************************************
924//******************************************************************************
925void KeyTranslatePMScanToWinVKey(BYTE bPMScan,
926 BOOL bNumLock,
927 PBYTE pbWinVKey,
928 WORD* pwWinScan,
929 PBOOL pfExtended)
930{
931 // @@@PH numlock is currently ignored
932 if (pbWinVKey)
933 *pbWinVKey = abPMScanToWinVKey[bPMScan][0];
934
935 if (pfExtended)
936 *pfExtended = abPMScanToWinVKey[bPMScan][1];
937
938 if (pwWinScan)
939 *pwWinScan = abPMScanToWinScan[bPMScan][0];
940}
941//******************************************************************************
942//******************************************************************************
943BYTE KeyTranslateWinScanToPMScan(BYTE bWinScan, BOOL fExtended)
944{
945 // Note:
946 // MapVirtualKeyA requires this function,
947 // O32_MapVirtualKeyA uses PM Scancodes only!
948
949 // if the extended bit didn't match, this is
950 // the closest hit
951 BYTE bAlmost = 0;
952
953 for(int i = 0;
954 i < 256; // sizeof(row of abPMScanToWinVKey)
955 i++)
956 {
957 if (abPMScanToWinScan[i][0] == bWinScan)
958 {
959 // this represents the PMScan code which is used as index
960 bAlmost = i;
961
962 // exact match!
963 if (abPMScanToWinVKey[i][1] == fExtended)
964 break;
965 }
966 }
967
968 dprintf(("KeyTranslateWinScanToPMScan(%02xh,%d) = %02xh",
969 bWinScan,
970 fExtended,
971 bAlmost));
972
973 // almost a match or no match at all.
974 return bAlmost;
975
976}
977//******************************************************************************
978//******************************************************************************
979BYTE KeyTranslatePMScanToWinScan(BYTE bPMScan)
980{
981 // Note:
982 // MapVirtualKeyA requires this function,
983 // O32_MapVirtualKeyA uses PM Scancodes only!
984
985 return abPMScanToWinScan[bPMScan][0];
986}
987//******************************************************************************
988//******************************************************************************
989INT WIN32API GetKeyboardType(INT nTypeFlag)
990{
991 return O32_GetKeyboardType(nTypeFlag);
992}
993//******************************************************************************
994//******************************************************************************
995BOOL WIN32API GetKeyboardState(PBYTE lpKeyState)
996{
997#if 1
998 //temporary solution until we find out why OSLibWinGetScanStateTable always
999 //fails
1000 int state;
1001 for(int i=0;i<256;i++) {
1002 state = GetKeyState(i);
1003 lpKeyState[i] = ((state & 0x8000) >> 8) | (state & 1);
1004 if(lpKeyState[i] & 0x80) {
1005 dprintf2(("Win key 0x%0x = %x", i, lpKeyState[i]));
1006 }
1007 }
1008#else
1009 BYTE PMScanState[256];
1010 BOOL rc;
1011 int state;
1012
1013 memset(PMScanState, 0, sizeof(PMScanState));
1014 memset(lpKeyState, 0, 256);
1015
1016 //
1017 //OSLibWinGetKeyboardStateTable returns the state of PM virtual keys only and
1018 //there are far fewer PM vkeys. (e.g. 0-9, A-Z are not included)
1019 //So we need to use OSLibWinGetScanStateTable (WinSetScanState)
1020 //
1021 rc = OSLibWinGetScanStateTable((PBYTE)&PMScanState[0] );
1022 if(!rc) {
1023// DebugInt3();
1024 dprintf(("OSLibWinGetScanStateTable FAILED"));
1025 return FALSE;
1026 }
1027 for(int i=0;i<256;i++) {
1028 if(abWinVKeyToPMScan[i].bPMScanCode) {
1029 lpKeyState[i] = PMScanState[abWinVKeyToPMScan[i].bPMScanCode];
1030 }
1031 if(lpKeyState[i] & 0x80) {
1032 dprintf2(("Win key 0x%0x = %x", i, lpKeyState[i]));
1033 }
1034 }
1035#endif
1036
1037 //VK_LCONTROL needs special handling due to AltGr
1038 state = GetKeyState(VK_RMENU);
1039 if (state & 0x8000)
1040 {//if AltGr is down, then pretend VK_LCONTROL is down too
1041 lpKeyState[VK_LCONTROL] = ((state & 0x8000) >> 8) | (state & 1);
1042 lpKeyState[VK_CONTROL] = ((state & 0x8000) >> 8) | (state & 1);
1043 }
1044
1045 //now process the mouse buttons (left, middle, right)
1046 state = GetKeyState(VK_LBUTTON);
1047 lpKeyState[VK_LBUTTON] = ((state & 0x8000) >> 8) | (state & 1);
1048 state = GetKeyState(VK_MBUTTON);
1049 lpKeyState[VK_MBUTTON] = ((state & 0x8000) >> 8) | (state & 1);
1050 state = GetKeyState(VK_RBUTTON);
1051 lpKeyState[VK_RBUTTON] = ((state & 0x8000) >> 8) | (state & 1);
1052#ifdef DEBUG
1053 if(lpKeyState[VK_LBUTTON]) {
1054 dprintf2(("Win key 0x%0x = %x", VK_LBUTTON, lpKeyState[VK_LBUTTON]));
1055 }
1056 if(lpKeyState[VK_MBUTTON]) {
1057 dprintf2(("Win key 0x%0x = %x", VK_MBUTTON, lpKeyState[VK_MBUTTON]));
1058 }
1059 if(lpKeyState[VK_RBUTTON]) {
1060 dprintf2(("Win key 0x%0x = %x", VK_RBUTTON, lpKeyState[VK_RBUTTON]));
1061 }
1062#endif
1063 return TRUE;
1064}
1065//******************************************************************************
1066//******************************************************************************
1067BOOL WIN32API SetKeyboardState(PBYTE lpKeyState)
1068{
1069 dprintf(("USER32: SetKeyboardState %x not implemented", lpKeyState));
1070
1071 return(TRUE);
1072}
1073/***********************************************************************
1074 * GetKeyboardLayout (USER32.250)
1075 *
1076 * FIXME: - device handle for keyboard layout defaulted to
1077 * the language id. This is the way Windows default works.
1078 * - the thread identifier (dwLayout) is also ignored.
1079 */
1080// * Remark : Based on Wine version (991031)
1081HKL WIN32API GetKeyboardLayout(DWORD dwLayout)
1082{
1083 HKL layout;
1084 layout = GetSystemDefaultLCID(); /* FIXME */
1085 layout |= (layout<<16); /* FIXME */
1086 dprintf(("GetKeyboardLayout returning %08x\n",layout));
1087 return layout;
1088}
1089/*****************************************************************************
1090 * Name : BOOL WIN32API GetKeyboardLayoutNameA
1091 * Purpose : The GetKeyboardLayoutName function retrieves the name of the
1092 * active keyboard layout.
1093 * Parameters: LPTSTR pwszKLID address of buffer for layout name
1094 * Variables :
1095 * Result : If the function succeeds, the return value is TRUE.
1096 * If the function fails, the return value is FALSE. To get extended
1097 * error information, call GetLastError.
1098 * Remark : Based on Wine version (991031)
1099 * Status : UNTESTED STUB
1100 *
1101 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1102 *****************************************************************************/
1103INT WIN32API GetKeyboardLayoutNameA(LPSTR pwszKLID)
1104{
1105 sprintf(pwszKLID, "%08x", LOWORD(GetKeyboardLayout(0)));
1106 return 1;
1107}
1108
1109
1110/*****************************************************************************
1111 * Name : BOOL WIN32API GetKeyboardLayoutNameW
1112 * Purpose : The GetKeyboardLayoutName function retrieves the name of the
1113 * active keyboard layout.
1114 * Parameters: LPTSTR pwszKLID address of buffer for layout name
1115 * Variables :
1116 * Result : If the function succeeds, the return value is TRUE.
1117 * If the function fails, the return value is FALSE. To get extended
1118 * error information, call GetLastError.
1119 * Remark : Based on Wine version (991031)
1120 * Status : UNTESTED STUB
1121 *
1122 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1123 *****************************************************************************/
1124INT WIN32API GetKeyboardLayoutNameW(LPWSTR pwszKLID)
1125{
1126 LPSTR buf = (LPSTR)HEAP_xalloc( GetProcessHeap(), 0, strlen("00000409")+1);
1127
1128 int res = GetKeyboardLayoutNameA(buf);
1129 lstrcpyAtoW(pwszKLID,buf);
1130 HeapFree( GetProcessHeap(), 0, buf );
1131 return res;
1132}
1133/***********************************************************************
1134 * GetKeyboardLayoutList (USER32.251)
1135 *
1136 * FIXME: Supports only the system default language and layout and
1137 * returns only 1 value.
1138 *
1139 * Return number of values available if either input parm is
1140 * 0, per MS documentation.
1141 *
1142 * Remark : Based on Wine version (991031)
1143 */
1144INT WIN32API GetKeyboardLayoutList(INT nBuff, HKL *layouts)
1145{
1146 dprintf(("not correctly implemented"));
1147
1148 if (!nBuff || !layouts)
1149 return 1;
1150
1151 if (layouts)
1152 layouts[0] = GetKeyboardLayout(0);
1153
1154 return 1;
1155}
1156/*****************************************************************************
1157 * Name : int WIN32API ToAscii
1158 * Purpose : The ToAscii function translates the specified virtual-key code
1159 * and keyboard state to the corresponding Windows character or characters.
1160 * Parameters: UINT uVirtKey virtual-key code
1161 * UINT uScanCode scan code
1162 * PBYTE lpbKeyState address of key-state array
1163 * LPWORD lpwTransKey buffer for translated key
1164 * UINT fuState active-menu flag
1165 * Variables :
1166 * Result : 0 The specified virtual key has no translation for the current
1167 * state of the keyboard.
1168 * 1 One Windows character was copied to the buffer.
1169 * 2 Two characters were copied to the buffer. This usually happens
1170 * when a dead-key character (accent or diacritic) stored in the
1171 * keyboard layout cannot be composed with the specified virtual
1172 * key to form a single character.
1173 * Remark :
1174 * Status : UNTESTED STUB
1175 *
1176 * Author : SvL
1177 *****************************************************************************/
1178
1179int WIN32API ToAscii(UINT uVirtKey, UINT uScanCode, PBYTE lpbKeyState,
1180 LPWORD lpwTransKey, UINT fuState)
1181{
1182 INT ret;
1183
1184 if (uScanCode == 0) {
1185 /* This happens when doing Alt+letter : a fake 'down arrow' key press
1186 event is generated by windows. Just ignore it. */
1187 dprintf2(("scanCode=0, doing nothing"));
1188 return 0;
1189 }
1190 if (uScanCode & 0x8000)
1191 {
1192 dprintf2(("Key UP, doing nothing"));
1193 return 0;
1194 }
1195
1196 /* We have another special case for delete key (XK_Delete) on an
1197 extended keyboard. X returns a char for it, but Windows doesn't */
1198 if (uVirtKey == VK_DELETE)
1199 {
1200 *(char*)lpwTransKey = 0;
1201 ret = 0;
1202 }
1203 else
1204 if (uVirtKey == VK_ESCAPE) {
1205 //NT returns VK_ESCAPE here
1206 *(char*)lpwTransKey = VK_ESCAPE;
1207 ret = 1;
1208 }
1209 else {
1210 ULONG shiftstate = 0;
1211
1212 //TODO: multiple characters returned (DBCS??)
1213
1214 if(lpbKeyState[VK_LSHIFT] & 0x80) shiftstate |= TCF_LSHIFT;
1215 if(lpbKeyState[VK_RSHIFT] & 0x80) shiftstate |= TCF_RSHIFT;
1216 else
1217 if(lpbKeyState[VK_SHIFT] & 0x80) shiftstate |= TCF_LSHIFT;
1218
1219 if(lpbKeyState[VK_LCONTROL] & 0x80) shiftstate |= TCF_LCONTROL;
1220 if(lpbKeyState[VK_RCONTROL] & 0x80) shiftstate |= TCF_RCONTROL;
1221 else
1222 if(lpbKeyState[VK_CONTROL] & 0x80) shiftstate |= TCF_LCONTROL;
1223
1224 if(lpbKeyState[VK_LMENU] & 0x80) shiftstate |= TCF_ALT;
1225 if(lpbKeyState[VK_RMENU] & 0x80) shiftstate |= TCF_ALTGR;
1226 else
1227 if(lpbKeyState[VK_MENU] & 0x80) shiftstate |= TCF_ALT;
1228
1229 if(lpbKeyState[VK_CAPITAL] & 1) shiftstate |= TCF_CAPSLOCK;
1230 if(lpbKeyState[VK_NUMLOCK] & 1) shiftstate |= TCF_NUMLOCK;
1231
1232 //NT only modifies the bytes it returns
1233 *(char *)lpwTransKey = OSLibWinTranslateChar(uScanCode, TC_SCANCODETOCHAR, shiftstate);
1234
1235 if(shiftstate & TCF_CONTROL) {
1236 if(uVirtKey >= VK_A && uVirtKey <= VK_Z) {
1237 //NT returns key-0x60 (or so it seems) for ctrl-(shift-)-a..z
1238 if(shiftstate & (TCF_SHIFT|TCF_CAPSLOCK)) {
1239 *(char *)lpwTransKey -= 0x40;
1240 }
1241 else *(char *)lpwTransKey -= 0x60;
1242 }
1243 else
1244 if(uVirtKey == VK_SPACE) {
1245 if(shiftstate & TCF_SHIFT) {
1246 //NT returns 0 for ctrl-shift-space
1247 *lpwTransKey = 0;
1248 }
1249 }
1250 else {
1251 //NT returns 0 for ctrl-0, ctrl-.
1252 *lpwTransKey = 0;
1253 }
1254 }
1255
1256 if(*(char *)lpwTransKey == 0) {
1257 ret = 0;
1258 }
1259 else ret = 1;
1260 }
1261 dprintf(("USER32:ToAscii returned %x, len %d", *lpwTransKey, ret));
1262 return ret;
1263}
1264/*****************************************************************************
1265 * Name : int WIN32API ToAsciiEx
1266 * Purpose : The ToAscii function translates the specified virtual-key code
1267 * and keyboard state to the corresponding Windows character or characters.
1268 * Parameters: UINT uVirtKey virtual-key code
1269 * UINT uScanCode scan code
1270 * PBYTE lpbKeyState address of key-state array
1271 * LPWORD lpwTransKey buffer for translated key
1272 * UINT fuState active-menu flag
1273 * HLK hlk keyboard layout handle
1274 * Variables :
1275 * Result : 0 The specified virtual key has no translation for the current
1276 * state of the keyboard.
1277 * 1 One Windows character was copied to the buffer.
1278 * 2 Two characters were copied to the buffer. This usually happens
1279 * when a dead-key character (accent or diacritic) stored in the
1280 * keyboard layout cannot be composed with the specified virtual
1281 * key to form a single character.
1282 * Remark :
1283 * Status : UNTESTED STUB
1284 *
1285 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1286 *****************************************************************************/
1287
1288int WIN32API ToAsciiEx(UINT uVirtKey, UINT uScanCode, PBYTE lpbKeyState,
1289 LPWORD lpwTransKey, UINT fuState, HKL hkl)
1290{
1291 dprintf(("imcompletely implemented"));
1292
1293 return ToAscii(uVirtKey, uScanCode, lpbKeyState, lpwTransKey, fuState);
1294}
1295/*****************************************************************************
1296 * Name : int WIN32API ToUnicode
1297 * Purpose : The ToUnicode function translates the specified virtual-key code
1298 * and keyboard state to the corresponding Unicode character or characters.
1299 * Parameters: UINT wVirtKey virtual-key code
1300 * UINT wScanCode scan code
1301 * PBYTE lpKeyState address of key-state array
1302 * LPWSTR pwszBuff buffer for translated key
1303 * int cchBuff size of translated key buffer
1304 * UINT wFlags set of function-conditioning flags
1305 * Variables :
1306 * Result : - 1 The specified virtual key is a dead-key character (accent or
1307 * diacritic). This value is returned regardless of the keyboard
1308 * layout, even if several characters have been typed and are
1309 * stored in the keyboard state. If possible, even with Unicode
1310 * keyboard layouts, the function has written a spacing version of
1311 * the dead-key character to the buffer specified by pwszBuffer.
1312 * For example, the function writes the character SPACING ACUTE
1313 * (0x00B4), rather than the character NON_SPACING ACUTE (0x0301).
1314 * 0 The specified virtual key has no translation for the current
1315 * state of the keyboard. Nothing was written to the buffer
1316 * specified by pwszBuffer.
1317 * 1 One character was written to the buffer specified by pwszBuffer.
1318 * 2 or more Two or more characters were written to the buffer specified by
1319 * pwszBuff. The most common cause for this is that a dead-key
1320 * character (accent or diacritic) stored in the keyboard layout
1321 * could not be combined with the specified virtual key to form a
1322 * single character.
1323 * Remark :
1324 * Status : UNTESTED STUB
1325 *
1326 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1327 *****************************************************************************/
1328
1329int WIN32API ToUnicode(UINT uVirtKey, UINT uScanCode, PBYTE lpKeyState,
1330 LPWSTR pwszBuff, int cchBuff, UINT wFlags)
1331{
1332 dprintf(("not implemented.\n"));
1333
1334 return (0);
1335}
1336
1337int WINAPI ToUnicodeEx(UINT virtKey, UINT scanCode, const BYTE *lpKeyState,
1338 LPWSTR lpwStr, int size, UINT flags, HKL hkl)
1339{
1340 dprintf(("ToUnicodeEx not implemented.\n"));
1341 return (0);
1342}
1343
1344/*****************************************************************************
1345 * Name : UINT WIN32API GetKBCodePage
1346 * Purpose : The GetKBCodePage function is provided for compatibility with
1347 * earlier versions of Windows. In the Win32 application programming
1348 * interface (API) it just calls the GetOEMCP function.
1349 * Parameters:
1350 * Variables :
1351 * Result : If the function succeeds, the return value is an OEM code-page
1352 * identifier, or it is the default identifier if the registry
1353 * value is not readable. For a list of OEM code-page identifiers,
1354 * see GetOEMCP.
1355 * Remark :
1356 * Status : COMPLETELY IMPLEMENTED UNTESTED
1357 *
1358 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1359 *****************************************************************************/
1360
1361UINT WIN32API GetKBCodePage()
1362{
1363 return (GetOEMCP());
1364}
1365//******************************************************************************
1366//******************************************************************************
1367int WIN32API GetKeyNameTextA(LPARAM lParam, LPSTR lpString, int nSize)
1368{
1369 // check the scancodes if the extended key bit is set so
1370 // we can easily distinguish between "left" and "right" special keys, etc.
1371 BOOL fDontCare = (lParam & WIN_KEY_DONTCARE) != 0;
1372 BOOL fExtended = (lParam & WIN_KEY_EXTENDED) != 0,PMExtended;
1373 UCHAR ucWinScan = (lParam & 0x00ff0000) >> 16;
1374 UCHAR ucWinVKey;
1375 UCHAR ucPMScan;
1376 int result;
1377
1378 if (fDontCare)
1379 {
1380 fExtended = FALSE;
1381
1382 // map "right keys" to "universal keys"
1383 // LALT,RALT -> ALT
1384 // etc.
1385 // @@@PH
1386 }
1387
1388 // Note: Open32 expects PM Scancodes, NOT Winscancodes.
1389 // Note: this is the only way of loss-less conversion!
1390 ucPMScan = KeyTranslateWinScanToPMScan(ucWinScan, fExtended);
1391 dprintf(("ucWinScan=%02xh, fExtended=%d translated to PMscan=%02xh\n",
1392 ucWinScan,
1393 fExtended,
1394 ucPMScan));
1395 ucWinVKey = abPMScanToWinVKey[ucPMScan][0];
1396 PMExtended = abPMScanToWinVKey[ucPMScan][1];
1397
1398 dprintf(("ucPMScan=%02xh translated to ucWinVKey=%02xh PMExtended=%d\n",
1399 ucPMScan,
1400 ucWinVKey,PMExtended));
1401
1402 // Bug in Open32:
1403 // 0 - expects PMScancodes instead of WinScancodes
1404 // 1 - the "extended key bit" is not taken into account
1405 // 2 - some keys (AltGr) have not been assigned any names
1406 // int result = O32_GetKeyNameText(lParam,lpString,nSize);
1407
1408 memset(lpString, 0, nSize);
1409
1410 LPSTR lpstrKey;
1411 lpstrKey = abWinVKeyToPMScan[ucWinVKey].lpstrName;
1412
1413 // handle Enter on Numeric Keypad here
1414 if (PMExtended)
1415 {
1416 if (ucWinVKey==VK_RETURN) lpstrKey = lpstrNumEnter;
1417 }
1418
1419 if (NULL == lpstrKey)
1420 {
1421 dprintf(("ERROR: keyname for winscan=%02xh winvkey=%02xh, fExtended=%d not found.\n",
1422 ucWinScan, ucWinVKey, fExtended & !fDontCare));
1423
1424 // build artificial name
1425
1426 CHAR szName[10];
1427 sprintf(szName,
1428 "VKey%02x%c",
1429 ucWinScan,
1430 fExtended ? '+' : 0);
1431 memcpy(lpString, szName, nSize);
1432
1433 // how many chars have been returned?
1434 result = min(nSize, strlen(lpString));
1435 }
1436 else
1437 {
1438 result = min(nSize, strlen(lpstrKey));
1439 strncpy (lpString, lpstrKey, result);
1440 }
1441
1442 dprintf(("keyname=[%s]\n",
1443 lpString));
1444
1445 return result;
1446}
1447//******************************************************************************
1448//******************************************************************************
1449int WIN32API GetKeyNameTextW(LPARAM lParam, LPWSTR lpString, int nSize)
1450{
1451 dprintf(("USER32: GetKeyNameTextW DOES NOT WORK (not implemented)\n"));
1452 // NOTE: This will not work as is (needs UNICODE support)
1453 return 0;
1454// return O32_GetKeyNameText(arg1, arg2, arg3);
1455}
1456
1457//******************************************************************************
1458//******************************************************************************
1459ULONG WinConvertNumPadKey(ULONG winVKey)
1460{
1461 ULONG ret;
1462 BYTE winKey;
1463
1464 switch (winVKey)
1465 {
1466 case VK_HOME: ret = VK_NUMPAD7; break;
1467 case VK_UP: ret = VK_NUMPAD8; break;
1468 case VK_PRIOR: ret = VK_NUMPAD9; break;
1469 case VK_LEFT: ret = VK_NUMPAD4; break;
1470 case VK_RIGHT: ret = VK_NUMPAD6; break;
1471 case VK_END: ret = VK_NUMPAD1; break;
1472 case VK_DOWN: ret = VK_NUMPAD2; break;
1473 case VK_NEXT: ret = VK_NUMPAD3; break;
1474 case VK_INSERT:ret = VK_NUMPAD0; break;
1475 case VK_DELETE:ret = VK_DECIMAL; break;
1476 default:
1477 ret = winVKey;
1478 }
1479 dprintf(("Returning %x",ret));
1480 return ret;
1481}
1482
1483//******************************************************************************
1484//******************************************************************************
1485SHORT WIN32API GetKeyState(int nVirtKey)
1486{
1487 // check overlay array first
1488 char nState = arrchOverlayKeyState[nVirtKey & 0xff];
1489 switch (nState)
1490 {
1491 case KEYOVERLAYSTATE_DONTCARE:
1492 // forward processing ...
1493 break;
1494
1495 // @@@PH Note: key-toggle is not handled correctpy
1496 case KEYOVERLAYSTATE_DOWN:
1497 return 0x8000;
1498
1499 case KEYOVERLAYSTATE_UP:
1500 return 0x0000;
1501 }
1502
1503 //If there's a PM scancode for this virtual key, then call WinGetScanState
1504 //O32_GetKeyState converts windows virtual keys to PM virtual keys and there
1505 //are far fewer PM vkeys. (e.g. 0-9, A-Z will fail)
1506 if(nVirtKey < 256 && abWinVKeyToPMScan[nVirtKey].bPMScanCode)
1507 {
1508 INT nVirtKey2 = 0;
1509 WORD result;
1510
1511 if (nVirtKey == VK_CONTROL || nVirtKey == VK_LCONTROL)
1512 {//if AltGr is down, then pretend VK_LCONTROL is down too
1513 result = OSLibWinGetScanState(abWinVKeyToPMScan[VK_RMENU].bPMScanCode);
1514 if(result & 0x8000) {
1515 return result;
1516 }
1517 //not down, check the control keys
1518 }
1519
1520 if ((nVirtKey >= VK_PRIOR) && (nVirtKey <= VK_DELETE))
1521 {
1522 WORD numState = OSLibWinGetScanState(abWinVKeyToPMScan[VK_NUMLOCK].bPMScanCode) & 1;
1523
1524 if(!numState) {
1525 //@PF We also keep track in PM how much times the key has been pressed
1526 //in win32 we can ignore this information - if some apps will demand this
1527 //this is TO-DO
1528 nVirtKey2 = WinConvertNumPadKey(nVirtKey);
1529 }
1530 }
1531 else
1532 if (nVirtKey == VK_MENU) {
1533 nVirtKey = VK_LMENU;
1534 nVirtKey2 = VK_RMENU;
1535 }
1536 else
1537 if (nVirtKey == VK_CONTROL) {
1538 nVirtKey = VK_LCONTROL;
1539 nVirtKey2 = VK_RCONTROL;
1540 }
1541 else
1542 if (nVirtKey == VK_SHIFT) {
1543 nVirtKey = VK_LSHIFT;
1544 nVirtKey2 = VK_RSHIFT;
1545 }
1546 result = OSLibWinGetScanState(abWinVKeyToPMScan[nVirtKey].bPMScanCode);
1547 if(nVirtKey2) {
1548 result |= OSLibWinGetScanState(abWinVKeyToPMScan[nVirtKey2].bPMScanCode);
1549 }
1550 return result;
1551 }
1552
1553 return O32_GetKeyState(nVirtKey);
1554}
1555//******************************************************************************
1556//******************************************************************************
1557WORD WIN32API GetAsyncKeyState(INT nVirtKey)
1558{
1559 // check overlay array first
1560 char nState = arrchOverlayKeyState[nVirtKey & 0xff];
1561 switch (nState)
1562 {
1563 case KEYOVERLAYSTATE_DONTCARE:
1564 // forward processing ...
1565 break;
1566
1567 // @@@PH Note: key-toggle is not handled correctpy
1568 case KEYOVERLAYSTATE_DOWN:
1569 return 0x8000;
1570
1571 case KEYOVERLAYSTATE_UP:
1572 return 0x0000;
1573 }
1574
1575 //If there's a PM scancode for this virtual key, then call WinGetPhysKeyState
1576 //O32_GetAsyncKeyState converts windows virtual keys to PM virtual keys and there
1577 //are far fewer PM vkeys. (e.g. 0-9, A-Z will fail)
1578 if(nVirtKey < 256 && abWinVKeyToPMScan[nVirtKey].bPMScanCode)
1579 {
1580 INT nVirtKey2 = 0;
1581 WORD result;
1582
1583 if (nVirtKey == VK_CONTROL || nVirtKey == VK_LCONTROL)
1584 {//if AltGr is down, then pretend VK_LCONTROL is down too
1585 result = OSLibWinGetPhysKeyState(abWinVKeyToPMScan[VK_RMENU].bPMScanCode);
1586 if(result & 0x8000) {
1587 return result;
1588 }
1589 //not down, check the control keys
1590 }
1591
1592 if ((nVirtKey >= VK_PRIOR) && (nVirtKey <= VK_DELETE))
1593 {
1594 WORD numState = OSLibWinGetScanState(abWinVKeyToPMScan[VK_NUMLOCK].bPMScanCode) & 1;
1595
1596 if(!numState) {
1597 //@PF We also keep track in PM how much times the key has been pressed
1598 //in win32 we can ignore this information - if some apps will demand this
1599 //this is TO-DO
1600 nVirtKey2 = WinConvertNumPadKey(nVirtKey);
1601 }
1602 }
1603 else
1604 if (nVirtKey == VK_MENU) {
1605 nVirtKey = VK_LMENU;
1606 nVirtKey2 = VK_RMENU;
1607 }
1608 else
1609 if (nVirtKey == VK_CONTROL) {
1610 nVirtKey = VK_LCONTROL;
1611 nVirtKey2 = VK_RCONTROL;
1612 }
1613 else
1614 if (nVirtKey == VK_SHIFT) {
1615 nVirtKey = VK_LSHIFT;
1616 nVirtKey2 = VK_RSHIFT;
1617 }
1618
1619 result = OSLibWinGetPhysKeyState(abWinVKeyToPMScan[nVirtKey].bPMScanCode);
1620 if(nVirtKey2) {
1621 result |= OSLibWinGetPhysKeyState(abWinVKeyToPMScan[nVirtKey2].bPMScanCode);
1622 }
1623 return result;
1624 }
1625
1626 return O32_GetAsyncKeyState(nVirtKey);
1627}
1628//******************************************************************************
1629//******************************************************************************
1630UINT WIN32API MapVirtualKeyA(UINT uCode, UINT uMapType)
1631{
1632 dprintf(("incompletely implemented"));
1633
1634 /* A quick fix for Commandos, very incomplete */
1635 switch (uMapType)
1636 {
1637 case 2:
1638 if (uCode >= VK_A && uCode <= VK_Z)
1639 {
1640 return 'A' + uCode - VK_A;
1641 }
1642 break;
1643
1644 case 0:
1645 {
1646 UINT ret;
1647 if( uCode >= VK_A && uCode <= VK_Z) {
1648 ret = OSLibWinTranslateChar('A' + uCode - VK_A, TC_CHARTOSCANCODE, 0);
1649 dprintf(("MapVirtualKeyA %x (%c) -> %x", uCode, 'A' + uCode - VK_A, ret));
1650 return ret;
1651 }
1652 else
1653 if( uCode >= VK_0 && uCode <= VK_0) {
1654 ret = OSLibWinTranslateChar('0' + uCode - VK_0, TC_CHARTOSCANCODE, 0);
1655 dprintf(("MapVirtualKeyA %x (%c) -> %x", uCode, '0' + uCode - VK_0, ret));
1656 return ret;
1657 }
1658 ret = O32_MapVirtualKey(uCode, uMapType);
1659
1660 // WGSS returns PM scancodes
1661 ret = KeyTranslatePMScanToWinScan(ret);
1662 return ret;
1663 }
1664
1665 case 1:
1666 case 3:
1667 // Open32 uses PMScancodes, not Windows Scancodes!!
1668 // @@@PH the extended flag is to be ignored!
1669 BYTE bPMScan = KeyTranslateWinScanToPMScan(uCode, FALSE);
1670 return O32_MapVirtualKey(bPMScan, uMapType);
1671 }
1672 return O32_MapVirtualKey(uCode, uMapType);
1673}
1674//******************************************************************************
1675//******************************************************************************
1676UINT WIN32API MapVirtualKeyW(UINT uCode, UINT uMapType)
1677{
1678 dprintf(("incorrectly implemented"));
1679
1680 // NOTE: This will not work as is (needs UNICODE support)
1681 return MapVirtualKeyA(uCode,uMapType);
1682}
1683/*****************************************************************************
1684 * Name : UINT WIN32API MapVirtualKeyExA
1685 * Purpose : The MapVirtualKeyEx function translates (maps) a virtual-key
1686 * code into a scan code or character value, or translates a scan
1687 * code into a virtual-key code. The function translates the codes
1688 * using the input language and physical keyboard layout identified
1689 * by the given keyboard layout handle.
1690 * Parameters:
1691 * Variables :
1692 * Result : The return value is either a scan code, a virtual-key code, or
1693 * a character value, depending on the value of uCode and uMapType.
1694 * If there is no translation, the return value is zero.
1695 * Remark :
1696 * Status : UNTESTED STUB
1697 *
1698 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1699 *****************************************************************************/
1700UINT WIN32API MapVirtualKeyExA(UINT uCode, UINT uMapType, HKL dwhkl)
1701{
1702 dprintf(("incompletely implemented"));
1703
1704 return MapVirtualKeyA(uCode, uMapType);
1705}
1706/*****************************************************************************
1707 * Name : UINT WIN32API MapVirtualKeyExW
1708 * Purpose : The MapVirtualKeyEx function translates (maps) a virtual-key
1709 * code into a scan code or character value, or translates a scan
1710 * code into a virtual-key code. The function translates the codes
1711 * using the input language and physical keyboard layout identified
1712 * by the given keyboard layout handle.
1713 * Parameters:
1714 * Variables :
1715 * Result : The return value is either a scan code, a virtual-key code, or
1716 * a character value, depending on the value of uCode and uMapType.
1717 * If there is no translation, the return value is zero.
1718 * Remark :
1719 * Status : UNTESTED STUB
1720 *
1721 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1722 *****************************************************************************/
1723UINT WIN32API MapVirtualKeyExW(UINT uCode, UINT uMapType, HKL dwhkl)
1724{
1725 dprintf(("incompletely implemented"));
1726
1727 return MapVirtualKeyW(uCode, uMapType);
1728}
1729/*****************************************************************************
1730 * Name : DWORD WIN32API OemKeyScan
1731 * Purpose : The OemKeyScan function maps OEM ASCII codes 0 through 0x0FF
1732 * into the OEM scan codes and shift states. The function provides
1733 * information that allows a program to send OEM text to another
1734 * program by simulating keyboard input.
1735 * Parameters:
1736 * Variables :
1737 * Result :
1738 * Remark :
1739 * Status : Borrowed from NT
1740 *
1741 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1742 *****************************************************************************/
1743DWORD WIN32API OemKeyScan(WORD wOemChar)
1744{
1745 int nVirtKey;
1746
1747 OemToCharBuffA((LPCSTR)&wOemChar,
1748 (LPSTR) &nVirtKey,
1749 1);
1750 if (nVirtKey != 0)
1751 {
1752 SHORT sScan = VkKeyScanA(nVirtKey);
1753 nVirtKey = MapVirtualKeyA( (sScan & 0xff), 0);
1754 if (nVirtKey != 0)
1755 {
1756 return ( (nVirtKey & 0x00FF) ||
1757 ( (nVirtKey & 0xFF00) << 8) );
1758 }
1759 }
1760
1761 // if not found ...
1762 return 0xffffffff;
1763}
1764//******************************************************************************
1765//******************************************************************************
1766BOOL WIN32API RegisterHotKey(HWND hwnd, int idHotKey, UINT fuModifiers,
1767 UINT uVirtKey)
1768{
1769 dprintf(("not implemented"));
1770
1771 hwnd = Win32ToOS2Handle(hwnd);
1772 return(TRUE);
1773}
1774//******************************************************************************
1775//******************************************************************************
1776BOOL WIN32API UnregisterHotKey(HWND hwnd, int idHotKey)
1777{
1778 dprintf(("not implemented"));
1779
1780 hwnd = Win32ToOS2Handle(hwnd);
1781
1782 return(TRUE);
1783}
1784
1785//******************************************************************************
1786//******************************************************************************
1787WORD WIN32API VkKeyScanA(char ch)
1788{
1789 return O32_VkKeyScan(ch);
1790}
1791//******************************************************************************
1792//******************************************************************************
1793WORD WIN32API VkKeyScanW(WCHAR wch)
1794{
1795 dprintf(("incorrectly implemented"));
1796 // NOTE: This will not work as is (needs UNICODE support)
1797 return O32_VkKeyScan((char)wch);
1798}
1799/*****************************************************************************
1800 * Name : SHORT WIN32API VkKeyScanExW
1801 * Purpose : The VkKeyScanEx function translates a character to the
1802 * corresponding virtual-key code and shift state. The function
1803 * translates the character using the input language and physical
1804 * keyboard layout identified by the given keyboard layout handle.
1805 * Parameters: UINT uChar character to translate
1806 * HKL hkl keyboard layout handle
1807 * Variables :
1808 * Result : see docs
1809 * Remark :
1810 * Status : UNTESTED STUB
1811 *
1812 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1813 *****************************************************************************/
1814WORD WIN32API VkKeyScanExW(WCHAR uChar, HKL hkl)
1815{
1816 dprintf(("partially implemented"));
1817
1818 return VkKeyScanW(uChar);
1819}
1820/*****************************************************************************
1821 * Name : SHORT WIN32API VkKeyScanExA
1822 * Purpose : The VkKeyScanEx function translates a character to the
1823 * corresponding virtual-key code and shift state. The function
1824 * translates the character using the input language and physical
1825 * keyboard layout identified by the given keyboard layout handle.
1826 * Parameters: UINT uChar character to translate
1827 * HKL hkl keyboard layout handle
1828 * Variables :
1829 * Result : see docs
1830 * Remark :
1831 * Status : UNTESTED STUB
1832 *
1833 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1834 *****************************************************************************/
1835WORD WIN32API VkKeyScanExA(CHAR uChar, HKL hkl)
1836{
1837 dprintf(("partially implemented"));
1838
1839 return VkKeyScanA(uChar);
1840}
1841/*****************************************************************************
1842 * Name : VOID WIN32API keybd_event
1843 * Purpose : The keybd_event function synthesizes a keystroke. The system
1844 * can use such a synthesized keystroke to generate a WM_KEYUP or
1845 * WM_KEYDOWN message. The keyboard driver's interrupt handler calls
1846 * the keybd_event function.
1847 * Parameters: BYTE bVk virtual-key code
1848
1849 * BYTE bScan hardware scan code
1850 * DWORD dwFlags flags specifying various function options
1851 * DWORD dwExtraInfo additional data associated with keystroke
1852 * Variables :
1853 * Result :
1854 * Remark :
1855 * Status : UNTESTED STUB
1856 *
1857 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1858 *****************************************************************************/
1859VOID WIN32API keybd_event(BYTE bVk, BYTE bScan, DWORD dwFlags, DWORD dwExtraInfo)
1860{
1861 INPUT i;
1862
1863 // format input packet
1864 i.type = INPUT_KEYBOARD;
1865 i.ki.wVk = bVk;
1866 i.ki.wScan = bScan;
1867 i.ki.dwFlags = dwFlags;
1868 i.ki.dwExtraInfo = dwExtraInfo;
1869
1870 // forward to more modern API
1871 SendInput(1, &i, sizeof(i) );
1872}
1873/*****************************************************************************
1874 * Name : HLK WIN32API LoadKeyboardLayoutA
1875 * Purpose : The LoadKeyboardLayout function loads a new keyboard layout into
1876 * the system. Several keyboard layouts can be loaded at a time, but
1877 * only one per process is active at a time. Loading multiple keyboard
1878 * layouts makes it possible to rapidly switch between layouts.
1879 * Parameters:
1880 * Variables :
1881 * Result : If the function succeeds, the return value is the handle of the
1882 * keyboard layout.
1883 * If the function fails, the return value is NULL. To get extended
1884 * error information, call GetLastError.
1885 * Remark :
1886 * Status : UNTESTED STUB
1887 *
1888 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1889 *****************************************************************************/
1890HKL WIN32API LoadKeyboardLayoutA(LPCSTR pwszKLID, UINT Flags)
1891{
1892 dprintf(("USER32:LeadKeyboardLayoutA (%s,%u) not implemented.\n",
1893 pwszKLID,
1894 Flags));
1895
1896 return (NULL);
1897}
1898/*****************************************************************************
1899 * Name : HLK WIN32API LoadKeyboardLayoutW
1900 * Purpose : The LoadKeyboardLayout function loads a new keyboard layout into
1901 * the system. Several keyboard layouts can be loaded at a time, but
1902 * only one per process is active at a time. Loading multiple keyboard
1903 * layouts makes it possible to rapidly switch between layouts.
1904 * Parameters:
1905 * Variables :
1906 * Result : If the function succeeds, the return value is the handle of the
1907 * keyboard layout.
1908 * If the function fails, the return value is NULL. To get extended
1909 * error information, call GetLastError.
1910 * Remark :
1911 * Status : UNTESTED STUB
1912 *
1913 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1914 *****************************************************************************/
1915HKL WIN32API LoadKeyboardLayoutW(LPCWSTR pwszKLID, UINT Flags)
1916{
1917 dprintf(("USER32:LoadKeyboardLayoutW (%ls,%u) not implemented.\n",
1918 pwszKLID,
1919 Flags));
1920
1921 return (NULL);
1922}
1923//******************************************************************************
1924//******************************************************************************
1925HKL WIN32API ActivateKeyboardLayout(HKL hkl, UINT fuFlags)
1926{
1927 dprintf(("not implemented\n"));
1928 return NULL;
1929}
1930/*****************************************************************************
1931 * Name : BOOL WIN32API UnloadKeyboardLayout
1932 * Purpose : The UnloadKeyboardLayout function removes a keyboard layout.
1933 * Parameters: HKL hkl handle of keyboard layout
1934 * Variables :
1935 * Result : If the function succeeds, the return value is the handle of the
1936 * keyboard layout; otherwise, it is NULL. To get extended error
1937 * information, use the GetLastError function.
1938 * Remark :
1939 * Status : UNTESTED STUB
1940 *
1941 * Author : Patrick Haller [Thu, 1998/02/26 11:55]
1942 *****************************************************************************/
1943BOOL WIN32API UnloadKeyboardLayout(HKL hkl)
1944{
1945 dprintf(("not implemented.\n"));
1946
1947 return (TRUE);
1948}
1949//******************************************************************************
1950//******************************************************************************
1951
1952// this is an internal function to emulate Alt-Gr behaviour
1953VOID WIN32API KeySetOverlayKeyState(int nVirtKey, char nState)
1954{
1955 // setup overlay array
1956 arrchOverlayKeyState[nVirtKey & 0xff] = nState;
1957}
1958
Note: See TracBrowser for help on using the repository browser.