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770 lines
22 KiB
770 lines
22 KiB
/*++
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*
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* WOW v1.0
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*
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* Copyright (c) 1991, Microsoft Corporation
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*
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* WUTMR.C
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* WOW32 16-bit User Timer API support
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*
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* History:
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* Created 07-Mar-1991 by Jeff Parsons (jeffpar)
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* 24-Feb-1993 reworked to use array of timer functions - barryb
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--*/
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#include "precomp.h"
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#pragma hdrstop
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MODNAME(wutmr.c);
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LIST_ENTRY TimerList;
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// Element Zero is unused.
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STATIC PTMR aptmrWOWTimers[] = {
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NULL, NULL, NULL, NULL,
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NULL, NULL, NULL, NULL,
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NULL, NULL, NULL, NULL,
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NULL, NULL, NULL, NULL,
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NULL, NULL, NULL, NULL,
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NULL, NULL, NULL, NULL,
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NULL, NULL, NULL, NULL,
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NULL, NULL, NULL, NULL,
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NULL, NULL, NULL
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};
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STATIC TIMERPROC afnTimerFuncs[] = {
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NULL, W32Timer1, W32Timer2, W32Timer3,
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W32Timer4, W32Timer5, W32Timer6, W32Timer7,
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W32Timer8, W32Timer9, W32Timer10, W32Timer11,
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W32Timer12, W32Timer13, W32Timer14, W32Timer15,
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W32Timer16, W32Timer17, W32Timer18, W32Timer19,
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W32Timer20, W32Timer21, W32Timer22, W32Timer23,
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W32Timer24, W32Timer25, W32Timer26, W32Timer27,
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W32Timer28, W32Timer29, W32Timer30, W32Timer31,
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W32Timer32, W32Timer33, W32Timer34
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};
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/* Timer mapping functions
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*
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* The basic 16-bit timer mapping operations are Add, Find and Free. When
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* a 16-bit app calls SetTimer, we call Win32's SetTimer with W32TimerProc
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* in place of the 16-bit proc address. Assuming the timer is successfully
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* allocated, we add the timer to our own table, recording the 16-bit proc
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* address.
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*/
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//
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// Search for a timer by its 16-bit information. Looks in the list of
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// active timers. If the timer is found by this routine, then SetTimer()
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// has been called and KillTimer() has not yet been called.
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//
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PTMR IsDuplicateTimer16(HWND16 hwnd16, HTASK16 htask16, WORD wIDEvent)
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{
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register PTMR ptmr;
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register INT iTimer;
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//
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// Excel calls SetTimer with hwnd==NULL but dispatches the
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// WM_TIMER messages with hwnd!=NULL. so call it a match if
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// hwnd16!=NULL and ptmr->hwnd16==NULL
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//
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for (iTimer=1; iTimer<NUMEL(aptmrWOWTimers); iTimer++) {
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ptmr = aptmrWOWTimers[iTimer];
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if (ptmr) {
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if (LOWORD(ptmr->dwEventID) == wIDEvent &&
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ptmr->htask16 == htask16 &&
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(ptmr->hwnd16 == hwnd16 || !ptmr->hwnd16)) {
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return ptmr;
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}
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}
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}
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return NULL;
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}
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//
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// This is called to free *ALL* timers created with a given hwnd16
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// ie. All timers created by SetTimer(hwnd != NULL, id, duration)
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// This should only be called when the hwnd is being destroyed: DestroyWindow()
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//
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VOID FreeWindowTimers16(HWND hwnd32)
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{
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register PTMR ptmr;
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register INT iTimer;
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HAND16 htask16;
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htask16 = CURRENTPTD()->htask16;
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for (iTimer=1; iTimer<NUMEL(aptmrWOWTimers); iTimer++) {
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ptmr = aptmrWOWTimers[iTimer];
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if (ptmr) {
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if (ptmr->htask16 == htask16 && GETHWND16(hwnd32) == ptmr->hwnd16) {
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// we can't wait for Win32 to kill the timer for us during its
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// normal DestroyWindow() handling because it might send another
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// WM_TIMER message which we are now not ready to handle.
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KillTimer(ptmr->hwnd32, ptmr->dwEventID);
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// now free our WOW structures supporting this timer
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FreeTimer16(ptmr);
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}
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}
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}
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}
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//
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// Search for a timer by its 32-bit information. Looks in the list of
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// all timers (including those that have already been killed by KillTimer().
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//
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//
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PTMR FindTimer32(HWND16 hwnd16, DWORD dwIDEvent)
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{
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register PTMR ptmr;
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HAND16 htask16;
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htask16 = CURRENTPTD()->htask16;
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//
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// Excel calls SetTimer with hwnd==NULL but dispatches the
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// WM_TIMER messages with hwnd!=NULL. so call it a match if
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// hwnd16!=NULL and ptmr->hwnd16==NULL
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//
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for (ptmr = (PTMR)TimerList.Flink; ptmr != (PTMR)&TimerList; ptmr = (PTMR)ptmr->TmrList.Flink) {
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if (ptmr->dwEventID == dwIDEvent &&
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ptmr->htask16 == htask16 &&
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(ptmr->hwnd16 == hwnd16 || (hwnd16 && !ptmr->hwnd16))) {
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return ptmr;
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}
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}
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return (PTMR)NULL;
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}
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//
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// Search for a timer by its 16-bit information. Looks in the list of
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// all timers (including those that have already been killed by KillTimer().
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//
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//
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PTMR FindTimer16(HWND16 hwnd16, HTASK16 htask16, WORD wIDEvent)
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{
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register PTMR ptmr;
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//
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// Excel calls SetTimer with hwnd==NULL but dispatches the
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// WM_TIMER messages with hwnd!=NULL. so call it a match if
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// hwnd16!=NULL and ptmr->hwnd16==NULL
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//
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for (ptmr = (PTMR)TimerList.Flink; ptmr != (PTMR)&TimerList; ptmr = (PTMR)ptmr->TmrList.Flink) {
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if (LOWORD(ptmr->dwEventID) == wIDEvent &&
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ptmr->htask16 == htask16 &&
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(ptmr->hwnd16 == hwnd16 || (hwnd16 && !ptmr->hwnd16))) {
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return ptmr;
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}
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}
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return (PTMR)NULL;
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}
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//
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// Search for a killed timer by its 16-bit information.
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//
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//
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PTMR FindKilledTimer16(HWND16 hwnd16, HTASK16 htask16, WORD wIDEvent)
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{
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register PTMR ptmr;
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for (ptmr = (PTMR)TimerList.Flink; ptmr != (PTMR)&TimerList; ptmr = (PTMR)ptmr->TmrList.Flink) {
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if (ptmr->wIndex == 0 &&
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ptmr->htask16 == htask16 &&
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ptmr->hwnd16 == hwnd16 &&
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(LOWORD(ptmr->dwEventID) == wIDEvent || !hwnd16)) {
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// 1. the timer has been killed and
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// 2. the timer is in this task and
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// 3. the hwnds match (both might be 0) and
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// 4. the IDs match, or the hwnds are both 0 (in that case,
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// IDs are ignored)
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return ptmr;
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}
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}
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return (PTMR)NULL;
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}
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VOID FreeTimer16(PTMR ptmr)
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{
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WOW32ASSERT(ptmr->wIndex == 0 || ptmr == aptmrWOWTimers[ptmr->wIndex]);
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aptmrWOWTimers[ptmr->wIndex] = NULL;
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RemoveEntryList(&ptmr->TmrList);
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free_w(ptmr);
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}
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VOID DestroyTimers16(HTASK16 htask16)
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{
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PTMR ptmr, next;
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for (ptmr = (PTMR)TimerList.Flink; ptmr != (PTMR)&TimerList; ptmr = next) {
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next = (PTMR)ptmr->TmrList.Flink;
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if (ptmr->htask16 == htask16) {
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//
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// don't call KillTimer() if the timer was associated with
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// a window and the window is gone, USER has already
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// cleaned it up.
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//
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if (ptmr == aptmrWOWTimers[ptmr->wIndex] && (!ptmr->hwnd32 || IsWindow(ptmr->hwnd32))) {
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if ( KillTimer(ptmr->hwnd32, ptmr->dwEventID) ) {
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LOGDEBUG(LOG_IMPORTANT,
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("DestroyTimers16:Killed %04x\n",ptmr->dwEventID));
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} else {
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LOGDEBUG(LOG_ERROR,
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("DestroyTimers16:FAILED %04x\n",ptmr->dwEventID));
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}
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}
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FreeTimer16(ptmr);
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}
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}
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}
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VOID W32TimerFunc(UINT index, HWND hwnd, UINT idEvent, DWORD dwTime)
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{
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PARM16 Parm16;
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register PTMR ptmr;
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ptmr = aptmrWOWTimers[index];
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if ( !ptmr ) {
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LOGDEBUG(LOG_ALWAYS,(" W32TimerFunc ERROR: cannot find timer %08x\n", idEvent));
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return;
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}
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if (ptmr->dwEventID != idEvent) {
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//
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// This is an extra timer message which was already in the message
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// queue when the app called KillTimer(). The PTMR isn't in the
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// array, but it is still linked into the TimerList.
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//
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LOGDEBUG(LOG_WARNING,(" W32TimerFunc WARNING: Timer %08x called after KillTimer()\n", idEvent));
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for (ptmr = (PTMR)TimerList.Flink; ptmr != (PTMR)&TimerList; ptmr = (PTMR)ptmr->TmrList.Flink) {
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if (ptmr->dwEventID == idEvent) {
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break;
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}
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}
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if ( ptmr == (PTMR)&TimerList ) {
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LOGDEBUG(LOG_ALWAYS,(" W32TimerFunc ERROR: cannot find timer %08x (second case)\n", idEvent));
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return;
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}
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}
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Parm16.WndProc.hwnd = ptmr->hwnd16;
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Parm16.WndProc.wMsg = WM_TIMER;
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Parm16.WndProc.wParam = LOWORD(ptmr->dwEventID);
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Parm16.WndProc.lParam = dwTime;
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Parm16.WndProc.hInst = 0; // callback16 defaults to ss
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CallBack16(RET_WNDPROC, &Parm16, ptmr->vpfnTimerProc, NULL);
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}
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/*++
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BOOL KillTimer(<hwnd>, <nIDEvent>)
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HWND <hwnd>;
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INT <nIDEvent>;
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The %KillTimer% function kills the timer event identified by the <hwnd> and
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<nIDEvent> parameters. Any pending WM_TIMER messages associated with the
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timer are removed from the message queue.
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<hwnd>
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Identifies the window associated with the given timer event. This must
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be the same value passed as the hwnd parameter to the SetTimer function
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call that created the timer event.
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<nIDEvent>
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Specifies the timer event to be killed. If the application called
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%SetTimer% with the <hwnd> parameter set to NULL, this must be the event
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identifier returned by %SetTimer%. If the <hwnd> parameter of %SetTimer%
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was a valid window handle, <nIDEvent> must be the value of the
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<nIDEvent> parameter passed to %SetTimer%.
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The return value specifies the outcome of the function. It is TRUE if the
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event was killed. It is FALSE if the %KillTimer% function could not find the
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specified timer event.
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--*/
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ULONG FASTCALL WU32KillTimer(PVDMFRAME pFrame)
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{
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ULONG ul;
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register PTMR ptmr;
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register PKILLTIMER16 parg16;
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HWND16 hwnd16;
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WORD wIDEvent;
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HAND16 htask16;
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GETARGPTR(pFrame, sizeof(KILLTIMER16), parg16);
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htask16 = CURRENTPTD()->htask16;
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hwnd16 = (HWND16)parg16->f1;
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wIDEvent = parg16->f2;
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ptmr = IsDuplicateTimer16(hwnd16, htask16, wIDEvent);
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if (ptmr) {
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ul = GETBOOL16(KillTimer(ptmr->hwnd32, ptmr->dwEventID));
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aptmrWOWTimers[ptmr->wIndex] = NULL;
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ptmr->wIndex = 0;
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}
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else {
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ul = 0;
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LOGDEBUG(LOG_IMPORTANT,(" WU32KillTimer ERROR: cannot find timer %04x\n", wIDEvent));
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}
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FREEARGPTR(parg16);
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RETURN(ul);
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}
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/*++
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WORD SetTimer(<hwnd>, <nIDEvent>, <wElapse>, <lpTimerFunc>)
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HWND <hwnd>;
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int <nIDEvent>;
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WORD <wElapse>;
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FARPROC <lpTimerFunc>;
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The %SetTimer% function creates a system timer event. When a timer event
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occurs, Windows passes a WM_TIMER message to the application-supplied
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function specified by the <lpTimerFunc> parameter. The function can then
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process the event. A NULL value for <lpTimerFunc> causes WM_TIMER messages
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to be placed in the application queue.
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<hwnd>
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Identifies the window to be associated with the timer. If hwnd is NULL,
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no window is associated with the timer.
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<nIDEvent>
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Specifies a nonzero timer-event identifier if the <hwnd> parameter
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is not NULL.
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<wElapse>
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Specifies the elapsed time (in milliseconds) between timer
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events.
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<lpTimerFunc>
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Is the procedure-instance address of the function to be
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notified when the timer event takes place. If <lpTimerFunc> is NULL, the
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WM_TIMER message is placed in the application queue, and the %hwnd%
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member of the %MSG% structure contains the <hwnd> parameter given in the
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%SetTimer% function call. See the following Comments section for
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details.
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The return value specifies the integer identifier for the new timer event.
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If the <hwnd> parameter is NULL, an application passes this value to the
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%KillTimer% function to kill the timer event. The return value is zero if
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the timer was not created.
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Timers are a limited global resource; therefore, it is important that an
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application check the value returned by the %SetTimer% function to verify
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that a timer is actually available.
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To install a timer function, %SetTimer% must receive a procedure-instance
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address of the function, and the function must be exported in the
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application's module-definition file. A procedure-instance address can be
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created using the %MakeProcInstance% function.
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The callback function must use the Pascal calling convention and must be
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declared %FAR%.
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Callback Function:
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WORD FAR PASCAL <TimerFunc>(<hwnd>, <wMsg>, <nIDEvent>, <dwTime>)
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HWND <hwnd>;
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WORD <wMsg>;
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int <nIDEvent>;
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DWORD <dwTime>;
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<TimerFunc> is a placeholder for the application-supplied function name. The
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actual name must be exported by including it in an %EXPORTS% statement in
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the application's module-definition file.
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<hwnd>
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Identifies the window associated with the timer event.
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<wMsg>
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Specifies the WM_TIMER message.
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<nIDEvent>
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Specifies the timer's ID.
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<dwTime>
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Specifies the current system time.
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--*/
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ULONG FASTCALL WU32SetTimer(PVDMFRAME pFrame)
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{
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ULONG ul;
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register PTMR ptmr;
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register PSETTIMER16 parg16;
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HWND16 hwnd16;
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WORD wIDEvent;
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WORD wElapse;
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DWORD vpfnTimerProc;
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DWORD dwTimerProc32;
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HAND16 htask16;
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INT iTimer;
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GETARGPTR(pFrame, sizeof(SETTIMER16), parg16);
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ul = 0;
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htask16 = CURRENTPTD()->htask16;
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hwnd16 = (HWND16)parg16->f1;
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wIDEvent = parg16->f2;
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wElapse = parg16->f3;
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// Don't allow WOW apps to set a timer with a period of less than
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// 55 ms. Myst and Winstone depend on this.
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if (wElapse < 55) wElapse = 55;
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vpfnTimerProc = VPFN32(parg16->f4);
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ptmr = IsDuplicateTimer16(hwnd16, htask16, wIDEvent);
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if (!ptmr) {
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// Loop through the slots in the timer array
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iTimer = 2;
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while (iTimer < NUMEL(aptmrWOWTimers)) {
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/*
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** Find a slot in the arrays for which
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** no pointer has yet been allocated.
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*/
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if ( !aptmrWOWTimers[iTimer] ) {
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//
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// See if there is already thunking information for this
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// timer. If there is, delete it from the list of timer
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// info and re-use its memory because this new timer
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// superceeds the old thunking information.
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//
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ptmr = FindKilledTimer16(hwnd16, htask16, wIDEvent);
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if (ptmr) {
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RemoveEntryList(&ptmr->TmrList);
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} else {
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// Allocate a TMR structure for the new timer
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ptmr = malloc_w(sizeof(TMR));
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}
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aptmrWOWTimers[iTimer] = ptmr;
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if (!ptmr) {
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LOGDEBUG(LOG_ALWAYS,(" WOW32 ERROR: TMR allocation failure\n"));
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return 0;
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}
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break; // Fall out into initialization code
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}
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iTimer++;
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}
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if (iTimer >= NUMEL(aptmrWOWTimers)) {
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LOGDEBUG(LOG_ALWAYS,(" WOW32 ERROR: out of timer slots\n"));
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return 0;
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}
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// Initialize the constant parts of the TMR structure (done on 1st SetTimer)
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InsertHeadList(&TimerList, &ptmr->TmrList);
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ptmr->hwnd16 = hwnd16;
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ptmr->hwnd32 = HWND32(hwnd16);
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ptmr->htask16 = htask16;
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ptmr->wIndex = (WORD)iTimer;
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}
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// Setup the changeable parts of the TMR structure (done for every SetTimer)
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if (vpfnTimerProc) {
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dwTimerProc32 = (DWORD)afnTimerFuncs[ptmr->wIndex];
|
|
} else {
|
|
dwTimerProc32 = (DWORD)NULL;
|
|
}
|
|
|
|
ptmr->vpfnTimerProc = vpfnTimerProc;
|
|
ptmr->dwTimerProc32 = dwTimerProc32;
|
|
|
|
ul = SetTimer(
|
|
ptmr->hwnd32,
|
|
(UINT)wIDEvent,
|
|
(UINT)wElapse,
|
|
(TIMERPROC)dwTimerProc32 );
|
|
|
|
//
|
|
// USER-generated timerID's are between 0x100 and 0x7fff
|
|
//
|
|
|
|
WOW32ASSERT(HIWORD(ul) == 0);
|
|
|
|
if (ul) {
|
|
|
|
ptmr->dwEventID = ul;
|
|
|
|
//
|
|
// when hwnd!=NULL and nEventID==0 the API returns 1 to
|
|
// indicate success but the timer's ID is 0 as requested.
|
|
//
|
|
|
|
if (!wIDEvent && ptmr->hwnd32)
|
|
ptmr->dwEventID = 0;
|
|
|
|
} else {
|
|
|
|
// Since the real SetTimer failed, free
|
|
// our local data using simply our own timer ID
|
|
|
|
FreeTimer16(ptmr);
|
|
}
|
|
|
|
FREEARGPTR(parg16);
|
|
RETURN(ul);
|
|
}
|
|
|
|
|
|
VOID CALLBACK W32Timer1(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(1, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer2(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(2, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer3(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(3, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer4(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(4, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer5(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(5, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer6(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(6, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer7(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(7, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer8(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(8, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer9(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(9, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer10(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(10, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer11(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(11, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer12(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(12, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer13(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(13, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer14(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(14, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer15(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(15, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer16(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(16, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer17(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(17, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer18(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(18, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer19(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(19, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer20(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(20, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer21(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(21, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer22(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(22, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer23(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(23, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer24(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(24, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer25(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(25, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer26(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(26, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer27(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(27, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer28(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(28, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer29(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(29, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer30(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(30, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer31(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(31, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer32(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(32, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer33(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(33, hwnd, idEvent, dwTime);
|
|
}
|
|
|
|
VOID CALLBACK W32Timer34(HWND hwnd, UINT msg, UINT idEvent, DWORD dwTime)
|
|
{
|
|
WOW32ASSERT(msg == WM_TIMER);
|
|
W32TimerFunc(34, hwnd, idEvent, dwTime);
|
|
}
|