int have_sent_ICS_logon = 0;
int movesPerSession;
int suddenDeath, whiteStartMove, blackStartMove; /* [HGM] for implementation of 'any per time' sessions, as in first part of byoyomi TC */
-long whiteTimeRemaining, blackTimeRemaining, timeControl, timeIncrement, lastWhite, lastBlack;
+long whiteTimeRemaining, blackTimeRemaining, timeControl, timeIncrement, lastWhite, lastBlack, activePartnerTime;
Boolean adjustedClock;
long timeControl_2; /* [AS] Allow separate time controls */
-char *fullTimeControlString = NULL, *nextSession, *whiteTC, *blackTC; /* [HGM] secondary TC: merge of MPS, TC and inc */
+char *fullTimeControlString = NULL, *nextSession, *whiteTC, *blackTC, activePartner; /* [HGM] secondary TC: merge of MPS, TC and inc */
long timeRemaining[2][MAX_MOVES];
int matchGame = 0, nextGame = 0, roundNr = 0;
Boolean waitingForGame = FALSE;
if((gameMode == IcsPlayingWhite || gameMode == IcsPlayingBlack)
&& newGameMode == IcsObserving && gamenum != ics_gamenum && appData.bgObserve) {
// [HGM] bughouse: don't act on alien boards while we play. Just parse the board and save it */
+ int fac = strchr(elapsed_time, '.') ? 1 : 1000;
char *toSqr;
for (k = 0; k < ranks; k++) {
for (j = 0; j < files; j++)
if(twoBoards) { partnerUp = 1; flipView = !flipView; } // [HGM] dual
if(partnerUp) DrawPosition(FALSE, partnerBoard);
if(twoBoards) {
- DisplayWhiteClock(white_time, to_play == 'W');
- DisplayBlackClock(black_time, to_play != 'W');
+ DisplayWhiteClock(white_time*fac, to_play == 'W');
+ DisplayBlackClock(black_time*fac, to_play != 'W');
+ activePartner = to_play;
+ activePartnerTime = to_play == 'W' ? white_time*fac : black_time*fac;
partnerUp = 0; flipView = !flipView; } // [HGM] dual
- snprintf(partnerStatus, MSG_SIZ,"W: %d:%02d B: %d:%02d (%d-%d) %c", white_time/60000, (white_time%60000)/1000,
- (black_time/60000), (black_time%60000)/1000, white_stren, black_stren, to_play);
+ snprintf(partnerStatus, MSG_SIZ,"W: %d:%02d B: %d:%02d (%d-%d) %c", white_time*fac/60000, (white_time*fac%60000)/1000,
+ (black_time*fac/60000), (black_time*fac%60000)/1000, white_stren, black_stren, to_play);
DisplayMessage(partnerStatus, "");
partnerBoardValid = TRUE;
return;
MarkTargetSquares (int clear)
{
int x, y;
+ if(clear) // no reason to ever suppress clearing
+ for(x=0; x<BOARD_WIDTH; x++) for(y=0; y<BOARD_HEIGHT; y++) marker[y][x] = 0;
if(!appData.markers || !appData.highlightDragging || appData.icsActive && gameInfo.variant < VariantShogi ||
!appData.testLegality || gameMode == EditPosition) return;
- if(clear) {
- for(x=0; x<BOARD_WIDTH; x++) for(y=0; y<BOARD_HEIGHT; y++) marker[y][x] = 0;
- } else {
+ if(!clear) {
int capt = 0;
GenLegal(boards[currentMove], PosFlags(currentMove), Mark, (void*) marker, EmptySquare);
if(PosFlags(0) & F_MANDATORY_CAPTURE) {
return bookHit; // notify caller of hit, so it can take action to send move to opponent
}
+int
+LoadError (char *errmess, ChessProgramState *cps)
+{ // unloads engine and switches back to -ncp mode if it was first
+ if(cps->initDone) return FALSE;
+ cps->isr = NULL; // this should suppress further error popups from breaking pipes
+ DestroyChildProcess(cps->pr, 9 ); // just to be sure
+ cps->pr = NoProc;
+ if(cps == &first) {
+ appData.noChessProgram = TRUE;
+ gameMode = MachinePlaysBlack; ModeHighlight(); // kludge to unmark Machine Black menu
+ gameMode = BeginningOfGame; ModeHighlight();
+ SetNCPMode();
+ }
+ if(GetDelayedEvent()) CancelDelayedEvent(), ThawUI(); // [HGM] cancel remaining loading effort scheduled after feature timeout
+ DisplayMessage("", ""); // erase waiting message
+ if(errmess) DisplayError(errmess, 0); // announce reason, if given
+ return TRUE;
+}
+
char *savedMessage;
ChessProgramState *savedState;
void
ChessMove moveType;
char promoChar;
char *p, *pv=buf1;
- int machineWhite;
+ int machineWhite, oldError;
char *bookHit;
if(cps == &pairing && sscanf(message, "%d-%d", &savedWhitePlayer, &savedBlackPlayer) == 2) {
return; // Skim the pairing messages here.
}
- cps->userError = 0;
+ oldError = cps->userError; cps->userError = 0;
FakeBookMove: // [HGM] book: we jump here to simulate machine moves after book hit
/*
_(cps->which), cps->program, cps->host, message);
RemoveInputSource(cps->isr);
if(appData.icsActive) DisplayFatalError(buf1, 0, 1); else {
- cps->isr = NULL;
- DestroyChildProcess(cps->pr, 9 ); // just to be sure
- cps->pr = NoProc;
- if(cps == &first) {
- appData.noChessProgram = TRUE;
- gameMode = MachinePlaysBlack; ModeHighlight(); // kludge to unmark Machine Black menu
- gameMode = BeginningOfGame; ModeHighlight();
- SetNCPMode();
- }
- if(GetDelayedEvent()) CancelDelayedEvent(), ThawUI(); // [HGM] cancel remaining loading effort scheduled after feature timeout
- DisplayMessage("", ""); // erase waiting message
- DisplayError(buf1, 0);
+ if(LoadError(oldError ? NULL : buf1, cps)) return; // error has then been handled by LoadError
+ if(!oldError) DisplayError(buf1, 0); // if reason neatly announced, suppress general error popup
}
return;
}
if (count <= 0) {
if (count == 0) {
RemoveInputSource(cps->isr);
- if(!cps->initDone) return; // [HGM] should not generate fatal error during engine load
snprintf(buf, MSG_SIZ, _("Error: %s chess program (%s) exited unexpectedly"),
_(cps->which), cps->program);
- if(gameInfo.resultDetails==NULL) { /* [HGM] crash: if game in progress, give reason for abort */
+ if(LoadError(cps->userError ? NULL : buf, cps)) return; // [HGM] should not generate fatal error during engine load
+ if(gameInfo.resultDetails==NULL) { /* [HGM] crash: if game in progress, give reason for abort */
if((signed char)boards[forwardMostMove][EP_STATUS] <= EP_DRAWS) {
snprintf(buf, MSG_SIZ, _("%s program exits in draw position (%s)"), _(cps->which), cps->program);
if(matchMode && appData.tourneyFile[0]) { cps->pr = NoProc; GameEnds(GameIsDrawn, buf, GE_XBOARD); return; }
}
if (CheckFlags()) return;
+ if(twoBoards) { // count down secondary board's clocks as well
+ activePartnerTime -= lastTickLength;
+ partnerUp = 1;
+ if(activePartner == 'W')
+ DisplayWhiteClock(activePartnerTime, TRUE); // the counting clock is always the highlighted one!
+ else
+ DisplayBlackClock(activePartnerTime, TRUE);
+ partnerUp = 0;
+ }
+
tickStartTM = now;
intendedTickLength = NextTickLength(timeRemaining - fudge) + fudge;
StartClockTimer(intendedTickLength);