* Massachusetts.
*
* Enhancements Copyright 1992-2001, 2002, 2003, 2004, 2005, 2006,
- * 2007, 2008, 2009, 2010, 2011 Free Software Foundation, Inc.
+ * 2007, 2008, 2009, 2010, 2011, 2012 Free Software Foundation, Inc.
*
* Enhancements Copyright 2005 Alessandro Scotti
*
#endif
-/* A point in time */
-typedef struct {
- long sec; /* Assuming this is >= 32 bits */
- int ms; /* Assuming this is >= 16 bits */
-} TimeMark;
-
int establish P((void));
void read_from_player P((InputSourceRef isr, VOIDSTAR closure,
char *buf, int count, int error));
int LoadGameFromFile P((char *filename, int n, char *title, int useList));
int LoadPositionFromFile P((char *filename, int n, char *title));
int SavePositionToFile P((char *filename));
-void ApplyMove P((int fromX, int fromY, int toX, int toY, int promoChar,
- Board board));
void MakeMove P((int fromX, int fromY, int toX, int toY, int promoChar));
void ShowMove P((int fromX, int fromY, int toX, int toY));
int FinishMove P((ChessMove moveType, int fromX, int fromY, int toX, int toY,
void ResetClocks P((void));
char *PGNDate P((void));
void SetGameInfo P((void));
-Boolean ParseFEN P((Board board, int *blackPlaysFirst, char *fen));
int RegisterMove P((void));
void MakeRegisteredMove P((void));
void TruncateGame P((void));
char *SavePart P((char *));
int SaveGameOldStyle P((FILE *));
int SaveGamePGN P((FILE *));
-void GetTimeMark P((TimeMark *));
-long SubtractTimeMarks P((TimeMark *, TimeMark *));
int CheckFlags P((void));
long NextTickLength P((long));
void CheckTimeControl P((void));
#define TN_PORT 23
char*
-safeStrCpy( char *dst, const char *src, size_t count )
+safeStrCpy (char *dst, const char *src, size_t count)
{ // [HGM] made safe
int i;
assert( dst != NULL );
* We used this for all compiler
*/
double
-u64ToDouble(u64 value)
+u64ToDouble (u64 value)
{
double r;
u64 tmp = value & u64Const(0x7fffffffffffffff);
by this function.
*/
int
-PosFlags(index)
+PosFlags (index)
{
int flags = F_ALL_CASTLE_OK;
if ((index % 2) == 0) flags |= F_WHITE_ON_MOVE;
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;
+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 */
long timeRemaining[2][MAX_MOVES];
"++++", etc. Also strips ()'s */
int
-string_to_rating(str)
- char *str;
+string_to_rating (char *str)
{
while(*str && !isdigit(*str)) ++str;
if (!*str)
}
void
-ClearProgramStats()
+ClearProgramStats ()
{
/* Init programStats */
programStats.movelist[0] = 0;
}
void
-CommonEngineInit()
+CommonEngineInit ()
{ // [HGM] moved some code here from InitBackend1 that has to be done after both engines have contributed their settings
if (appData.firstPlaysBlack) {
first.twoMachinesColor = "black\n";
}
void
-UnloadEngine(ChessProgramState *cps)
+UnloadEngine (ChessProgramState *cps)
{
/* Kill off first chess program */
if (cps->isr != NULL)
}
void
-ClearOptions(ChessProgramState *cps)
+ClearOptions (ChessProgramState *cps)
{
int i;
cps->nrOptions = cps->comboCnt = 0;
};
void
-InitEngine(ChessProgramState *cps, int n)
+InitEngine (ChessProgramState *cps, int n)
{ // [HGM] all engine initialiation put in a function that does one engine
ClearOptions(cps);
len = snprintf(buf, MSG_SIZ, _("protocol version %d not supported"),
appData.protocolVersion[n]);
- if( (len > MSG_SIZ) && appData.debugMode )
+ if( (len >= MSG_SIZ) && appData.debugMode )
fprintf(debugFP, "InitBackEnd1: buffer truncated.\n");
DisplayFatalError(buf, 0, 2);
}
InitEngineUCI( installDir, cps ); // [HGM] moved here from winboard.c, to make available in xboard
+ ParseFeatures(appData.featureDefaults, cps);
}
ChessProgramState *savCps;
void
-LoadEngine()
+LoadEngine ()
{
int i;
if(WaitForEngine(savCps, LoadEngine)) return;
}
void
-ReplaceEngine(ChessProgramState *cps, int n)
+ReplaceEngine (ChessProgramState *cps, int n)
{
EditGameEvent();
UnloadEngine(cps);
static char resetOptions[] =
"-reuse -firstIsUCI false -firstHasOwnBookUCI true -firstTimeOdds 1 "
+ "-firstInitString \"" INIT_STRING "\" -firstComputerString \"" COMPUTER_STRING "\" "
"-firstOptions \"\" -firstNPS -1 -fn \"\"";
void
-Load(ChessProgramState *cps, int i)
+Load (ChessProgramState *cps, int i)
{
char *p, *q, buf[MSG_SIZ], command[MSG_SIZ], buf2[MSG_SIZ];
if(engineLine && engineLine[0]) { // an engine was selected from the combo box
}
void
-InitTimeControls()
+InitTimeControls ()
{
int matched, min, sec;
/*
}
void
-InitBackEnd1()
+InitBackEnd1 ()
{
ShowThinkingEvent(); // [HGM] thinking: make sure post/nopost state is set according to options
case VariantKriegspiel: /* need to hide pieces and move details */
/* case VariantFischeRandom: (Fabien: moved below) */
len = snprintf(buf,MSG_SIZ, _("Variant %s supported only in ICS mode"), appData.variant);
- if( (len > MSG_SIZ) && appData.debugMode )
+ if( (len >= MSG_SIZ) && appData.debugMode )
fprintf(debugFP, "InitBackEnd1: buffer truncated.\n");
DisplayFatalError(buf, 0, 2);
case Variant36:
default:
len = snprintf(buf, MSG_SIZ, _("Unknown variant name %s"), appData.variant);
- if( (len > MSG_SIZ) && appData.debugMode )
+ if( (len >= MSG_SIZ) && appData.debugMode )
fprintf(debugFP, "InitBackEnd1: buffer truncated.\n");
DisplayFatalError(buf, 0, 2);
}
-int NextIntegerFromString( char ** str, long * value )
+int
+NextIntegerFromString (char ** str, long * value)
{
int result = -1;
char * s = *str;
return result;
}
-int NextTimeControlFromString( char ** str, long * value )
+int
+NextTimeControlFromString (char ** str, long * value)
{
long temp;
int result = NextIntegerFromString( str, &temp );
return result;
}
-int NextSessionFromString( char ** str, int *moves, long * tc, long *inc, int *incType)
+int
+NextSessionFromString (char ** str, int *moves, long * tc, long *inc, int *incType)
{ /* [HGM] routine added to read '+moves/time' for secondary time control. */
int result = -1, type = 0; long temp, temp2;
return result;
}
-int GetTimeQuota(int movenr, int lastUsed, char *tcString)
+int
+GetTimeQuota (int movenr, int lastUsed, char *tcString)
{ /* [HGM] get time to add from the multi-session time-control string */
int incType, moves=1; /* kludge to force reading of first session */
long time, increment;
}
int
-ParseTimeControl(tc, ti, mps)
- char *tc;
- float ti;
- int mps;
+ParseTimeControl (char *tc, float ti, int mps)
{
long tc1;
long tc2;
}
void
-InitBackEnd2()
+InitBackEnd2 ()
{
if (appData.debugMode) {
fprintf(debugFP, "%s\n", programVersion);
}
int
-CalculateIndex(int index, int gameNr)
+CalculateIndex (int index, int gameNr)
{ // [HGM] autoinc: absolute way to determine load index from game number (taking auto-inc and rewind into account)
int res;
if(index > 0) return index; // fixed nmber
}
int
-LoadGameOrPosition(int gameNr)
+LoadGameOrPosition (int gameNr)
{ // [HGM] taken out of MatchEvent and NextMatchGame (to combine it)
if (*appData.loadGameFile != NULLCHAR) {
if (!LoadGameFromFile(appData.loadGameFile,
}
void
-ReserveGame(int gameNr, char resChar)
+ReserveGame (int gameNr, char resChar)
{
FILE *tf = fopen(appData.tourneyFile, "r+");
char *p, *q, c, buf[MSG_SIZ];
}
void
-MatchEvent(int mode)
+MatchEvent (int mode)
{ // [HGM] moved out of InitBackend3, to make it callable when match starts through menu
int dummy;
if(matchMode) { // already in match mode: switch it off
len = snprintf(buf, MSG_SIZ, _("Could not connect to host %s, port %s"),
appData.icsHost, appData.icsPort);
- if( (len > MSG_SIZ) && appData.debugMode )
+ if( (len >= MSG_SIZ) && appData.debugMode )
fprintf(debugFP, "InitBackEnd3: buffer truncated.\n");
DisplayFatalError(buf, err, 1);
initialMode = Training;
} else {
len = snprintf(buf, MSG_SIZ, _("Unknown initialMode %s"), appData.initialMode);
- if( (len > MSG_SIZ) && appData.debugMode )
+ if( (len >= MSG_SIZ) && appData.debugMode )
fprintf(debugFP, "InitBackEnd3: buffer truncated.\n");
DisplayFatalError(buf, 0, 2);
}
void
-HistorySet( char movelist[][2*MOVE_LEN], int first, int last, int current )
+HistorySet (char movelist[][2*MOVE_LEN], int first, int last, int current)
{
DisplayBook(current+1);
* Returns 0 if okay, error code if not.
*/
int
-establish()
+establish ()
{
char buf[MSG_SIZ];
}
}
-void EscapeExpand(char *p, char *q)
+void
+EscapeExpand (char *p, char *q)
{ // [HGM] initstring: routine to shape up string arguments
while(*p++ = *q++) if(p[-1] == '\\')
switch(*q++) {
}
void
-show_bytes(fp, buf, count)
- FILE *fp;
- char *buf;
- int count;
+show_bytes (FILE *fp, char *buf, int count)
{
while (count--) {
if (*buf < 040 || *(unsigned char *) buf > 0177) {
/* Returns an errno value */
int
-OutputMaybeTelnet(pr, message, count, outError)
- ProcRef pr;
- char *message;
- int count;
- int *outError;
+OutputMaybeTelnet (ProcRef pr, char *message, int count, int *outError)
{
char buf[8192], *p, *q, *buflim;
int left, newcount, outcount;
}
void
-read_from_player(isr, closure, message, count, error)
- InputSourceRef isr;
- VOIDSTAR closure;
- char *message;
- int count;
- int error;
+read_from_player (InputSourceRef isr, VOIDSTAR closure, char *message, int count, int error)
{
int outError, outCount;
static int gotEof = 0;
}
void
-KeepAlive()
+KeepAlive ()
{ // [HGM] alive: periodically send dummy (date) command to ICS to prevent time-out
if(!connectionAlive) DisplayFatalError("No response from ICS", 0, 1);
connectionAlive = FALSE; // only sticks if no response to 'date' command.
}
/* added routine for printf style output to ics */
-void ics_printf(char *format, ...)
+void
+ics_printf (char *format, ...)
{
char buffer[MSG_SIZ];
va_list args;
}
void
-SendToICS(s)
- char *s;
+SendToICS (char *s)
{
int count, outCount, outError;
- if (icsPR == NULL) return;
+ if (icsPR == NoProc) return;
count = strlen(s);
outCount = OutputMaybeTelnet(icsPR, s, count, &outError);
without a delay causes problems when using timestamp on ICC
(at least on my machine). */
void
-SendToICSDelayed(s,msdelay)
- char *s;
- long msdelay;
+SendToICSDelayed (char *s, long msdelay)
{
int count, outCount, outError;
- if (icsPR == NULL) return;
+ if (icsPR == NoProc) return;
count = strlen(s);
if (appData.debugMode) {
Also deletes any suffix starting with '('
*/
char *
-StripHighlightAndTitle(s)
- char *s;
+StripHighlightAndTitle (char *s)
{
static char retbuf[MSG_SIZ];
char *p = retbuf;
/* Remove all highlighting escape sequences in s */
char *
-StripHighlight(s)
- char *s;
+StripHighlight (char *s)
{
static char retbuf[MSG_SIZ];
char *p = retbuf;
char *variantNames[] = VARIANT_NAMES;
char *
-VariantName(v)
- VariantClass v;
+VariantName (VariantClass v)
{
return variantNames[v];
}
/* Identify a variant from the strings the chess servers use or the
PGN Variant tag names we use. */
VariantClass
-StringToVariant(e)
- char *e;
+StringToVariant (char *e)
{
char *p;
int wnum = -1;
break;
default:
len = snprintf(buf, MSG_SIZ, _("Unknown wild type %d"), wnum);
- if( (len > MSG_SIZ) && appData.debugMode )
+ if( (len >= MSG_SIZ) && appData.debugMode )
fprintf(debugFP, "StringToVariant: buffer truncated.\n");
DisplayError(buf, 0);
copied into star_match.
*/
int
-looking_at(buf, index, pattern)
- char *buf;
- int *index;
- char *pattern;
+looking_at ( char *buf, int *index, char *pattern)
{
char *bufp = &buf[*index], *patternp = pattern;
int star_count = 0;
}
void
-SendToPlayer(data, length)
- char *data;
- int length;
+SendToPlayer (char *data, int length)
{
int error, outCount;
outCount = OutputToProcess(NoProc, data, length, &error);
}
void
-PackHolding(packed, holding)
- char packed[];
- char *holding;
+PackHolding (char packed[], char *holding)
{
char *p = holding;
char *q = packed;
/* Telnet protocol requests from the front end */
void
-TelnetRequest(ddww, option)
- unsigned char ddww, option;
+TelnetRequest (unsigned char ddww, unsigned char option)
{
unsigned char msg[3];
int outCount, outError;
}
void
-DoEcho()
+DoEcho ()
{
if (!appData.icsActive) return;
TelnetRequest(TN_DO, TN_ECHO);
}
void
-DontEcho()
+DontEcho ()
{
if (!appData.icsActive) return;
TelnetRequest(TN_DONT, TN_ECHO);
}
void
-CopyHoldings(Board board, char *holdings, ChessSquare lowestPiece)
+CopyHoldings (Board board, char *holdings, ChessSquare lowestPiece)
{
/* put the holdings sent to us by the server on the board holdings area */
int i, j, holdingsColumn, holdingsStartRow, direction, countsColumn;
void
-VariantSwitch(Board board, VariantClass newVariant)
+VariantSwitch (Board board, VariantClass newVariant)
{
int newHoldingsWidth, newWidth = 8, newHeight = 8, i, j;
static Board oldBoard;
extern int squareSize, lineGap;
void
-PlotSeekAd(int i)
+PlotSeekAd (int i)
{
int x, y, color = 0, r = ratingList[i]; float tc = tcList[i];
xList[i] = yList[i] = -100; // outside graph, so cannot be clicked
}
void
-AddAd(char *handle, char *rating, int base, int inc, char rated, char *type, int nr, Boolean plot)
+AddAd (char *handle, char *rating, int base, int inc, char rated, char *type, int nr, Boolean plot)
{
char buf[MSG_SIZ], *ext = "";
VariantClass v = StringToVariant(type);
}
void
-EraseSeekDot(int i)
+EraseSeekDot (int i)
{
int x = xList[i], y = yList[i], d=squareSize/4, k;
DrawSeekBackground(x-squareSize/8, y-squareSize/8, x+squareSize/8+1, y+squareSize/8+1);
}
void
-RemoveSeekAd(int nr)
+RemoveSeekAd (int nr)
{
int i;
for(i=0; i<nrOfSeekAds; i++) if(seekNrList[i] == nr) {
}
Boolean
-MatchSoughtLine(char *line)
+MatchSoughtLine (char *line)
{
char handle[MSG_SIZ], rating[MSG_SIZ], type[MSG_SIZ];
int nr, base, inc, u=0; char dummy;
}
int
-DrawSeekGraph()
+DrawSeekGraph ()
{
int i;
if(!seekGraphUp) return FALSE;
return TRUE;
}
-int SeekGraphClick(ClickType click, int x, int y, int moving)
+int
+SeekGraphClick (ClickType click, int x, int y, int moving)
{
static int lastDown = 0, displayed = 0, lastSecond;
if(!seekGraphUp) { // initiate cration of seek graph by requesting seek-ad list
}
void
-read_from_ics(isr, closure, data, count, error)
- InputSourceRef isr;
- VOIDSTAR closure;
- char *data;
- int count;
- int error;
+read_from_ics (InputSourceRef isr, VOIDSTAR closure, char *data, int count, int error)
{
#define BUF_SIZE (16*1024) /* overflowed at 8K with "inchannel 1" on FICS? */
#define STARTED_NONE 0
OutputKibitz(suppressKibitz, parse);
} else {
char tmp[MSG_SIZ];
+ if(gameMode == IcsObserving) // restore original ICS messages
+ snprintf(tmp, MSG_SIZ, "%s kibitzes: %s", star_match[0], parse);
+ else
snprintf(tmp, MSG_SIZ, _("your opponent kibitzes: %s"), parse);
SendToPlayer(tmp, strlen(tmp));
}
if (appData.autoKibitz && started == STARTED_NONE &&
!appData.icsEngineAnalyze && // [HGM] [DM] ICS analyze
(gameMode == IcsPlayingWhite || gameMode == IcsPlayingBlack || gameMode == IcsObserving)) {
- if((looking_at(buf, &i, "* kibitzes: ") || looking_at(buf, &i, "* whispers: ")) &&
+ if((looking_at(buf, &i, "\n* kibitzes: ") || looking_at(buf, &i, "\n* whispers: ") ||
+ looking_at(buf, &i, "* kibitzes: ") || looking_at(buf, &i, "* whispers: ")) &&
(StrStr(star_match[0], gameInfo.white) == star_match[0] ||
StrStr(star_match[0], gameInfo.black) == star_match[0] )) { // kibitz of self or opponent
suppressKibitz = TRUE;
}
} // [HGM] kibitz: end of patch
+ if(looking_at(buf, &i, "* rating adjustment: * --> *\n")) continue;
+
// [HGM] chat: intercept tells by users for which we have an open chat window
channel = -1;
if(started == STARTED_NONE && (looking_at(buf, &i, "* tells you:") || looking_at(buf, &i, "* says:") ||
if (looking_at(buf, &i, "% ") ||
((started == STARTED_MOVES || started == STARTED_MOVES_NOHIDE)
&& looking_at(buf, &i, "}*"))) { char *bookHit = NULL; // [HGM] book
- if(ics_type == ICS_ICC && soughtPending) { // [HGM] seekgraph: on ICC sought-list has no termination line
+ if(soughtPending) { // [HGM] seekgraph: on ICC sought-list has no termination line
soughtPending = FALSE;
seekGraphUp = TRUE;
DrawSeekGraph();
flipView = appData.flipView;
DrawPosition(TRUE, boards[currentMove]);
DisplayBothClocks();
- snprintf(str, MSG_SIZ, "%s vs. %s",
- gameInfo.white, gameInfo.black);
+ snprintf(str, MSG_SIZ, "%s %s %s",
+ gameInfo.white, _("vs."), gameInfo.black);
DisplayTitle(str);
gameMode = IcsIdle;
} else {
strncmp(why, "Continuing ", 11) == 0) {
gs_gamenum = gamenum;
safeStrCpy(gs_kind, strchr(why, ' ') + 1,sizeof(gs_kind)/sizeof(gs_kind[0]));
+ if(ics_gamenum == -1) // [HGM] only if we are not already involved in a game (because gin=1 sends us such messages)
VariantSwitch(boards[currentMove], StringToVariant(gs_kind)); // [HGM] variantswitch: even before we get first board
#if ZIPPY
if (appData.zippyPlay) {
#if ZIPPY
if (appData.zippyPlay && first.initDone) {
ZippyGameEnd(endtype, why);
- if (first.pr == NULL) {
+ if (first.pr == NoProc) {
/* Start the next process early so that we'll
be ready for the next challenge */
StartChessProgram(&first);
char wh[16], bh[16];
PackHolding(wh, white_holding);
PackHolding(bh, black_holding);
- snprintf(str, MSG_SIZ,"[%s-%s] %s-%s", wh, bh,
+ snprintf(str, MSG_SIZ, "[%s-%s] %s-%s", wh, bh,
gameInfo.white, gameInfo.black);
} else {
- snprintf(str, MSG_SIZ, "%s [%s] vs. %s [%s]",
- gameInfo.white, white_holding,
+ snprintf(str, MSG_SIZ, "%s [%s] %s %s [%s]",
+ gameInfo.white, white_holding, _("vs."),
gameInfo.black, black_holding);
}
if(!partnerUp) // [HGM] bughouse: when peeking at partner game we already know what he captured...
#define RELATION_STARTING_POSITION -4 /* FICS only */
void
-ParseBoard12(string)
- char *string;
+ParseBoard12 (char *string)
{
GameMode newGameMode;
int gamenum, newGame, newMove, relation, basetime, increment, ics_flip = 0, i;
board[k][1] = board[k][BOARD_WIDTH-2] = (ChessSquare) 0;;
}
}
+ if(moveNum==0 && gameInfo.variant == VariantSChess) {
+ board[5][BOARD_RGHT+1] = WhiteAngel;
+ board[6][BOARD_RGHT+1] = WhiteMarshall;
+ board[1][0] = BlackMarshall;
+ board[2][0] = BlackAngel;
+ board[1][1] = board[2][1] = board[5][BOARD_RGHT] = board[6][BOARD_RGHT] = 1;
+ }
CopyBoard(boards[moveNum], board);
boards[moveNum][HOLDINGS_SET] = 0; // [HGM] indicate holdings not set
if (moveNum == 0) {
if(board[BOARD_HEIGHT-1][i] == BlackRook) j = i;
initialRights[4] = boards[moveNum][CASTLING][4] = (castle_bl == 0 && gameInfo.variant != VariantFischeRandom ? NoRights : j);
+ boards[moveNum][CASTLING][2] = boards[moveNum][CASTLING][5] = NoRights;
if(gameInfo.variant == VariantKnightmate) { wKing = WhiteUnicorn; bKing = BlackUnicorn; }
for(k=BOARD_LEFT; k<BOARD_RGHT; k++)
if(board[0][k] == wKing) initialRights[2] = boards[moveNum][CASTLING][2] = k;
strcat(moveList[moveNum - 1], "\n");
if(gameInfo.holdingsWidth && !appData.disguise && gameInfo.variant != VariantSuper && gameInfo.variant != VariantGreat
- && gameInfo.variant != VariantGrand) // inherit info that ICS does not give from previous board
+ && gameInfo.variant != VariantGrand&& gameInfo.variant != VariantSChess) // inherit info that ICS does not give from previous board
for(k=0; k<ranks; k++) for(j=BOARD_LEFT; j<BOARD_RGHT; j++) {
ChessSquare old, new = boards[moveNum][k][j];
if(fromY == DROP_RANK && k==toY && j==toX) continue; // dropped pieces always stand for themselves
basetime, increment, (int) gameInfo.variant);
} else {
if(gameInfo.variant == VariantNormal)
- snprintf(str, MSG_SIZ, "%s (%d) vs. %s (%d) {%d %d}",
- gameInfo.white, white_stren, gameInfo.black, black_stren,
+ snprintf(str, MSG_SIZ, "%s (%d) %s %s (%d) {%d %d}",
+ gameInfo.white, white_stren, _("vs."), gameInfo.black, black_stren,
basetime, increment);
else
- snprintf(str, MSG_SIZ, "%s (%d) vs. %s (%d) {%d %d %s}",
- gameInfo.white, white_stren, gameInfo.black, black_stren,
+ snprintf(str, MSG_SIZ, "%s (%d) %s %s (%d) {%d %d %s}",
+ gameInfo.white, white_stren, _("vs."), gameInfo.black, black_stren,
basetime, increment, VariantName(gameInfo.variant));
}
DisplayTitle(str);
}
void
-GetMoveListEvent()
+GetMoveListEvent ()
{
char buf[MSG_SIZ];
if (appData.icsActive && gameMode != IcsIdle && ics_gamenum > 0) {
}
void
-AnalysisPeriodicEvent(force)
- int force;
+AnalysisPeriodicEvent (int force)
{
if (((programStats.ok_to_send == 0 || programStats.line_is_book)
&& !force) || !appData.periodicUpdates)
programStats.ok_to_send = 0;
}
-void ics_update_width(new_width)
- int new_width;
+void
+ics_update_width (int new_width)
{
ics_printf("set width %d\n", new_width);
}
void
-SendMoveToProgram(moveNum, cps)
- int moveNum;
- ChessProgramState *cps;
+SendMoveToProgram (int moveNum, ChessProgramState *cps)
{
char buf[MSG_SIZ];
}
void
-SendMoveToICS(moveType, fromX, fromY, toX, toY, promoChar)
- ChessMove moveType;
- int fromX, fromY, toX, toY;
- char promoChar;
+SendMoveToICS (ChessMove moveType, int fromX, int fromY, int toX, int toY, char promoChar)
{
char user_move[MSG_SIZ];
+ char suffix[4];
+
+ if(gameInfo.variant == VariantSChess && promoChar) {
+ snprintf(suffix, 4, "=%c", toX == BOARD_WIDTH<<1 ? ToUpper(promoChar) : ToLower(promoChar));
+ if(moveType == NormalMove) moveType = WhitePromotion; // kludge to do gating
+ } else suffix[0] = NULLCHAR;
switch (moveType) {
default:
case WhiteHSideCastleFR:
case BlackHSideCastleFR:
/* POP Fabien */
- snprintf(user_move, MSG_SIZ, "o-o\n");
+ snprintf(user_move, MSG_SIZ, "o-o%s\n", suffix);
break;
case WhiteQueenSideCastle:
case BlackQueenSideCastle:
case WhiteASideCastleFR:
case BlackASideCastleFR:
/* POP Fabien */
- snprintf(user_move, MSG_SIZ, "o-o-o\n");
+ snprintf(user_move, MSG_SIZ, "o-o-o%s\n",suffix);
break;
case WhiteNonPromotion:
case BlackNonPromotion:
}
void
-UploadGameEvent()
+UploadGameEvent ()
{ // [HGM] upload: send entire stored game to ICS as long-algebraic moves.
int i, last = forwardMostMove; // make sure ICS reply cannot pre-empt us by clearing fmm
static char *castlingStrings[4] = { "none", "kside", "qside", "both" };
if(gameMode == IcsObserving || gameMode == IcsPlayingBlack || gameMode == IcsPlayingWhite) {
- DisplayError("You cannot do this while you are playing or observing", 0);
- return;
+ DisplayError(_("You cannot do this while you are playing or observing"), 0);
+ return;
}
if(gameMode != IcsExamining) { // is this ever not the case?
char buf[MSG_SIZ], *p, *fen, command[MSG_SIZ], bsetup = 0;
}
void
-CoordsToComputerAlgebraic(rf, ff, rt, ft, promoChar, move)
- int rf, ff, rt, ft;
- char promoChar;
- char move[7];
+CoordsToComputerAlgebraic (int rf, int ff, int rt, int ft, char promoChar, char move[7])
{
if (rf == DROP_RANK) {
if(ff == EmptySquare) sprintf(move, "@@@@\n"); else // [HGM] pass
}
void
-ProcessICSInitScript(f)
- FILE *f;
+ProcessICSInitScript (FILE *f)
{
char buf[MSG_SIZ];
static int lastX, lastY, selectFlag, dragging;
void
-Sweep(int step)
+Sweep (int step)
{
ChessSquare king = WhiteKing, pawn = WhitePawn, last = promoSweep;
if(gameInfo.variant == VariantKnightmate) king = WhiteUnicorn;
else if((int)promoSweep == -1) promoSweep = WhiteKing;
else if(promoSweep == BlackPawn && step < 0) promoSweep = WhitePawn;
else if(promoSweep == WhiteKing && step > 0) promoSweep = BlackKing;
- if(!step) step = 1;
+ if(!step) step = -1;
} while(PieceToChar(promoSweep) == '.' || PieceToChar(promoSweep) == '~' || promoSweep == pawn ||
appData.testLegality && (promoSweep == king ||
gameInfo.variant == VariantShogi && promoSweep != PROMOTED last && last != PROMOTED promoSweep && last != promoSweep));
ChangeDragPiece(promoSweep);
}
-int PromoScroll(int x, int y)
+int
+PromoScroll (int x, int y)
{
int step = 0;
}
void
-NextPiece(int step)
+NextPiece (int step)
{
ChessSquare piece = boards[currentMove][toY][toX];
do {
}
/* [HGM] Shogi move preprocessor: swap digits for letters, vice versa */
void
-AlphaRank(char *move, int n)
+AlphaRank (char *move, int n)
{
// char *p = move, c; int x, y;
/* Parser for moves from gnuchess, ICS, or user typein box */
Boolean
-ParseOneMove(move, moveNum, moveType, fromX, fromY, toX, toY, promoChar)
- char *move;
- int moveNum;
- ChessMove *moveType;
- int *fromX, *fromY, *toX, *toY;
- char *promoChar;
+ParseOneMove (char *move, int moveNum, ChessMove *moveType, int *fromX, int *fromY, int *toX, int *toY, char *promoChar)
{
*moveType = yylexstr(moveNum, move, yy_textstr, sizeof yy_textstr);
char *lastParseAttempt;
void
-ParsePV(char *pv, Boolean storeComments, Boolean atEnd)
+ParsePV (char *pv, Boolean storeComments, Boolean atEnd)
{ // Parse a string of PV moves, and append to current game, behind forwardMostMove
int fromX, fromY, toX, toY; char promoChar;
ChessMove moveType;
}
int
-MultiPV(ChessProgramState *cps)
+MultiPV (ChessProgramState *cps)
{ // check if engine supports MultiPV, and if so, return the number of the option that sets it
int i;
for(i=0; i<cps->nrOptions; i++)
}
Boolean
-LoadMultiPV(int x, int y, char *buf, int index, int *start, int *end)
+LoadMultiPV (int x, int y, char *buf, int index, int *start, int *end)
{
int startPV, multi, lineStart, origIndex = index;
char *p, buf2[MSG_SIZ];
}
char *
-PvToSAN(char *pv)
+PvToSAN (char *pv)
{
static char buf[10*MSG_SIZ];
- int i, k=0, savedEnd=endPV;
+ int i, k=0, savedEnd=endPV, saveFMM = forwardMostMove;
*buf = NULLCHAR;
if(forwardMostMove < endPV) PushInner(forwardMostMove, endPV);
ParsePV(pv, FALSE, 2); // this appends PV to game, suppressing any display of it
k += strlen(buf+k);
}
snprintf(buf+k, 10*MSG_SIZ-k, "%s", lastParseAttempt); // if we ran into stuff that could not be parsed, print it verbatim
- if(forwardMostMove < savedEnd) PopInner(0);
+ if(forwardMostMove < savedEnd) { PopInner(0); forwardMostMove = saveFMM; } // PopInner would set fmm to endPV!
endPV = savedEnd;
return buf;
}
Boolean
-LoadPV(int x, int y)
+LoadPV (int x, int y)
{ // called on right mouse click to load PV
int which = gameMode == TwoMachinesPlay && (WhiteOnMove(forwardMostMove) == (second.twoMachinesColor[0] == 'w'));
lastX = x; lastY = y;
}
void
-UnLoadPV()
+UnLoadPV ()
{
int oldFMM = forwardMostMove; // N.B.: this was currentMove before PV was loaded!
if(endPV < 0) return;
}
void
-MovePV(int x, int y, int h)
+MovePV (int x, int y, int h)
{ // step through PV based on mouse coordinates (called on mouse move)
int margin = h>>3, step = 0, threshold = (pieceSweep == EmptySquare ? 10 : 15);
int piecesLeft[(int)BlackPawn];
int seed, nrOfShuffles;
-void GetPositionNumber()
+void
+GetPositionNumber ()
{ // sets global variable seed
int i;
}
}
-int put(Board board, int pieceType, int rank, int n, int shade)
+int
+put (Board board, int pieceType, int rank, int n, int shade)
// put the piece on the (n-1)-th empty squares of the given shade
{
int i;
}
-void AddOnePiece(Board board, int pieceType, int rank, int shade)
+void
+AddOnePiece (Board board, int pieceType, int rank, int shade)
// calculate where the next piece goes, (any empty square), and put it there
{
int i;
put(board, pieceType, rank, i, shade);
}
-void AddTwoPieces(Board board, int pieceType, int rank)
+void
+AddTwoPieces (Board board, int pieceType, int rank)
// calculate where the next 2 identical pieces go, (any empty square), and put it there
{
int i, n=squaresLeft[ANY], j=n-1, k;
put(board, pieceType, rank, i, ANY);
}
-void SetUpShuffle(Board board, int number)
+void
+SetUpShuffle (Board board, int number)
{
int i, p, first=1;
if(number >= 0) appData.defaultFrcPosition %= nrOfShuffles; // normalize
}
-int SetCharTable( char *table, const char * map )
+int
+SetCharTable (char *table, const char * map)
/* [HGM] moved here from winboard.c because of its general usefulness */
/* Basically a safe strcpy that uses the last character as King */
{
return result;
}
-void Prelude(Board board)
+void
+Prelude (Board board)
{ // [HGM] superchess: random selection of exo-pieces
int i, j, k; ChessSquare p;
static ChessSquare exoPieces[4] = { WhiteAngel, WhiteMarshall, WhiteSilver, WhiteLance };
}
void
-InitPosition(redraw)
- int redraw;
+InitPosition (int redraw)
{
ChessSquare (* pieces)[BOARD_FILES];
int i, j, pawnRow, overrule,
}
void
-SendBoard(cps, moveNum)
- ChessProgramState *cps;
- int moveNum;
+SendBoard (ChessProgramState *cps, int moveNum)
{
char message[MSG_SIZ];
} else {
ChessSquare *bp;
- int i, j;
+ int i, j, left=0, right=BOARD_WIDTH;
/* Kludge to set black to move, avoiding the troublesome and now
* deprecated "black" command.
*/
if (!WhiteOnMove(moveNum)) // [HGM] but better a deprecated command than an illegal move...
SendToProgram(boards[0][1][BOARD_LEFT] == WhitePawn ? "a2a3\n" : "black\n", cps);
+ if(!cps->extendedEdit) left = BOARD_LEFT, right = BOARD_RGHT; // only board proper
+
SendToProgram("edit\n", cps);
SendToProgram("#\n", cps);
for (i = BOARD_HEIGHT - 1; i >= 0; i--) {
- bp = &boards[moveNum][i][BOARD_LEFT];
- for (j = BOARD_LEFT; j < BOARD_RGHT; j++, bp++) {
+ bp = &boards[moveNum][i][left];
+ for (j = left; j < right; j++, bp++) {
+ if(j == BOARD_LEFT-1 || j == BOARD_RGHT) continue;
if ((int) *bp < (int) BlackPawn) {
- snprintf(message, MSG_SIZ, "%c%c%c\n", PieceToChar(*bp),
- AAA + j, ONE + i);
+ if(j == BOARD_RGHT+1)
+ snprintf(message, MSG_SIZ, "%c@%d\n", PieceToChar(*bp), bp[-1]);
+ else snprintf(message, MSG_SIZ, "%c%c%c\n", PieceToChar(*bp), AAA + j, ONE + i);
if(message[0] == '+' || message[0] == '~') {
snprintf(message, MSG_SIZ,"%c%c%c+\n",
PieceToChar((ChessSquare)(DEMOTED *bp)),
SendToProgram("c\n", cps);
for (i = BOARD_HEIGHT - 1; i >= 0; i--) {
- bp = &boards[moveNum][i][BOARD_LEFT];
- for (j = BOARD_LEFT; j < BOARD_RGHT; j++, bp++) {
+ bp = &boards[moveNum][i][left];
+ for (j = left; j < right; j++, bp++) {
+ if(j == BOARD_LEFT-1 || j == BOARD_RGHT) continue;
if (((int) *bp != (int) EmptySquare)
&& ((int) *bp >= (int) BlackPawn)) {
- snprintf(message,MSG_SIZ, "%c%c%c\n", ToUpper(PieceToChar(*bp)),
+ if(j == BOARD_LEFT-2)
+ snprintf(message, MSG_SIZ, "%c@%d\n", ToUpper(PieceToChar(*bp)), bp[1]);
+ else snprintf(message,MSG_SIZ, "%c%c%c\n", ToUpper(PieceToChar(*bp)),
AAA + j, ONE + i);
if(message[0] == '+' || message[0] == '~') {
snprintf(message, MSG_SIZ,"%c%c%c+\n",
}
ChessSquare
-DefaultPromoChoice(int white)
+DefaultPromoChoice (int white)
{
ChessSquare result;
if(gameInfo.variant == VariantShatranj || gameInfo.variant == VariantCourier || gameInfo.variant == VariantMakruk)
static int autoQueen; // [HGM] oneclick
int
-HasPromotionChoice(int fromX, int fromY, int toX, int toY, char *promoChoice, int sweepSelect)
+HasPromotionChoice (int fromX, int fromY, int toX, int toY, char *promoChoice, int sweepSelect)
{
/* [HGM] rewritten IsPromotion to only flag promotions that offer a choice */
/* [HGM] add Shogi promotions */
}
int
-InPalace(row, column)
- int row, column;
+InPalace (int row, int column)
{ /* [HGM] for Xiangqi */
if( (row < 3 || row > BOARD_HEIGHT-4) &&
column < (BOARD_WIDTH + 4)/2 &&
}
int
-PieceForSquare (x, y)
- int x;
- int y;
+PieceForSquare (int x, int y)
{
if (x < 0 || x >= BOARD_WIDTH || y < 0 || y >= BOARD_HEIGHT)
return -1;
}
int
-OKToStartUserMove(x, y)
- int x, y;
+OKToStartUserMove (int x, int y)
{
ChessSquare from_piece;
int white_piece;
}
Boolean
-OnlyMove(int *x, int *y, Boolean captures) {
+OnlyMove (int *x, int *y, Boolean captures)
+{
DisambiguateClosure cl;
if (appData.zippyPlay || !appData.testLegality) return FALSE;
switch(gameMode) {
ChessMove lastLoadGameStart = EndOfFile;
void
-UserMoveEvent(fromX, fromY, toX, toY, promoChar)
- int fromX, fromY, toX, toY;
- int promoChar;
+UserMoveEvent(int fromX, int fromY, int toX, int toY, int promoChar)
{
ChessMove moveType;
ChessSquare pdown, pup;
/* Common tail of UserMoveEvent and DropMenuEvent */
int
-FinishMove(moveType, fromX, fromY, toX, toY, promoChar)
- ChessMove moveType;
- int fromX, fromY, toX, toY;
- /*char*/int promoChar;
+FinishMove (ChessMove moveType, int fromX, int fromY, int toX, int toY, int promoChar)
{
char *bookHit = 0;
gameMode = MachinePlaysBlack;
StartClocks();
SetGameInfo();
- snprintf(buf, MSG_SIZ, "%s vs. %s", gameInfo.white, gameInfo.black);
+ snprintf(buf, MSG_SIZ, "%s %s %s", gameInfo.white, _("vs."), gameInfo.black);
DisplayTitle(buf);
if (first.sendName) {
snprintf(buf, MSG_SIZ,"name %s\n", gameInfo.white);
}
void
-Mark(board, flags, kind, rf, ff, rt, ft, closure)
- Board board;
- int flags;
- ChessMove kind;
- int rf, ff, rt, ft;
- VOIDSTAR closure;
+Mark (Board board, int flags, ChessMove kind, int rf, int ff, int rt, int ft, VOIDSTAR closure)
{
typedef char Markers[BOARD_RANKS][BOARD_FILES];
Markers *m = (Markers *) closure;
}
void
-MarkTargetSquares(int clear)
+MarkTargetSquares (int clear)
{
int x, y;
if(!appData.markers || !appData.highlightDragging || appData.icsActive && gameInfo.variant < VariantShogi ||
}
int
-Explode(Board board, int fromX, int fromY, int toX, int toY)
+Explode (Board board, int fromX, int fromY, int toX, int toY)
{
if(gameInfo.variant == VariantAtomic &&
(board[toY][toX] != EmptySquare || // capture?
ChessSquare gatingPiece = EmptySquare; // exported to front-end, for dragging
-int CanPromote(ChessSquare piece, int y)
+int
+CanPromote (ChessSquare piece, int y)
{
if(gameMode == EditPosition) return FALSE; // no promotions when editing position
// some variants have fixed promotion piece, no promotion at all, or another selection mechanism
piece == WhiteLance && y == BOARD_HEIGHT-2 );
}
-void LeftClick(ClickType clickType, int xPix, int yPix)
+void
+LeftClick (ClickType clickType, int xPix, int yPix)
{
int x, y;
Boolean saveAnimate;
}
}
-int RightClick(ClickType action, int x, int y, int *fromX, int *fromY)
+int
+RightClick (ClickType action, int x, int y, int *fromX, int *fromY)
{ // front-end-free part taken out of PieceMenuPopup
int whichMenu; int xSqr, ySqr;
return whichMenu;
}
-void SendProgramStatsToFrontend( ChessProgramState * cps, ChessProgramStats * cpstats )
+void
+SendProgramStatsToFrontend (ChessProgramState * cps, ChessProgramStats * cpstats)
{
// char * hint = lastHint;
FrontEndProgramStats stats;
}
void
-ClearEngineOutputPane(int which)
+ClearEngineOutputPane (int which)
{
static FrontEndProgramStats dummyStats;
dummyStats.which = which;
#define MAXPLAYERS 500
char *
-TourneyStandings(int display)
+TourneyStandings (int display)
{
int i, w, b, color, wScore, bScore, dummy, nr=0, nPlayers=0;
int score[MAXPLAYERS], ranking[MAXPLAYERS], points[MAXPLAYERS], games[MAXPLAYERS];
}
void
-Count(Board board, int pCnt[], int *nW, int *nB, int *wStale, int *bStale, int *bishopColor)
+Count (Board board, int pCnt[], int *nW, int *nB, int *wStale, int *bStale, int *bishopColor)
{ // count all piece types
int p, f, r;
*nB = *nW = *wStale = *bStale = *bishopColor = 0;
}
int
-SufficientDefence(int pCnt[], int side, int nMine, int nHis)
+SufficientDefence (int pCnt[], int side, int nMine, int nHis)
{
int myPawns = pCnt[WhitePawn+side]; // my total Pawn count;
int majorDefense = pCnt[BlackRook-side] + pCnt[BlackCannon-side] + pCnt[BlackKnight-side];
}
int
-MatingPotential(int pCnt[], int side, int nMine, int nHis, int stale, int bisColor)
+MatingPotential (int pCnt[], int side, int nMine, int nHis, int stale, int bisColor)
{
VariantClass v = gameInfo.variant;
}
int
-CompareWithRights(Board b1, Board b2)
+CompareWithRights (Board b1, Board b2)
{
int rights = 0;
if(!CompareBoards(b1, b2)) return FALSE;
}
int
-Adjudicate(ChessProgramState *cps)
+Adjudicate (ChessProgramState *cps)
{ // [HGM] some adjudications useful with buggy engines
// [HGM] adjudicate: made into separate routine, which now can be called after every move
// In any case it determnes if the game is a claimable draw (filling in EP_STATUS).
hisPerpetual = PerpetualChase(k, forwardMostMove);
ourPerpetual = PerpetualChase(k+1, forwardMostMove);
if(ourPerpetual && !hisPerpetual) { // we are actively chasing him: forfeit
+ static char resdet[MSG_SIZ];
result = WhiteOnMove(forwardMostMove) ? WhiteWins : BlackWins;
- details = "Xboard adjudication: perpetual chasing";
+ details = resdet;
+ snprintf(resdet, MSG_SIZ, "Xboard adjudication: perpetual chasing of %c%c", ourPerpetual>>8, ourPerpetual&255);
} else
if(hisPerpetual && !ourPerpetual) // he is chasing us, but did not repeat yet
break; // Abort repetition-checking loop.
return 0;
}
-char *SendMoveToBookUser(int moveNr, ChessProgramState *cps, int initial)
+char *
+SendMoveToBookUser (int moveNr, ChessProgramState *cps, int initial)
{ // [HGM] book: this routine intercepts moves to simulate book replies
char *bookHit = NULL;
char *savedMessage;
ChessProgramState *savedState;
-void DeferredBookMove(void)
+void
+DeferredBookMove (void)
{
if(savedState->lastPing != savedState->lastPong)
ScheduleDelayedEvent(DeferredBookMove, 10);
static int savedWhitePlayer, savedBlackPlayer, pairingReceived;
void
-HandleMachineMove(message, cps)
- char *message;
- ChessProgramState *cps;
+HandleMachineMove (char *message, ChessProgramState *cps)
{
char machineMove[MSG_SIZ], buf1[MSG_SIZ*10], buf2[MSG_SIZ];
char realname[MSG_SIZ];
return; // [HGM] This return was missing, causing option features to be recognized as non-compliant commands!
}
- if (!appData.testLegality && !strncmp(message, "setup ", 6)) { // [HGM] allow first engine to define opening position
+ if ((!appData.testLegality || gameInfo.variant == VariantFairy) &&
+ !strncmp(message, "setup ", 6)) { // [HGM] allow first engine to define opening position
int dummy, s=6; char buf[MSG_SIZ];
- if(appData.icsActive || forwardMostMove != 0 || cps != &first || startedFromSetupPosition) return;
+ if(appData.icsActive || forwardMostMove != 0 || cps != &first) return;
if(sscanf(message, "setup (%s", buf) == 1) s = 8 + strlen(buf), buf[s-9] = NULLCHAR, SetCharTable(pieceToChar, buf);
+ if(startedFromSetupPosition) return;
ParseFEN(boards[0], &dummy, message+s);
DrawPosition(TRUE, boards[0]);
startedFromSetupPosition = TRUE;
parseList[currentMove], _(cps->which));
DisplayMoveError(buf1);
DrawPosition(FALSE, boards[currentMove]);
+
+ SetUserThinkingEnables();
return;
}
if (strncmp(message, "time", 4) == 0 && StrStr(message, "Illegal")) {
if(f = fopen(buf, "w")) { // export PV to applicable PV file
fprintf(f, "%5.2f/%-2d %s", curscore/100., plylev, pv);
fclose(f);
- } else DisplayError("failed writing PV", 0);
+ } else DisplayError(_("failed writing PV"), 0);
}
tempStats.depth = plylev;
The display is not updated in any way.
*/
void
-ParseGameHistory(game)
- char *game;
+ParseGameHistory (char *game)
{
ChessMove moveType;
int fromX, fromY, toX, toY, boardIndex;
/* Apply a move to the given board */
void
-ApplyMove(fromX, fromY, toX, toY, promoChar, board)
- int fromX, fromY, toX, toY;
- int promoChar;
- Board board;
+ApplyMove (int fromX, int fromY, int toX, int toY, int promoChar, Board board)
{
ChessSquare captured = board[toY][toX], piece, king; int p, oldEP = EP_NONE, berolina = 0;
int promoRank = gameInfo.variant == VariantMakruk || gameInfo.variant == VariantGrand ? 3 : 1;
/* Updates forwardMostMove */
void
-MakeMove(fromX, fromY, toX, toY, promoChar)
- int fromX, fromY, toX, toY;
- int promoChar;
+MakeMove (int fromX, int fromY, int toX, int toY, int promoChar)
{
// forwardMostMove++; // [HGM] bare: moved downstream
SwitchClocks(forwardMostMove+1); // [HGM] race: incrementing move nr inside
timeRemaining[0][forwardMostMove] = whiteTimeRemaining;
timeRemaining[1][forwardMostMove] = blackTimeRemaining;
+ adjustedClock = FALSE;
gameInfo.result = GameUnfinished;
if (gameInfo.resultDetails != NULL) {
free(gameInfo.resultDetails);
/* Updates currentMove if not pausing */
void
-ShowMove(fromX, fromY, toX, toY)
+ShowMove (int fromX, int fromY, int toX, int toY)
{
int instant = (gameMode == PlayFromGameFile) ?
(matchMode || (appData.timeDelay == 0 && !pausing)) : pausing;
HistorySet(parseList,backwardMostMove,forwardMostMove,currentMove-1);
}
-void SendEgtPath(ChessProgramState *cps)
+void
+SendEgtPath (ChessProgramState *cps)
{ /* [HGM] EGT: match formats given in feature with those given by user, and send info for each match */
char buf[MSG_SIZ], name[MSG_SIZ], *p;
}
void
-InitChessProgram(cps, setup)
- ChessProgramState *cps;
- int setup; /* [HGM] needed to setup FRC opening position */
+InitChessProgram (ChessProgramState *cps, int setup)
+/* setup needed to setup FRC opening position */
{
char buf[MSG_SIZ], b[MSG_SIZ]; int overruled;
if (appData.noChessProgram) return;
hintRequested = FALSE;
bookRequested = FALSE;
+ ParseFeatures(appData.features[cps == &second], cps); // [HGM] allow user to overrule features
/* [HGM] some new WB protocol commands to configure engine are sent now, if engine supports them */
/* moved to before sending initstring in 4.3.15, so Polyglot can delay UCI 'isready' to recepton of 'new' */
if(cps->memSize) { /* [HGM] memory */
void
-StartChessProgram(cps)
- ChessProgramState *cps;
+StartChessProgram (ChessProgramState *cps)
{
char buf[MSG_SIZ];
int err;
}
char *
-MakeName(char *template)
+MakeName (char *template)
{
time_t clock;
struct tm *tm;
}
int
-CountPlayers(char *p)
+CountPlayers (char *p)
{
int n = 0;
while(p = strchr(p, '\n')) p++, n++; // count participants
}
FILE *
-WriteTourneyFile(char *results, FILE *f)
+WriteTourneyFile (char *results, FILE *f)
{ // write tournament parameters on tourneyFile; on success return the stream pointer for closing
if(f == NULL) f = fopen(appData.tourneyFile, "w");
if(f == NULL) DisplayError(_("Could not write on tourney file"), 0); else {
fprintf(f, "-loadPositionFile \"%s\"\n", appData.loadPositionFile);
fprintf(f, "-loadPositionIndex %d\n", appData.loadPositionIndex);
fprintf(f, "-rewindIndex %d\n", appData.rewindIndex);
+ fprintf(f, "-discourageOwnBooks %s\n", appData.defNoBook ? "true" : "false");
if(searchTime > 0)
fprintf(f, "-searchTime \"%d:%02d\"\n", searchTime/60, searchTime%60);
else {
#define MAXENGINES 1000
char *command[MAXENGINES], *mnemonic[MAXENGINES];
-void Substitute(char *participants, int expunge)
+void
+Substitute (char *participants, int expunge)
{
int i, changed, changes=0, nPlayers=0;
char *p, *q, *r, buf[MSG_SIZ];
}
int
-CreateTourney(char *name)
+CreateTourney (char *name)
{
FILE *f;
if(matchMode && strcmp(name, appData.tourneyFile)) {
return 1;
}
-void NamesToList(char *names, char **engineList, char **engineMnemonic)
+void
+NamesToList (char *names, char **engineList, char **engineMnemonic)
{
char buf[MSG_SIZ], *p, *q;
int i=1;
// following implemented as macro to avoid type limitations
#define SWAP(item, temp) temp = appData.item[0]; appData.item[0] = appData.item[n]; appData.item[n] = temp;
-void SwapEngines(int n)
+void
+SwapEngines (int n)
{ // swap settings for first engine and other engine (so far only some selected options)
int h;
char *p;
SWAP(logo, p)
SWAP(pgnName, p)
SWAP(pvSAN, h)
+ SWAP(engOptions, p)
}
void
-SetPlayer(int player)
+SetPlayer (int player)
{ // [HGM] find the engine line of the partcipant given by number, and parse its options.
int i;
char buf[MSG_SIZ], *engineName, *p = appData.participants;
if(mnemonic[i]) {
snprintf(buf, MSG_SIZ, "-fcp %s", command[i]);
ParseArgsFromString(resetOptions); appData.fenOverride[0] = NULL; appData.pvSAN[0] = FALSE;
+ appData.firstHasOwnBookUCI = !appData.defNoBook;
ParseArgsFromString(buf);
}
free(engineName);
}
int
-Pairing(int nr, int nPlayers, int *whitePlayer, int *blackPlayer, int *syncInterval)
+Pairing (int nr, int nPlayers, int *whitePlayer, int *blackPlayer, int *syncInterval)
{ // determine players from game number
int curCycle, curRound, curPairing, gamesPerCycle, gamesPerRound, roundsPerCycle=1, pairingsPerRound=1;
}
int
-NextTourneyGame(int nr, int *swapColors)
+NextTourneyGame (int nr, int *swapColors)
{ // !!!major kludge!!! fiddle appData settings to get everything in order for next tourney game
char *p, *q;
int whitePlayer, blackPlayer, firstBusy=1000000000, syncInterval = 0, nPlayers;
matchGame = 1; roundNr = nr / syncInterval + 1;
}
- if(first.pr != NoProc) return 1; // engines already loaded
+ if(first.pr != NoProc || second.pr != NoProc) return 1; // engines already loaded
// redefine engines, engine dir, etc.
NamesToList(firstChessProgramNames, command, mnemonic); // get mnemonics of installed engines
}
void
-NextMatchGame()
+NextMatchGame ()
{ // performs game initialization that does not invoke engines, and then tries to start the game
int res, firstWhite, swapColors = 0;
if(!NextTourneyGame(nextGame, &swapColors)) return; // this sets matchGame, -fcp / -scp and other options for next game, if needed
TwoMachinesEvent();
}
-void UserAdjudicationEvent( int result )
+void
+UserAdjudicationEvent (int result)
{
ChessMove gameResult = GameIsDrawn;
// [HGM] save: calculate checksum of game to make games easily identifiable
-int StringCheckSum(char *s)
+int
+StringCheckSum (char *s)
{
int i = 0;
if(s==NULL) return 0;
return i;
}
-int GameCheckSum()
+int
+GameCheckSum ()
{
int i, sum=0;
for(i=backwardMostMove; i<forwardMostMove; i++) {
} // end of save patch
void
-GameEnds(result, resultDetails, whosays)
- ChessMove result;
- char *resultDetails;
- int whosays;
+GameEnds (ChessMove result, char *resultDetails, int whosays)
{
GameMode nextGameMode;
int isIcsGame;
first.matchWins, second.matchWins,
appData.matchGames - (first.matchWins + second.matchWins));
if(!appData.tourneyFile[0]) matchGame++, DisplayTwoMachinesTitle(); // [HGM] update result in window title
+ if(ranking && strcmp(ranking, "busy") && appData.afterTourney && appData.afterTourney[0]) RunCommand(appData.afterTourney);
popupRequested++; // [HGM] crash: postpone to after resetting endingGame
if (appData.firstPlaysBlack) { // [HGM] match: back to original for next match
first.twoMachinesColor = "black\n";
/* Assumes program was just initialized (initString sent).
Leaves program in force mode. */
void
-FeedMovesToProgram(cps, upto)
- ChessProgramState *cps;
- int upto;
+FeedMovesToProgram (ChessProgramState *cps, int upto)
{
int i;
int
-ResurrectChessProgram()
+ResurrectChessProgram ()
{
/* The chess program may have exited.
If so, restart it and feed it all the moves made so far. */
* Button procedures
*/
void
-Reset(redraw, init)
- int redraw, init;
+Reset (int redraw, int init)
{
int i;
ModeHighlight();
if(appData.icsActive) gameInfo.variant = VariantNormal;
currentMove = forwardMostMove = backwardMostMove = 0;
+ MarkTargetSquares(1);
InitPosition(redraw);
for (i = 0; i < MAX_MOVES; i++) {
if (commentList[i] != NULL) {
timeRemaining[0][0] = whiteTimeRemaining;
timeRemaining[1][0] = blackTimeRemaining;
- if (first.pr == NULL) {
+ if (first.pr == NoProc) {
StartChessProgram(&first);
}
if (init) {
}
void
-AutoPlayGameLoop()
+AutoPlayGameLoop ()
{
for (;;) {
if (!AutoPlayOneMove())
int
-AutoPlayOneMove()
+AutoPlayOneMove ()
{
int fromX, fromY, toX, toY;
int
-LoadGameOneMove(readAhead)
- ChessMove readAhead;
+LoadGameOneMove (ChessMove readAhead)
{
int fromX = 0, fromY = 0, toX = 0, toY = 0, done;
char promoChar = NULLCHAR;
/* Load the nth game from the given file */
int
-LoadGameFromFile(filename, n, title, useList)
- char *filename;
- int n;
- char *title;
- /*Boolean*/ int useList;
+LoadGameFromFile (char *filename, int n, char *title, int useList)
{
FILE *f;
char buf[MSG_SIZ];
void
-MakeRegisteredMove()
+MakeRegisteredMove ()
{
int fromX, fromY, toX, toY;
char promoChar;
/* Wrapper around LoadGame for use when a Cmail message is loaded */
int
-CmailLoadGame(f, gameNumber, title, useList)
- FILE *f;
- int gameNumber;
- char *title;
- int useList;
+CmailLoadGame (FILE *f, int gameNumber, char *title, int useList)
{
int retVal;
/* Support for LoadNextGame, LoadPreviousGame, ReloadSameGame */
int
-ReloadGame(offset)
- int offset;
+ReloadGame (int offset)
{
int gameNumber = lastLoadGameNumber + offset;
if (lastLoadGameFP == NULL) {
int keys[EmptySquare+1];
int
-PositionMatches(Board b1, Board b2)
+PositionMatches (Board b1, Board b2)
{
int r, f, sum=0;
switch(appData.searchMode) {
return TRUE;
}
+#define Q_PROMO 4
+#define Q_EP 3
+#define Q_BCASTL 2
+#define Q_WCASTL 1
+
+int pieceList[256], quickBoard[256];
+ChessSquare pieceType[256] = { EmptySquare };
+Board soughtBoard, reverseBoard, flipBoard, rotateBoard;
+int counts[EmptySquare], minSought[EmptySquare], minReverse[EmptySquare], maxSought[EmptySquare], maxReverse[EmptySquare];
+int soughtTotal, turn;
+Boolean epOK, flipSearch;
+
+typedef struct {
+ unsigned char piece, to;
+} Move;
+
+#define DSIZE (250000)
+
+Move initialSpace[DSIZE+1000]; // gamble on that game will not be more than 500 moves
+Move *moveDatabase = initialSpace;
+unsigned int movePtr, dataSize = DSIZE;
+
+int
+MakePieceList (Board board, int *counts)
+{
+ int r, f, n=Q_PROMO, total=0;
+ for(r=0;r<EmptySquare;r++) counts[r] = 0; // piece-type counts
+ for(r=0; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<BOARD_RGHT; f++) {
+ int sq = f + (r<<4);
+ if(board[r][f] == EmptySquare) quickBoard[sq] = 0; else {
+ quickBoard[sq] = ++n;
+ pieceList[n] = sq;
+ pieceType[n] = board[r][f];
+ counts[board[r][f]]++;
+ if(board[r][f] == WhiteKing) pieceList[1] = n; else
+ if(board[r][f] == BlackKing) pieceList[2] = n; // remember which are Kings, for castling
+ total++;
+ }
+ }
+ epOK = gameInfo.variant != VariantXiangqi && gameInfo.variant != VariantBerolina;
+ return total;
+}
+
+void
+PackMove (int fromX, int fromY, int toX, int toY, ChessSquare promoPiece)
+{
+ int sq = fromX + (fromY<<4);
+ int piece = quickBoard[sq];
+ quickBoard[sq] = 0;
+ moveDatabase[movePtr].to = pieceList[piece] = sq = toX + (toY<<4);
+ if(piece == pieceList[1] && fromY == toY && (toX > fromX+1 || toX < fromX-1) && fromX != BOARD_LEFT && fromX != BOARD_RGHT-1) {
+ int from = toX>fromX ? BOARD_RGHT-1 : BOARD_LEFT;
+ moveDatabase[movePtr++].piece = Q_WCASTL;
+ quickBoard[sq] = piece;
+ piece = quickBoard[from]; quickBoard[from] = 0;
+ moveDatabase[movePtr].to = pieceList[piece] = sq = toX>fromX ? sq-1 : sq+1;
+ } else
+ if(piece == pieceList[2] && fromY == toY && (toX > fromX+1 || toX < fromX-1) && fromX != BOARD_LEFT && fromX != BOARD_RGHT-1) {
+ int from = (toX>fromX ? BOARD_RGHT-1 : BOARD_LEFT) + (BOARD_HEIGHT-1 <<4);
+ moveDatabase[movePtr++].piece = Q_BCASTL;
+ quickBoard[sq] = piece;
+ piece = quickBoard[from]; quickBoard[from] = 0;
+ moveDatabase[movePtr].to = pieceList[piece] = sq = toX>fromX ? sq-1 : sq+1;
+ } else
+ if(epOK && (pieceType[piece] == WhitePawn || pieceType[piece] == BlackPawn) && fromX != toX && quickBoard[sq] == 0) {
+ quickBoard[(fromY<<4)+toX] = 0;
+ moveDatabase[movePtr].piece = Q_EP;
+ moveDatabase[movePtr++].to = (fromY<<4)+toX;
+ moveDatabase[movePtr].to = sq;
+ } else
+ if(promoPiece != pieceType[piece]) {
+ moveDatabase[movePtr++].piece = Q_PROMO;
+ moveDatabase[movePtr].to = pieceType[piece] = (int) promoPiece;
+ }
+ moveDatabase[movePtr].piece = piece;
+ quickBoard[sq] = piece;
+ movePtr++;
+}
+
+int
+PackGame (Board board)
+{
+ Move *newSpace = NULL;
+ moveDatabase[movePtr].piece = 0; // terminate previous game
+ if(movePtr > dataSize) {
+ if(appData.debugMode) fprintf(debugFP, "move-cache overflow, enlarge to %d MB\n", dataSize/128);
+ dataSize *= 8; // increase size by factor 8 (512KB -> 4MB -> 32MB -> 256MB -> 2GB)
+ if(dataSize) newSpace = (Move*) calloc(dataSize + 1000, sizeof(Move));
+ if(newSpace) {
+ int i;
+ Move *p = moveDatabase, *q = newSpace;
+ for(i=0; i<movePtr; i++) *q++ = *p++; // copy to newly allocated space
+ if(dataSize > 8*DSIZE) free(moveDatabase); // and free old space (if it was allocated)
+ moveDatabase = newSpace;
+ } else { // calloc failed, we must be out of memory. Too bad...
+ dataSize = 0; // prevent calloc events for all subsequent games
+ return 0; // and signal this one isn't cached
+ }
+ }
+ movePtr++;
+ MakePieceList(board, counts);
+ return movePtr;
+}
+
+int
+QuickCompare (Board board, int *minCounts, int *maxCounts)
+{ // compare according to search mode
+ int r, f;
+ switch(appData.searchMode)
+ {
+ case 1: // exact position match
+ if(!(turn & board[EP_STATUS-1])) return FALSE; // wrong side to move
+ for(r=0; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<BOARD_RGHT; f++) {
+ if(board[r][f] != pieceType[quickBoard[(r<<4)+f]]) return FALSE;
+ }
+ break;
+ case 2: // can have extra material on empty squares
+ for(r=0; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<BOARD_RGHT; f++) {
+ if(board[r][f] == EmptySquare) continue;
+ if(board[r][f] != pieceType[quickBoard[(r<<4)+f]]) return FALSE;
+ }
+ break;
+ case 3: // material with exact Pawn structure
+ for(r=0; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<BOARD_RGHT; f++) {
+ if(board[r][f] != WhitePawn && board[r][f] != BlackPawn) continue;
+ if(board[r][f] != pieceType[quickBoard[(r<<4)+f]]) return FALSE;
+ } // fall through to material comparison
+ case 4: // exact material
+ for(r=0; r<EmptySquare; r++) if(counts[r] != maxCounts[r]) return FALSE;
+ break;
+ case 6: // material range with given imbalance
+ for(r=0; r<BlackPawn; r++) if(counts[r] - minCounts[r] != counts[r+BlackPawn] - minCounts[r+BlackPawn]) return FALSE;
+ // fall through to range comparison
+ case 5: // material range
+ for(r=0; r<EmptySquare; r++) if(counts[r] < minCounts[r] || counts[r] > maxCounts[r]) return FALSE;
+ }
+ return TRUE;
+}
+
+int
+QuickScan (Board board, Move *move)
+{ // reconstruct game,and compare all positions in it
+ int cnt=0, stretch=0, total = MakePieceList(board, counts);
+ do {
+ int piece = move->piece;
+ int to = move->to, from = pieceList[piece];
+ if(piece <= Q_PROMO) { // special moves encoded by otherwise invalid piece numbers 1-4
+ if(!piece) return -1;
+ if(piece == Q_PROMO) { // promotion, encoded as (Q_PROMO, to) + (piece, promoType)
+ piece = (++move)->piece;
+ from = pieceList[piece];
+ counts[pieceType[piece]]--;
+ pieceType[piece] = (ChessSquare) move->to;
+ counts[move->to]++;
+ } else if(piece == Q_EP) { // e.p. capture, encoded as (Q_EP, ep-sqr) + (piece, to)
+ counts[pieceType[quickBoard[to]]]--;
+ quickBoard[to] = 0; total--;
+ move++;
+ continue;
+ } else if(piece <= Q_BCASTL) { // castling, encoded as (Q_XCASTL, king-to) + (rook, rook-to)
+ piece = pieceList[piece]; // first two elements of pieceList contain King numbers
+ from = pieceList[piece]; // so this must be King
+ quickBoard[from] = 0;
+ quickBoard[to] = piece;
+ pieceList[piece] = to;
+ move++;
+ continue;
+ }
+ }
+ if(appData.searchMode > 2) counts[pieceType[quickBoard[to]]]--; // account capture
+ if((total -= (quickBoard[to] != 0)) < soughtTotal) return -1; // piece count dropped below what we search for
+ quickBoard[from] = 0;
+ quickBoard[to] = piece;
+ pieceList[piece] = to;
+ cnt++; turn ^= 3;
+ if(QuickCompare(soughtBoard, minSought, maxSought) ||
+ appData.ignoreColors && QuickCompare(reverseBoard, minReverse, maxReverse) ||
+ flipSearch && (QuickCompare(flipBoard, minSought, maxSought) ||
+ appData.ignoreColors && QuickCompare(rotateBoard, minReverse, maxReverse))
+ ) {
+ static int lastCounts[EmptySquare+1];
+ int i;
+ if(stretch) for(i=0; i<EmptySquare; i++) if(lastCounts[i] != counts[i]) { stretch = 0; break; } // reset if material changes
+ if(stretch++ == 0) for(i=0; i<EmptySquare; i++) lastCounts[i] = counts[i]; // remember actual material
+ } else stretch = 0;
+ if(stretch && (appData.searchMode == 1 || stretch >= appData.stretch)) return cnt + 1 - stretch;
+ move++;
+ } while(1);
+}
+
+void
+InitSearch ()
+{
+ int r, f;
+ flipSearch = FALSE;
+ CopyBoard(soughtBoard, boards[currentMove]);
+ soughtTotal = MakePieceList(soughtBoard, maxSought);
+ soughtBoard[EP_STATUS-1] = (currentMove & 1) + 1;
+ if(currentMove == 0 && gameMode == EditPosition) soughtBoard[EP_STATUS-1] = blackPlaysFirst + 1; // (!)
+ CopyBoard(reverseBoard, boards[currentMove]);
+ for(r=0; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<BOARD_RGHT; f++) {
+ int piece = boards[currentMove][BOARD_HEIGHT-1-r][f];
+ if(piece < BlackPawn) piece += BlackPawn; else if(piece < EmptySquare) piece -= BlackPawn; // color-flip
+ reverseBoard[r][f] = piece;
+ }
+ reverseBoard[EP_STATUS-1] = soughtBoard[EP_STATUS-1] ^ 3;
+ for(r=0; r<6; r++) reverseBoard[CASTLING][r] = boards[currentMove][CASTLING][(r+3)%6];
+ if(appData.findMirror && appData.searchMode <= 3 && (!nrCastlingRights
+ || (boards[currentMove][CASTLING][2] == NoRights ||
+ boards[currentMove][CASTLING][0] == NoRights && boards[currentMove][CASTLING][1] == NoRights )
+ && (boards[currentMove][CASTLING][5] == NoRights ||
+ boards[currentMove][CASTLING][3] == NoRights && boards[currentMove][CASTLING][4] == NoRights ) )
+ ) {
+ flipSearch = TRUE;
+ CopyBoard(flipBoard, soughtBoard);
+ CopyBoard(rotateBoard, reverseBoard);
+ for(r=0; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<BOARD_RGHT; f++) {
+ flipBoard[r][f] = soughtBoard[r][BOARD_WIDTH-1-f];
+ rotateBoard[r][f] = reverseBoard[r][BOARD_WIDTH-1-f];
+ }
+ }
+ for(r=0; r<BlackPawn; r++) maxReverse[r] = maxSought[r+BlackPawn], maxReverse[r+BlackPawn] = maxSought[r];
+ if(appData.searchMode >= 5) {
+ for(r=BOARD_HEIGHT/2; r<BOARD_HEIGHT; r++) for(f=BOARD_LEFT; f<BOARD_RGHT; f++) soughtBoard[r][f] = EmptySquare;
+ MakePieceList(soughtBoard, minSought);
+ for(r=0; r<BlackPawn; r++) minReverse[r] = minSought[r+BlackPawn], minReverse[r+BlackPawn] = minSought[r];
+ }
+ if(gameInfo.variant == VariantCrazyhouse || gameInfo.variant == VariantShogi || gameInfo.variant == VariantBughouse)
+ soughtTotal = 0; // in drop games nr of pieces does not fall monotonously
+}
+
GameInfo dummyInfo;
-int GameContainsPosition(FILE *f, ListGame *lg)
+int
+GameContainsPosition (FILE *f, ListGame *lg)
{
int next, btm=0, plyNr=0, scratch=forwardMostMove+2&~1;
int fromX, fromY, toX, toY;
char promoChar;
static int initDone=FALSE;
+ // weed out games based on numerical tag comparison
+ if(lg->gameInfo.variant != gameInfo.variant) return -1; // wrong variant
+ if(appData.eloThreshold1 && (lg->gameInfo.whiteRating < appData.eloThreshold1 && lg->gameInfo.blackRating < appData.eloThreshold1)) return -1;
+ if(appData.eloThreshold2 && (lg->gameInfo.whiteRating < appData.eloThreshold2 || lg->gameInfo.blackRating < appData.eloThreshold2)) return -1;
+ if(appData.dateThreshold && (!lg->gameInfo.date || atoi(lg->gameInfo.date) < appData.dateThreshold)) return -1;
if(!initDone) {
for(next = WhitePawn; next<EmptySquare; next++) keys[next] = random()>>8 ^ random()<<6 ^random()<<20;
initDone = TRUE;
}
- dummyInfo.variant = VariantNormal;
- FREE(dummyInfo.fen); dummyInfo.fen = NULL;
- dummyInfo.whiteRating = 0;
- dummyInfo.blackRating = 0;
- FREE(dummyInfo.date); dummyInfo.date = NULL;
+ if(lg->gameInfo.fen) ParseFEN(boards[scratch], &btm, lg->gameInfo.fen);
+ else CopyBoard(boards[scratch], initialPosition); // default start position
+ if(lg->moves) {
+ turn = btm + 1;
+ if((next = QuickScan( boards[scratch], &moveDatabase[lg->moves] )) < 0) return -1; // quick scan rules out it is there
+ if(appData.searchMode >= 4) return next; // for material searches, trust QuickScan.
+ }
+ if(btm) plyNr++;
+ if(PositionMatches(boards[scratch], boards[currentMove])) return plyNr;
fseek(f, lg->offset, 0);
yynewfile(f);
- CopyBoard(boards[scratch], initialPosition); // default start position
while(1) {
- yyboardindex = scratch + (plyNr&1);
- quickFlag = 1;
+ yyboardindex = scratch;
+ quickFlag = plyNr+1;
next = Myylex();
- quickFlag = 0;
+ quickFlag = 0;
switch(next) {
case PGNTag:
if(plyNr) return -1; // after we have seen moves, any tags will be start of next game
-#if 0
- ParsePGNTag(yy_text, &dummyInfo); // this has a bad memory leak...
- if(dummyInfo.fen) ParseFEN(boards[scratch], &btm, dummyInfo.fen), free(dummyInfo.fen), dummyInfo.fen = NULL;
-#else
- // do it ourselves avoiding malloc
- { char *p = yy_text+1, *q;
- while(!isdigit(*p) && !isalpha(*p)) p++;
- q = p; while(*p != ' ' && *p != '\t' && *p != '\n') p++;
- *p = NULLCHAR;
- if(!StrCaseCmp(q, "Date") && (p = strchr(p+1, '"'))) { if(atoi(p+1) < appData.dateThreshold) return -1; } else
- if(!StrCaseCmp(q, "Variant") && (p = strchr(p+1, '"'))) dummyInfo.variant = StringToVariant(p+1); else
- if(!StrCaseCmp(q, "WhiteElo") && (p = strchr(p+1, '"'))) dummyInfo.whiteRating = atoi(p+1); else
- if(!StrCaseCmp(q, "BlackElo") && (p = strchr(p+1, '"'))) dummyInfo.blackRating = atoi(p+1); else
- if(!StrCaseCmp(q, "WhiteUSCF") && (p = strchr(p+1, '"'))) dummyInfo.whiteRating = atoi(p+1); else
- if(!StrCaseCmp(q, "BlackUSCF") && (p = strchr(p+1, '"'))) dummyInfo.blackRating = atoi(p+1); else
- if(!StrCaseCmp(q, "FEN") && (p = strchr(p+1, '"'))) ParseFEN(boards[scratch], &btm, p+1);
- }
-#endif
default:
continue;
fromY = DROP_RANK;
toX = currentMoveString[2] - AAA;
toY = currentMoveString[3] - ONE;
+ promoChar = 0;
break;
}
// Move encountered; peform it. We need to shuttle between two boards, as even/odd index determines side to move
- if(plyNr == 0) { // but first figure out variant and initial position
- if(dummyInfo.variant != gameInfo.variant) return -1; // wrong variant
- if(appData.eloThreshold1 && (dummyInfo.whiteRating < appData.eloThreshold1 && dummyInfo.blackRating < appData.eloThreshold1)) return -1;
- if(appData.eloThreshold2 && (dummyInfo.whiteRating < appData.eloThreshold2 || dummyInfo.blackRating < appData.eloThreshold2)) return -1;
- if(appData.dateThreshold && (!dummyInfo.date || atoi(dummyInfo.date) < appData.dateThreshold)) return -1;
- if(btm) CopyBoard(boards[scratch+1], boards[scratch]), plyNr++;
- if(PositionMatches(boards[scratch + plyNr], boards[currentMove])) return plyNr;
- }
- CopyBoard(boards[scratch + (plyNr+1&1)], boards[scratch + (plyNr&1)]);
plyNr++;
- ApplyMove(fromX, fromY, toX, toY, promoChar, boards[scratch + (plyNr&1)]);
- if(PositionMatches(boards[scratch + (plyNr&1)], boards[currentMove])) return plyNr;
+ ApplyMove(fromX, fromY, toX, toY, promoChar, boards[scratch]);
+ if(PositionMatches(boards[scratch], boards[currentMove])) return plyNr;
+ if(appData.ignoreColors && PositionMatches(boards[scratch], reverseBoard)) return plyNr;
+ if(appData.findMirror) {
+ if(PositionMatches(boards[scratch], flipBoard)) return plyNr;
+ if(appData.ignoreColors && PositionMatches(boards[scratch], rotateBoard)) return plyNr;
+ }
}
}
/* Load the nth game from open file f */
int
-LoadGame(f, gameNumber, title, useList)
- FILE *f;
- int gameNumber;
- char *title;
- int useList;
+LoadGame (FILE *f, int gameNumber, char *title, int useList)
{
ChessMove cm;
char buf[MSG_SIZ];
yynewfile(f);
if (lg && lg->gameInfo.white && lg->gameInfo.black) {
- snprintf(buf, sizeof(buf), "%s vs. %s", lg->gameInfo.white,
+ snprintf(buf, sizeof(buf), "%s %s %s", lg->gameInfo.white, _("vs."),
lg->gameInfo.black);
DisplayTitle(buf);
} else if (*title != NULLCHAR) {
/* Support for LoadNextPosition, LoadPreviousPosition, ReloadSamePosition */
int
-ReloadPosition(offset)
- int offset;
+ReloadPosition (int offset)
{
int positionNumber = lastLoadPositionNumber + offset;
if (lastLoadPositionFP == NULL) {
/* Load the nth position from the given file */
int
-LoadPositionFromFile(filename, n, title)
- char *filename;
- int n;
- char *title;
+LoadPositionFromFile (char *filename, int n, char *title)
{
FILE *f;
char buf[MSG_SIZ];
/* Load the nth position from the given open file, and close it */
int
-LoadPosition(f, positionNumber, title)
- FILE *f;
- int positionNumber;
- char *title;
+LoadPosition (FILE *f, int positionNumber, char *title)
{
char *p, line[MSG_SIZ];
Board initial_position;
void
-CopyPlayerNameIntoFileName(dest, src)
- char **dest, *src;
+CopyPlayerNameIntoFileName (char **dest, char *src)
{
while (*src != NULLCHAR && *src != ',') {
if (*src == ' ') {
}
}
-char *DefaultFileName(ext)
- char *ext;
+char *
+DefaultFileName (char *ext)
{
static char def[MSG_SIZ];
char *p;
/* Save the current game to the given file */
int
-SaveGameToFile(filename, append)
- char *filename;
- int append;
+SaveGameToFile (char *filename, int append)
{
FILE *f;
char buf[MSG_SIZ];
DisplayMessage(_("Waiting for access to save file"), "");
flock(fileno(f), LOCK_EX); // [HGM] lock: lock file while we are writing
DisplayMessage(_("Saving game"), "");
- if(lseek(fileno(f), 0, SEEK_END) == -1) DisplayError("Bad Seek", errno); // better safe than sorry...
+ if(lseek(fileno(f), 0, SEEK_END) == -1) DisplayError(_("Bad Seek"), errno); // better safe than sorry...
result = SaveGame(f, 0, NULL);
DisplayMessage(buf, "");
return result;
}
char *
-SavePart(str)
- char *str;
+SavePart (char *str)
{
static char buf[MSG_SIZ];
char *p;
#define PGN_SIDE_WHITE 0
#define PGN_SIDE_BLACK 1
-/* [AS] */
-static int FindFirstMoveOutOfBook( int side )
+static int
+FindFirstMoveOutOfBook (int side)
{
int result = -1;
return result;
}
-/* [AS] */
-void GetOutOfBookInfo( char * buf )
+void
+GetOutOfBookInfo (char * buf)
{
int oob[2];
int i;
/* Save game in PGN style and close the file */
int
-SaveGamePGN(f)
- FILE *f;
+SaveGamePGN (FILE *f)
{
int i, offset, linelen, newblock;
time_t tm;
/* Save game in old style and close the file */
int
-SaveGameOldStyle(f)
- FILE *f;
+SaveGameOldStyle (FILE *f)
{
int i, offset;
time_t tm;
/* Save the current game to open file f and close the file */
int
-SaveGame(f, dummy, dummy2)
- FILE *f;
- int dummy;
- char *dummy2;
+SaveGame (FILE *f, int dummy, char *dummy2)
{
if (gameMode == EditPosition) EditPositionDone(TRUE);
lastSavedGame = GameCheckSum(); // [HGM] save: remember ID of last saved game to prevent double saving
/* Save the current position to the given file */
int
-SavePositionToFile(filename)
- char *filename;
+SavePositionToFile (char *filename)
{
FILE *f;
char buf[MSG_SIZ];
/* Save the current position to the given open file and close the file */
int
-SavePosition(f, dummy, dummy2)
- FILE *f;
- int dummy;
- char *dummy2;
+SavePosition (FILE *f, int dummy, char *dummy2)
{
time_t tm;
char *fen;
}
void
-ReloadCmailMsgEvent(unregister)
- int unregister;
+ReloadCmailMsgEvent (int unregister)
{
#if !WIN32
static char *inFilename = NULL;
}
int
-RegisterMove()
+RegisterMove ()
{
FILE *f;
char string[MSG_SIZ];
}
void
-MailMoveEvent()
+MailMoveEvent ()
{
#if !WIN32
static char *partCommandString = "cmail -xv%s -remail -game %s 2>&1";
}
char *
-CmailMsg()
+CmailMsg ()
{
#if WIN32
return NULL;
}
void
-ResetGameEvent()
+ResetGameEvent ()
{
if (gameMode == Training)
SetTrainingModeOff();
}
void
-ExitEvent(status)
- int status;
+ExitEvent (int status)
{
exiting++;
if (exiting > 2) {
}
void
-PauseEvent()
+PauseEvent ()
{
if (appData.debugMode)
fprintf(debugFP, "PauseEvent(): pausing %d\n", pausing);
}
void
-EditCommentEvent()
+EditCommentEvent ()
{
char title[MSG_SIZ];
void
-EditTagsEvent()
+EditTagsEvent ()
{
char *tags = PGNTags(&gameInfo);
bookUp = FALSE;
}
void
-AnalyzeModeEvent()
+AnalyzeModeEvent ()
{
if (appData.noChessProgram || gameMode == AnalyzeMode)
return;
}
void
-AnalyzeFileEvent()
+AnalyzeFileEvent ()
{
if (appData.noChessProgram || gameMode == AnalyzeFile)
return;
}
void
-MachineWhiteEvent()
+MachineWhiteEvent ()
{
char buf[MSG_SIZ];
char *bookHit = NULL;
pausing = FALSE;
ModeHighlight();
SetGameInfo();
- snprintf(buf, MSG_SIZ, "%s vs. %s", gameInfo.white, gameInfo.black);
+ snprintf(buf, MSG_SIZ, "%s %s %s", gameInfo.white, _("vs."), gameInfo.black);
DisplayTitle(buf);
if (first.sendName) {
snprintf(buf, MSG_SIZ, "name %s\n", gameInfo.black);
}
void
-MachineBlackEvent()
+MachineBlackEvent ()
{
char buf[MSG_SIZ];
char *bookHit = NULL;
pausing = FALSE;
ModeHighlight();
SetGameInfo();
- snprintf(buf, MSG_SIZ, "%s vs. %s", gameInfo.white, gameInfo.black);
+ snprintf(buf, MSG_SIZ, "%s %s %s", gameInfo.white, _("vs."), gameInfo.black);
DisplayTitle(buf);
if (first.sendName) {
snprintf(buf, MSG_SIZ, "name %s\n", gameInfo.white);
void
-DisplayTwoMachinesTitle()
+DisplayTwoMachinesTitle ()
{
char buf[MSG_SIZ];
if (appData.matchGames > 0) {
if(appData.tourneyFile[0]) {
- snprintf(buf, MSG_SIZ, "%s vs. %s (%d/%d%s)",
- gameInfo.white, gameInfo.black,
+ snprintf(buf, MSG_SIZ, "%s %s %s (%d/%d%s)",
+ gameInfo.white, _("vs."), gameInfo.black,
nextGame+1, appData.matchGames+1,
appData.tourneyType>0 ? "gt" : appData.tourneyType<0 ? "sw" : "rr");
} else
if (first.twoMachinesColor[0] == 'w') {
- snprintf(buf, MSG_SIZ, "%s vs. %s (%d-%d-%d)",
- gameInfo.white, gameInfo.black,
+ snprintf(buf, MSG_SIZ, "%s %s %s (%d-%d-%d)",
+ gameInfo.white, _("vs."), gameInfo.black,
first.matchWins, second.matchWins,
matchGame - 1 - (first.matchWins + second.matchWins));
} else {
- snprintf(buf, MSG_SIZ, "%s vs. %s (%d-%d-%d)",
- gameInfo.white, gameInfo.black,
+ snprintf(buf, MSG_SIZ, "%s %s %s (%d-%d-%d)",
+ gameInfo.white, _("vs."), gameInfo.black,
second.matchWins, first.matchWins,
matchGame - 1 - (first.matchWins + second.matchWins));
}
} else {
- snprintf(buf, MSG_SIZ, "%s vs. %s", gameInfo.white, gameInfo.black);
+ snprintf(buf, MSG_SIZ, "%s %s %s", gameInfo.white, _("vs."), gameInfo.black);
}
DisplayTitle(buf);
}
void
-SettingsMenuIfReady()
+SettingsMenuIfReady ()
{
if (second.lastPing != second.lastPong) {
DisplayMessage("", _("Waiting for second chess program"));
}
int
-WaitForEngine(ChessProgramState *cps, DelayedEventCallback retry)
+WaitForEngine (ChessProgramState *cps, DelayedEventCallback retry)
{
char buf[MSG_SIZ];
- if (cps->pr == NULL) {
+ if (cps->pr == NoProc) {
StartChessProgram(cps);
if (cps->protocolVersion == 1) {
retry();
}
void
-TrainingEvent()
+TrainingEvent ()
{
if (gameMode == Training) {
SetTrainingModeOff();
}
void
-IcsClientEvent()
+IcsClientEvent ()
{
if (!appData.icsActive) return;
switch (gameMode) {
return;
}
-
void
-EditGameEvent()
+EditGameEvent ()
{
int i;
SendToProgram("undo\n", &first);
i--;
}
+ if(!adjustedClock) {
whiteTimeRemaining = timeRemaining[0][currentMove];
blackTimeRemaining = timeRemaining[1][currentMove];
DisplayBothClocks();
+ }
if (whiteFlag || blackFlag) {
whiteFlag = blackFlag = 0;
}
void
-EditPositionEvent()
+EditPositionEvent ()
{
if (gameMode == EditPosition) {
EditGameEvent();
}
void
-ExitAnalyzeMode()
+ExitAnalyzeMode ()
{
/* [DM] icsEngineAnalyze - possible call from other functions */
if (appData.icsEngineAnalyze) {
}
void
-EditPositionDone(Boolean fakeRights)
+EditPositionDone (Boolean fakeRights)
{
int king = gameInfo.variant == VariantKnightmate ? WhiteUnicorn : WhiteKing;
/* Pause for `ms' milliseconds */
/* !! Ugh, this is a kludge. Fix it sometime. --tpm */
void
-TimeDelay(ms)
- long ms;
+TimeDelay (long ms)
{
TimeMark m1, m2;
/* !! Ugh, this is a kludge. Fix it sometime. --tpm */
void
-SendMultiLineToICS(buf)
- char *buf;
+SendMultiLineToICS (char *buf)
{
char temp[MSG_SIZ+1], *p;
int len;
}
void
-SetWhiteToPlayEvent()
+SetWhiteToPlayEvent ()
{
if (gameMode == EditPosition) {
blackPlaysFirst = FALSE;
}
void
-SetBlackToPlayEvent()
+SetBlackToPlayEvent ()
{
if (gameMode == EditPosition) {
blackPlaysFirst = TRUE;
}
void
-EditPositionMenuEvent(selection, x, y)
- ChessSquare selection;
- int x, y;
+EditPositionMenuEvent (ChessSquare selection, int x, int y)
{
char buf[MSG_SIZ];
ChessSquare piece = boards[0][y][x];
void
-DropMenuEvent(selection, x, y)
- ChessSquare selection;
- int x, y;
+DropMenuEvent (ChessSquare selection, int x, int y)
{
ChessMove moveType;
}
void
-AcceptEvent()
+AcceptEvent ()
{
/* Accept a pending offer of any kind from opponent */
}
void
-DeclineEvent()
+DeclineEvent ()
{
/* Decline a pending offer of any kind from opponent */
}
void
-RematchEvent()
+RematchEvent ()
{
/* Issue ICS rematch command */
if (appData.icsActive) {
}
void
-CallFlagEvent()
+CallFlagEvent ()
{
/* Call your opponent's flag (claim a win on time) */
if (appData.icsActive) {
}
void
-ClockClick(int which)
+ClockClick (int which)
{ // [HGM] code moved to back-end from winboard.c
if(which) { // black clock
if (gameMode == EditPosition || gameMode == IcsExamining) {
}
void
-DrawEvent()
+DrawEvent ()
{
/* Offer draw or accept pending draw offer from opponent */
}
void
-AdjournEvent()
+AdjournEvent ()
{
/* Offer Adjourn or accept pending Adjourn offer from opponent */
void
-AbortEvent()
+AbortEvent ()
{
/* Offer Abort or accept pending Abort offer from opponent */
}
void
-ResignEvent()
+ResignEvent ()
{
/* Resign. You can do this even if it's not your turn. */
void
-StopObservingEvent()
+StopObservingEvent ()
{
/* Stop observing current games */
SendToICS(ics_prefix);
}
void
-StopExaminingEvent()
+StopExaminingEvent ()
{
/* Stop observing current game */
SendToICS(ics_prefix);
}
void
-ForwardInner(target)
- int target;
+ForwardInner (int target)
{
int limit;
if (gameMode == EditPosition)
return;
+ MarkTargetSquares(1);
+
if (gameMode == PlayFromGameFile && !pausing)
PauseEvent();
void
-ForwardEvent()
+ForwardEvent ()
{
if (gameMode == IcsExamining && !pausing) {
SendToICS(ics_prefix);
}
void
-ToEndEvent()
+ToEndEvent ()
{
if (gameMode == AnalyzeMode || gameMode == AnalyzeFile) {
/* to optimze, we temporarily turn off analysis mode while we feed
}
void
-BackwardInner(target)
- int target;
+BackwardInner (int target)
{
int full_redraw = TRUE; /* [AS] Was FALSE, had to change it! */
target, currentMove, forwardMostMove);
if (gameMode == EditPosition) return;
+ MarkTargetSquares(1);
if (currentMove <= backwardMostMove) {
ClearHighlights();
DrawPosition(full_redraw, boards[currentMove]);
}
void
-BackwardEvent()
+BackwardEvent ()
{
if (gameMode == IcsExamining && !pausing) {
SendToICS(ics_prefix);
}
void
-ToStartEvent()
+ToStartEvent ()
{
if (gameMode == AnalyzeMode || gameMode == AnalyzeFile) {
/* to optimize, we temporarily turn off analysis mode while we undo
}
void
-ToNrEvent(int to)
+ToNrEvent (int to)
{
if (gameMode == PlayFromGameFile && !pausing) PauseEvent();
if (to >= forwardMostMove) to = forwardMostMove;
}
void
-RevertEvent(Boolean annotate)
+RevertEvent (Boolean annotate)
{
if(PopTail(annotate)) { // [HGM] vari: restore old game tail
return;
}
void
-RetractMoveEvent()
+RetractMoveEvent ()
{
switch (gameMode) {
case MachinePlaysWhite:
}
void
-MoveNowEvent()
+MoveNowEvent ()
{
ChessProgramState *cps;
}
void
-TruncateGameEvent()
+TruncateGameEvent ()
{
EditGameEvent();
if (gameMode != EditGame) return;
}
void
-TruncateGame()
+TruncateGame ()
{
CleanupTail(); // [HGM] vari: only keep current variation if we explicitly truncate
if (forwardMostMove > currentMove) {
}
void
-HintEvent()
+HintEvent ()
{
if (appData.noChessProgram) return;
switch (gameMode) {
}
void
-BookEvent()
+BookEvent ()
{
if (appData.noChessProgram) return;
switch (gameMode) {
}
void
-AboutGameEvent()
+AboutGameEvent ()
{
char *tags = PGNTags(&gameInfo);
TagsPopUp(tags, CmailMsg());
/* end button procedures */
void
-PrintPosition(fp, move)
- FILE *fp;
- int move;
+PrintPosition (FILE *fp, int move)
{
int i, j;
}
void
-PrintOpponents(fp)
- FILE *fp;
+PrintOpponents (FILE *fp)
{
if (gameInfo.white != NULL) {
fprintf(fp, "\t%s vs. %s\n", gameInfo.white, gameInfo.black);
/* Find last component of program's own name, using some heuristics */
void
-TidyProgramName(prog, host, buf)
- char *prog, *host, buf[MSG_SIZ];
+TidyProgramName (char *prog, char *host, char buf[MSG_SIZ])
{
char *p, *q;
int local = (strcmp(host, "localhost") == 0);
}
char *
-TimeControlTagValue()
+TimeControlTagValue ()
{
char buf[MSG_SIZ];
if (!appData.clockMode) {
}
void
-SetGameInfo()
+SetGameInfo ()
{
/* This routine is used only for certain modes */
VariantClass v = gameInfo.variant;
}
void
-ReplaceComment(index, text)
- int index;
- char *text;
+ReplaceComment (int index, char *text)
{
int len;
char *p;
}
void
-CrushCRs(text)
- char *text;
+CrushCRs (char *text)
{
char *p = text;
char *q = text;
}
void
-AppendComment(index, text, addBraces)
- int index;
- char *text;
- Boolean addBraces; // [HGM] braces: tells if we should add {}
+AppendComment (int index, char *text, Boolean addBraces)
+/* addBraces tells if we should add {} */
{
int oldlen, len;
char *old;
while (*text == '\n') text++;
len = strlen(text);
while (len > 0 && text[len - 1] == '\n') len--;
+ text[len] = NULLCHAR;
if (len == 0) return;
}
}
-static char * FindStr( char * text, char * sub_text )
+static char *
+FindStr (char * text, char * sub_text)
{
char * result = strstr( text, sub_text );
/* [AS] Try to extract PV info from PGN comment */
/* [HGM] PV time: and then remove it, to prevent it appearing twice */
-char *GetInfoFromComment( int index, char * text )
+char *
+GetInfoFromComment (int index, char * text)
{
char * sep = text, *p;
}
void
-SendToProgram(message, cps)
- char *message;
- ChessProgramState *cps;
+SendToProgram (char *message, ChessProgramState *cps)
{
int count, outCount, error;
char buf[MSG_SIZ];
- if (cps->pr == NULL) return;
+ if (cps->pr == NoProc) return;
Attention(cps);
if (appData.debugMode) {
}
void
-ReceiveFromProgram(isr, closure, message, count, error)
- InputSourceRef isr;
- VOIDSTAR closure;
- char *message;
- int count;
- int error;
+ReceiveFromProgram (InputSourceRef isr, VOIDSTAR closure, char *message, int count, int error)
{
char *end_str;
char buf[MSG_SIZ];
void
-SendTimeControl(cps, mps, tc, inc, sd, st)
- ChessProgramState *cps;
- int mps, inc, sd, st;
- long tc;
+SendTimeControl (ChessProgramState *cps, int mps, long tc, int inc, int sd, int st)
{
char buf[MSG_SIZ];
int seconds;
}
}
-ChessProgramState *WhitePlayer()
+ChessProgramState *
+WhitePlayer ()
/* [HGM] return pointer to 'first' or 'second', depending on who plays white */
{
if(gameMode == TwoMachinesPlay && first.twoMachinesColor[0] == 'b' ||
}
void
-SendTimeRemaining(cps, machineWhite)
- ChessProgramState *cps;
- int /*boolean*/ machineWhite;
+SendTimeRemaining (ChessProgramState *cps, int machineWhite)
{
char message[MSG_SIZ];
long time, otime;
}
int
-BoolFeature(p, name, loc, cps)
- char **p;
- char *name;
- int *loc;
- ChessProgramState *cps;
+BoolFeature (char **p, char *name, int *loc, ChessProgramState *cps)
{
char buf[MSG_SIZ];
int len = strlen(name);
}
int
-IntFeature(p, name, loc, cps)
- char **p;
- char *name;
- int *loc;
- ChessProgramState *cps;
+IntFeature (char **p, char *name, int *loc, ChessProgramState *cps)
{
char buf[MSG_SIZ];
int len = strlen(name);
}
int
-StringFeature(p, name, loc, cps)
- char **p;
- char *name;
- char loc[];
- ChessProgramState *cps;
+StringFeature (char **p, char *name, char loc[], ChessProgramState *cps)
{
char buf[MSG_SIZ];
int len = strlen(name);
}
int
-ParseOption(Option *opt, ChessProgramState *cps)
+ParseOption (Option *opt, ChessProgramState *cps)
// [HGM] options: process the string that defines an engine option, and determine
// name, type, default value, and allowed value range
{
}
void
-FeatureDone(cps, val)
- ChessProgramState* cps;
- int val;
+FeatureDone (ChessProgramState *cps, int val)
{
DelayedEventCallback cb = GetDelayedEvent();
if ((cb == InitBackEnd3 && cps == &first) ||
/* Parse feature command from engine */
void
-ParseFeatures(args, cps)
- char* args;
- ChessProgramState *cps;
+ParseFeatures (char *args, ChessProgramState *cps)
{
char *p = args;
char *q;
if (*p == NULLCHAR) return;
if (BoolFeature(&p, "setboard", &cps->useSetboard, cps)) continue;
+ if (BoolFeature(&p, "xedit", &cps->extendedEdit, cps)) continue;
if (BoolFeature(&p, "time", &cps->sendTime, cps)) continue;
if (BoolFeature(&p, "draw", &cps->sendDrawOffers, cps)) continue;
if (BoolFeature(&p, "sigint", &cps->useSigint, cps)) continue;
continue;
}
if (BoolFeature(&p, "analyze", &cps->analysisSupport, cps)) continue;
- if (StringFeature(&p, "myname", &cps->tidy, cps)) {
+ if (StringFeature(&p, "myname", cps->tidy, cps)) {
if (gameMode == TwoMachinesPlay) {
DisplayTwoMachinesTitle();
} else {
}
continue;
}
- if (StringFeature(&p, "variants", &cps->variants, cps)) continue;
+ if (StringFeature(&p, "variants", cps->variants, cps)) continue;
if (BoolFeature(&p, "san", &cps->useSAN, cps)) continue;
if (BoolFeature(&p, "ping", &cps->usePing, cps)) continue;
if (BoolFeature(&p, "playother", &cps->usePlayother, cps)) continue;
if (IntFeature(&p, "level", &cps->maxNrOfSessions, cps)) continue;
if (BoolFeature(&p, "memory", &cps->memSize, cps)) continue;
if (BoolFeature(&p, "smp", &cps->maxCores, cps)) continue;
- if (StringFeature(&p, "egt", &cps->egtFormats, cps)) continue;
- if (StringFeature(&p, "option", &(cps->option[cps->nrOptions].name), cps)) {
+ if (StringFeature(&p, "egt", cps->egtFormats, cps)) continue;
+ if (StringFeature(&p, "option", cps->option[cps->nrOptions].name, cps)) {
if(!ParseOption(&(cps->option[cps->nrOptions++]), cps)) { // [HGM] options: add option feature
snprintf(buf, MSG_SIZ, "rejected option %s\n", cps->option[--cps->nrOptions].name);
SendToProgram(buf, cps);
}
void
-PeriodicUpdatesEvent(newState)
- int newState;
+PeriodicUpdatesEvent (int newState)
{
if (newState == appData.periodicUpdates)
return;
}
void
-PonderNextMoveEvent(newState)
- int newState;
+PonderNextMoveEvent (int newState)
{
if (newState == appData.ponderNextMove) return;
if (gameMode == EditPosition) EditPositionDone(TRUE);
}
void
-NewSettingEvent(option, feature, command, value)
- char *command;
- int option, value, *feature;
+NewSettingEvent (int option, int *feature, char *command, int value)
{
char buf[MSG_SIZ];
}
void
-ShowThinkingEvent()
+ShowThinkingEvent ()
// [HGM] thinking: this routine is now also called from "Options -> Engine..." popup
{
static int oldState = 2; // kludge alert! Neither true nor fals, so first time oldState is always updated
}
void
-AskQuestionEvent(title, question, replyPrefix, which)
- char *title; char *question; char *replyPrefix; char *which;
+AskQuestionEvent (char *title, char *question, char *replyPrefix, char *which)
{
ProcRef pr = (which[0] == '1') ? first.pr : second.pr;
if (pr == NoProc) return;
}
void
-TypeInEvent(char firstChar)
+TypeInEvent (char firstChar)
{
if ((gameMode == BeginningOfGame && !appData.icsActive) ||
gameMode == MachinePlaysWhite || gameMode == MachinePlaysBlack ||
}
void
-TypeInDoneEvent(char *move)
+TypeInDoneEvent (char *move)
{
Board board;
int n, fromX, fromY, toX, toY;
}
void
-DisplayMove(moveNumber)
- int moveNumber;
+DisplayMove (int moveNumber)
{
char message[MSG_SIZ];
char res[MSG_SIZ];
}
void
-DisplayComment(moveNumber, text)
- int moveNumber;
- char *text;
+DisplayComment (int moveNumber, char *text)
{
char title[MSG_SIZ];
* ioctl, which does not work properly on some flavors of Unix.
*/
void
-Attention(cps)
- ChessProgramState *cps;
+Attention (ChessProgramState *cps)
{
#if ATTENTION
if (!cps->useSigint) return;
}
int
-CheckFlags()
+CheckFlags ()
{
if (whiteTimeRemaining <= 0) {
if (!whiteFlag) {
}
void
-CheckTimeControl()
+CheckTimeControl ()
{
if (!appData.clockMode || appData.icsActive || searchTime || // [HGM] st: no inc in st mode
gameMode == PlayFromGameFile || forwardMostMove == 0) return;
}
void
-DisplayBothClocks()
+DisplayBothClocks ()
{
int wom = gameMode == EditPosition ?
!blackPlaysFirst : WhiteOnMove(currentMove);
/* Get the current time as a TimeMark */
void
-GetTimeMark(tm)
- TimeMark *tm;
+GetTimeMark (TimeMark *tm)
{
#if HAVE_GETTIMEOFDAY
time marks. We assume the difference will fit in a long!
*/
long
-SubtractTimeMarks(tm2, tm1)
- TimeMark *tm2, *tm1;
+SubtractTimeMarks (TimeMark *tm2, TimeMark *tm1)
{
return 1000L*(tm2->sec - tm1->sec) +
(long) (tm2->ms - tm1->ms);
static long intendedTickLength;
long
-NextTickLength(timeRemaining)
- long timeRemaining;
+NextTickLength (long timeRemaining)
{
long nominalTickLength, nextTickLength;
/* Adjust clock one minute up or down */
void
-AdjustClock(Boolean which, int dir)
+AdjustClock (Boolean which, int dir)
{
+ if(appData.autoCallFlag) { DisplayError(_("Clock adjustment not allowed in auto-flag mode"), 0); return; }
if(which) blackTimeRemaining += 60000*dir;
else whiteTimeRemaining += 60000*dir;
DisplayBothClocks();
+ adjustedClock = TRUE;
}
/* Stop clocks and reset to a fresh time control */
void
-ResetClocks()
+ResetClocks ()
{
(void) StopClockTimer();
if (appData.icsActive) {
}
lastWhite = lastBlack = whiteStartMove = blackStartMove = 0;
DisplayBothClocks();
+ adjustedClock = FALSE;
}
#define FUDGE 25 /* 25ms = 1/40 sec; should be plenty even for 50 Hz clocks */
/* Decrement running clock by amount of time that has passed */
void
-DecrementClocks()
+DecrementClocks ()
{
long timeRemaining;
long lastTickLength, fudge;
from the color that is *not* on move now.
*/
void
-SwitchClocks(int newMoveNr)
+SwitchClocks (int newMoveNr)
{
long lastTickLength;
TimeMark now;
/* Stop both clocks */
void
-StopClocks()
+StopClocks ()
{
long lastTickLength;
TimeMark now;
/* Start clock of player on move. Time may have been reset, so
if clock is already running, stop and restart it. */
void
-StartClocks()
+StartClocks ()
{
(void) StopClockTimer(); /* in case it was running already */
DisplayBothClocks();
}
char *
-TimeString(ms)
- long ms;
+TimeString (long ms)
{
long second, minute, hour, day;
char *sign = "";
* This is necessary because some C libraries aren't ANSI C compliant yet.
*/
char *
-StrStr(string, match)
- char *string, *match;
+StrStr (char *string, char *match)
{
int i, length;
}
char *
-StrCaseStr(string, match)
- char *string, *match;
+StrCaseStr (char *string, char *match)
{
int i, j, length;
#ifndef _amigados
int
-StrCaseCmp(s1, s2)
- char *s1, *s2;
+StrCaseCmp (char *s1, char *s2)
{
char c1, c2;
int
-ToLower(c)
- int c;
+ToLower (int c)
{
return isupper(c) ? tolower(c) : c;
}
int
-ToUpper(c)
- int c;
+ToUpper (int c)
{
return islower(c) ? toupper(c) : c;
}
#endif /* !_amigados */
char *
-StrSave(s)
- char *s;
+StrSave (char *s)
{
char *ret;
}
char *
-StrSavePtr(s, savePtr)
- char *s, **savePtr;
+StrSavePtr (char *s, char **savePtr)
{
if (*savePtr) {
free(*savePtr);
}
char *
-PGNDate()
+PGNDate ()
{
time_t clock;
struct tm *tm;
char *
-PositionToFEN(move, overrideCastling)
- int move;
- char *overrideCastling;
+PositionToFEN (int move, char *overrideCastling)
{
int i, j, fromX, fromY, toX, toY;
int whiteToPlay;
}
Boolean
-ParseFEN(board, blackPlaysFirst, fen)
- Board board;
- int *blackPlaysFirst;
- char *fen;
+ParseFEN (Board board, int *blackPlaysFirst, char *fen)
{
int i, j;
char *p, c;
}
void
-EditPositionPasteFEN(char *fen)
+EditPositionPasteFEN (char *fen)
{
if (fen != NULL) {
Board initial_position;
static char cseq[12] = "\\ ";
-Boolean set_cont_sequence(char *new_seq)
+Boolean
+set_cont_sequence (char *new_seq)
{
int len;
Boolean ret;
for the dest buffer. lp argument indicats line position upon entry, and it's
passed back upon exit.
*/
-int wrap(char *dest, char *src, int count, int width, int *lp)
+int
+wrap (char *dest, char *src, int count, int width, int *lp)
{
int len, i, ansi, cseq_len, line, old_line, old_i, old_len, clen;
Boolean modeRestore = FALSE;
void
-PushInner(int firstMove, int lastMove)
+PushInner (int firstMove, int lastMove)
{
int i, j, nrMoves = lastMove - firstMove;
}
void
-PushTail(int firstMove, int lastMove)
+PushTail (int firstMove, int lastMove)
{
if(appData.icsActive) { // only in local mode
forwardMostMove = currentMove; // mimic old ICS behavior
}
void
-PopInner(Boolean annotate)
+PopInner (Boolean annotate)
{
int i, j, nrMoves;
char buf[8000], moveBuf[20];
}
Boolean
-PopTail(Boolean annotate)
+PopTail (Boolean annotate)
{
if(appData.icsActive) return FALSE; // only in local mode
if(!storedGames) return FALSE; // sanity
}
void
-CleanupTail()
+CleanupTail ()
{ // remove all shelved variations
int i;
for(i=0; i<storedGames; i++) {
}
void
-LoadVariation(int index, char *text)
+LoadVariation (int index, char *text)
{ // [HGM] vari: shelve previous line and load new variation, parsed from text around text[index]
char *p = text, *start = NULL, *end = NULL, wait = NULLCHAR;
int level = 0, move;