char *p=buf2, *q, *s = SUFFIXES, ID = *p;
if(*p == '+') piece = CHUPROMOTED WhitePawn, ID = *++p;
if(q = strchr(s, p[1])) ID += 64*(q - s + 1), p++;
- piece += CharToPiece(ID) - WhitePawn;
+ piece += CharToPiece(ID & 255) - WhitePawn;
if(cps != &first || appData.testLegality && *engineVariant == NULLCHAR
/* always accept definition of */ && piece != WhiteFalcon && piece != BlackFalcon
/* wild-card pieces. */ && piece != WhiteCobra && piece != BlackCobra
if(piece < EmptySquare) {
pieceDefs = TRUE;
ASSIGN(pieceDesc[piece], buf1);
- if(isupper(*p) && p[1] == '&') { ASSIGN(pieceDesc[WHITE_TO_BLACK piece], buf1); }
+ if((ID & 32) == 0 && p[1] == '&') { ASSIGN(pieceDesc[WHITE_TO_BLACK piece], buf1); }
}
return;
}
buf1[0] = NULLCHAR;
if (sscanf(message, "%d%c %d %d " u64Display " %[^\n]\n",
&plylev, &plyext, &curscore, &time, &nodes, buf1) >= 5) {
+ char score_buf[MSG_SIZ];
if(nodes>>32 == u64Const(0xFFFFFFFF)) // [HGM] negative node count read
nodes += u64Const(0x100000000);
[AS] Protect the thinkOutput buffer from overflow... this
is only useful if buf1 hasn't overflowed first!
*/
- snprintf(thinkOutput, sizeof(thinkOutput)/sizeof(thinkOutput[0]), "[%d]%c%+.2f %s%s",
+ if(curscore >= MATE_SCORE)
+ snprintf(score_buf, MSG_SIZ, "#%d", curscore - MATE_SCORE);
+ else if(curscore <= -MATE_SCORE)
+ snprintf(score_buf, MSG_SIZ, "#%d", curscore + MATE_SCORE);
+ else
+ snprintf(score_buf, MSG_SIZ, "%+.2f", ((double) curscore) / 100.0);
+ snprintf(thinkOutput, sizeof(thinkOutput)/sizeof(thinkOutput[0]), "[%d]%c%s %s%s",
plylev,
(gameMode == TwoMachinesPlay ?
ToUpper(cps->twoMachinesColor[0]) : ' '),
- ((double) curscore) / 100.0,
+ score_buf,
prefixHint ? lastHint : "",
prefixHint ? " " : "" );