/* ratings.c fics - An internet chess server. Copyright (C) 1993 Richard V. Nash This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. */ /* Revision history: name email yy/mm/dd Change Richard Nash 93/10/22 Created vek leeds@math.gatech.edu 95/04/05 Glicko system, with sterr Markus Uhlin 23/12/17 Fixed the includes Markus Uhlin 23/12/17 Usage of 'time_t' Markus Uhlin 24/04/05 Reformatted ALL functions and reenabled disabled code. Markus Uhlin 24/04/05 Replaced unbounded string handling functions. Markus Uhlin 24/05/20 Fixed clang warnings Markus Uhlin 24/07/07 Return value checking of the fscanf() calls. */ #include "stdinclude.h" #include "common.h" #include #include "command.h" #include "comproc.h" #include "config.h" #include "gamedb.h" #include "lists.h" #include "playerdb.h" #include "ratings.h" #include "utils.h" #if __linux__ #include #endif // Constants for Glicko system #define Gd 3.25 #define Gr0 1720 #define Gs0 350 #define Gq 0.00575646273249 #define Gp 0.000010072398601964 // End of Glicko system variables #define LOWESTHIST 800 #define MAXHIST 30 PRIVATE double Ratings_B_Average; PRIVATE double Ratings_B_StdDev; PRIVATE double Ratings_S_Average; PRIVATE double Ratings_S_StdDev; PRIVATE double Ratings_L_Average; PRIVATE double Ratings_L_StdDev; PRIVATE double Ratings_W_Average; PRIVATE double Ratings_W_StdDev; PRIVATE double Rb_M = 0.0, Rb_S = 0.0, Rb_total = 0.0; PRIVATE int Rb_count = 0; PRIVATE double Rs_M = 0.0, Rs_S = 0.0, Rs_total = 0.0; PRIVATE int Rs_count = 0; PRIVATE double Rl_M = 0.0, Rl_S = 0.0, Rl_total = 0.0; PRIVATE int Rl_count = 0; PRIVATE double Rw_M = 0.0, Rw_S = 0.0, Rw_total = 0.0; PRIVATE int Rw_count = 0; PRIVATE rateStruct bestS[MAX_BEST]; PRIVATE int numS = 0; PRIVATE rateStruct bestB[MAX_BEST]; PRIVATE int numB = 0; PRIVATE rateStruct bestW[MAX_BEST]; PRIVATE int numW = 0; PRIVATE int sHist[MAXHIST]; PRIVATE int bHist[MAXHIST]; PRIVATE int wHist[MAXHIST]; PRIVATE int lHist[MAXHIST]; PRIVATE char sdir[] = DEFAULT_STATS; PUBLIC int is_active(int Games) { return (Games >= PROVISIONAL); } PUBLIC void rating_add(int rating, int type) { int which; if ((which = (rating - LOWESTHIST) / 100) < 0) which = 0; if (which >= MAXHIST) which = MAXHIST - 1; if (type == TYPE_BLITZ) { bHist[which] += 1; Rb_count++; Rb_total += rating; if (Rb_count == 1) { Rb_M = rating; } else { Rb_S = Rb_S + (rating - Rb_M) * (rating - Rb_M); Rb_M = Rb_M + (rating - Rb_M) / (Rb_count); } Ratings_B_StdDev = sqrt(Rb_S / Rb_count); Ratings_B_Average = (Rb_total / (double)Rb_count); } else if (type == TYPE_WILD) { // TYPE_WILD wHist[which] += 1; Rw_count++; Rw_total += rating; if (Rw_count == 1) { Rw_M = rating; } else { Rw_S = Rw_S + (rating - Rw_M) * (rating - Rw_M); Rw_M = Rw_M + (rating - Rw_M) / (Rw_count); } Ratings_W_StdDev = sqrt(Rw_S / Rw_count); Ratings_W_Average = (Rw_total / (double)Rw_count); } else if (type == TYPE_LIGHT) { // TYPE_LIGHT lHist[which] += 1; Rl_count++; Rl_total += rating; if (Rl_count == 1) { Rl_M = rating; } else { Rl_S = Rl_S + (rating - Rl_M) * (rating - Rl_M); Rl_M = Rl_M + (rating - Rl_M) / (Rl_count); } Ratings_L_StdDev = sqrt(Rl_S / Rl_count); Ratings_L_Average = (Rl_total / (double)Rl_count); // Insert bughouse stuff } else { // TYPE_STAND sHist[which] += 1; Rs_count++; Rs_total += rating; if (Rs_count == 1) { Rs_M = rating; } else { Rs_S = Rs_S + (rating - Rs_M) * (rating - Rs_M); Rs_M = Rs_M + (rating - Rs_M) / (Rs_count); } Ratings_S_StdDev = sqrt(Rs_S / Rs_count); Ratings_S_Average = (Rs_total / (double)Rs_count); } } PUBLIC void rating_remove(int rating, int type) { int which; if ((which = (rating - LOWESTHIST) / 100) < 0) which = 0; if (which >= MAXHIST) which = MAXHIST - 1; if (type == TYPE_BLITZ) { bHist[which] = bHist[which] - 1; if (bHist[which] < 0) bHist[which] = 0; if (Rb_count == 0) return; Rb_count--; Rb_total -= rating; if (Rb_count == 0) { Rb_M = 0; Rb_S = 0; } else { Rb_M = Rb_M - (rating - Rb_M) / (Rb_count); Rb_S = Rb_S - (rating - Rb_M) * (rating - Rb_M); if (Rb_S < 0) Rb_S = 0; } if (Rb_count) { Ratings_B_StdDev = sqrt(Rb_S / Rb_count); Ratings_B_Average = (Rb_total / (double)Rb_count); } else { Ratings_B_StdDev = 0; Ratings_B_Average = 0; } } else if (type == TYPE_WILD) { // TYPE_WILD wHist[which] = wHist[which] - 1; if (wHist[which] < 0) wHist[which] = 0; if (Rw_count == 0) return; Rw_count--; Rw_total -= rating; if (Rw_count == 0) { Rw_M = 0; Rw_S = 0; } else { Rw_M = Rw_M - (rating - Rw_M) / (Rw_count); Rw_S = Rw_S - (rating - Rw_M) * (rating - Rw_M); if (Rw_S < 0) Rw_S = 0; } if (Rw_count) { Ratings_W_StdDev = sqrt(Rw_S / Rw_count); Ratings_W_Average = (Rw_total / (double)Rw_count); } else { Ratings_W_StdDev = 0; Ratings_W_Average = 0; } } else if (type == TYPE_LIGHT) { // TYPE_LIGHT lHist[which] = lHist[which] - 1; if (lHist[which] < 0) lHist[which] = 0; if (Rl_count == 0) return; Rl_count--; Rl_total -= rating; if (Rl_count == 0) { Rl_M = 0; Rl_S = 0; } else { Rl_M = Rl_M - (rating - Rl_M) / (Rl_count); Rl_S = Rl_S - (rating - Rl_M) * (rating - Rl_M); if (Rl_S < 0) Rl_S = 0; } if (Rl_count) { Ratings_L_StdDev = sqrt(Rl_S / Rl_count); Ratings_L_Average = (Rl_total / (double)Rl_count); } else { Ratings_L_StdDev = 0; Ratings_L_Average = 0; } // insert bughouse stuff here } else { // TYPE_STAND sHist[which] = sHist[which] - 1; if (sHist[which] < 0) sHist[which] = 0; if (Rs_count == 0) return; Rs_count--; Rs_total -= rating; if (Rs_count == 0) { Rs_M = 0; Rs_S = 0; } else { Rs_M = Rs_M - (rating - Rs_M) / (Rs_count); Rs_S = Rs_S - (rating - Rs_M) * (rating - Rs_M); if (Rs_S < 0) Rs_S = 0; } if (Rs_count) { Ratings_S_StdDev = sqrt(Rs_S / Rs_count); Ratings_S_Average = (Rs_total / (double)Rs_count); } else { Ratings_S_StdDev = 0; Ratings_S_Average = 0; } } } PRIVATE void load_ratings(void) { FILE *fp; char fname[MAX_FILENAME_SIZE] = { '\0' }; snprintf(fname, sizeof fname, "%s/newratingsV%d_data", stats_dir, STATS_VERSION); if ((fp = fopen(fname, "r")) == NULL) { warn("%s: can't read ratings data", __func__); return; } else if (fscanf(fp, "%lf %lf %lf %d", &Rb_M, &Rb_S, &Rb_total, &Rb_count) != 4 || fscanf(fp, "%lf %lf %lf %d", &Rs_M, &Rs_S, &Rs_total, &Rs_count) != 4 || fscanf(fp, "%lf %lf %lf %d", &Rw_M, &Rw_S, &Rw_total, &Rw_count) != 4 || fscanf(fp, "%lf %lf %lf %d", &Rl_M, &Rl_S, &Rl_total, &Rl_count) != 4) { warn("%s: fscanf", __func__); fclose(fp); return; } for (int i = 0; i < MAXHIST; i++) { int ret, errno_save; errno = 0; ret = fscanf(fp, "%d %d %d %d", &sHist[i], &bHist[i], &wHist[i], &lHist[i]); errno_save = errno; if (ret != 4) { if (feof(fp) || ferror(fp)) break; errno = errno_save; warn("%s: too few items assigned (iteration: %d)", __func__, i); } } fclose(fp); if (Rs_count) { Ratings_S_StdDev = sqrt(Rs_S / Rs_count); Ratings_S_Average = (Rs_total / (double)Rs_count); } else { Ratings_S_StdDev = 0; Ratings_S_Average = 0; } if (Rb_count) { Ratings_B_StdDev = sqrt(Rb_S / Rb_count); Ratings_B_Average = (Rb_total / (double)Rb_count); } else { Ratings_B_StdDev = 0; Ratings_B_Average = 0; } if (Rw_count) { Ratings_W_StdDev = sqrt(Rw_S / Rw_count); Ratings_W_Average = (Rw_total / (double)Rw_count); } else { Ratings_W_StdDev = 0; Ratings_W_Average = 0; } if (Rl_count) { Ratings_L_StdDev = sqrt(Rl_S / Rl_count); Ratings_L_Average = (Rl_total / (double)Rl_count); } else { Ratings_L_StdDev = 0; Ratings_L_Average = 0; } } PUBLIC void save_ratings(void) { FILE *fp; char fname[MAX_FILENAME_SIZE] = { '\0' }; snprintf(fname, sizeof fname, "%s/newratingsV%d_data", stats_dir, STATS_VERSION); if ((fp = fopen(fname, "w")) == NULL) { warn("%s: can't write ratings data", __func__); return; } fprintf(fp, "%10f %10f %10f %d\n", Rb_M, Rb_S, Rb_total, Rb_count); fprintf(fp, "%10f %10f %10f %d\n", Rs_M, Rs_S, Rs_total, Rs_count); fprintf(fp, "%10f %10f %10f %d\n", Rw_M, Rw_S, Rw_total, Rw_count); fprintf(fp, "%10f %10f %10f %d\n", Rl_M, Rl_S, Rl_total, Rl_count); for (int i = 0; i < MAXHIST; i++) { fprintf(fp, "%d %d %d %d\n", sHist[i], bHist[i], wHist[i], lHist[i]); } fclose(fp); } PRIVATE void BestRemove(int p) { int i; for (i = 0; i < numB; i++) { if (!strcmp(bestB[i].name, parray[p].name)) break; } if (i < numB) { for (; i < numB - 1; i++) { strlcpy(bestB[i].name, bestB[i + 1].name, sizeof bestB[i].name); bestB[i].rating = bestB[i + 1].rating; } numB--; } for (i = 0; i < numS; i++) { if (!strcmp(bestS[i].name, parray[p].name)) break; } if (i < numS) { for (; i < numS - 1; i++) { strlcpy(bestS[i].name, bestS[i + 1].name, sizeof bestS[i].name); bestS[i].rating = bestS[i + 1].rating; } numS--; } for (i = 0; i < numW; i++) { if (!strcmp(bestW[i].name, parray[p].name)) break; } if (i < numW) { for (; i < numW - 1; i++) { strlcpy(bestW[i].name, bestW[i + 1].name, sizeof bestW[i].name); bestW[i].rating = bestW[i + 1].rating; } numW--; } } PRIVATE void BestAdd(int p) { int where, j; if (parray[p].b_stats.rating > 0 && parray[p].b_stats.num > 19) { for (where = 0; where < numB; where++) { if (parray[p].b_stats.rating > bestB[where].rating) break; } if (where < MAX_BEST) { for (j = numB; j > where; j--) { if (j == MAX_BEST) continue; strlcpy(bestB[j].name, bestB[j - 1].name, sizeof(bestB[j].name)); bestB[j].rating = bestB[j - 1].rating; } strlcpy(bestB[where].name, parray[p].name, sizeof(bestB[where].name)); bestB[where].rating = parray[p].b_stats.rating; if (numB < MAX_BEST) numB++; } } if (parray[p].s_stats.rating > 0 && parray[p].s_stats.num > 19) { for (where = 0; where < numS; where++) { if (parray[p].s_stats.rating > bestS[where].rating) break; } if (where < MAX_BEST) { for (j = numS; j > where; j--) { if (j == MAX_BEST) continue; strlcpy(bestS[j].name, bestS[j - 1].name, sizeof(bestS[j].name)); bestS[j].rating = bestS[j - 1].rating; } strlcpy(bestS[where].name, parray[p].name, sizeof(bestS[where].name)); bestS[where].rating = parray[p].s_stats.rating; if (numS < MAX_BEST) numS++; } } if (parray[p].w_stats.rating > 0 && parray[p].w_stats.num > 19) { for (where = 0; where < numW; where++) { if (parray[p].w_stats.rating > bestW[where].rating) break; } if (where < MAX_BEST) { for (j = numW; j > where; j--) { if (j == MAX_BEST) continue; strlcpy(bestW[j].name, bestW[j - 1].name, sizeof(bestW[j].name)); bestW[j].rating = bestW[j - 1].rating; } strlcpy(bestW[where].name, parray[p].name, sizeof(bestW[where].name)); bestW[where].rating = parray[p].w_stats.rating; if (numW < MAX_BEST) numW++; } } } PUBLIC void BestUpdate(int p) { BestRemove(p); BestAdd(p); } PRIVATE void zero_stats(void) { for (int i = 0; i < MAXHIST; i++) { sHist[i] = 0; bHist[i] = 0; wHist[i] = 0; lHist[i] = 0; } Rb_M = 0.0, Rb_S = 0.0, Rb_total = 0.0; Rb_count = 0; Rs_M = 0.0, Rs_S = 0.0, Rs_total = 0.0; Rs_count = 0; Rw_M = 0.0, Rw_S = 0.0, Rw_total = 0.0; Rw_count = 0; Rl_M = 0.0, Rl_S = 0.0, Rl_total = 0.0; Rl_count = 0; numS = 0; numB = 0; numW = 0; } #if 0 PUBLIC int com_best(int p, param_list param) { pprintf(p, "Standard Blitz Wild\n"); for (int i = 0; i < MAX_BEST; i++) { if (i >= numS && i >= numB) break; if (i < numS) { pprintf(p, "%4d %-17s ", bestS[i].rating, bestS[i].name); } else { pprintf(p, " "); } if (i < numB) { pprintf(p, "%4d %-17s ", bestB[i].rating, bestB[i].name); } else { pprintf(p, " "); } if (i < numW) { pprintf(p, "%4d %-17s\n", bestW[i].rating, bestW[i].name); } else { pprintf(p, "\n"); } } return COM_OK; } #endif PUBLIC void rating_init(void) { zero_stats(); load_ratings(); } /* * This recalculates the rating info from the player data. (Which can * take a long time!) */ PUBLIC void rating_recalc(void) { DIR *dirp; char dname[MAX_FILENAME_SIZE]; int c; int p1; #if USE_DIRENT struct dirent *dp; #else struct direct *dp; #endif time_t t = time(NULL); fprintf(stderr, "FICS: Recalculating ratings at %s\n", strltime(&t)); zero_stats(); for (c = 'a'; c <= 'z'; c++) { snprintf(dname, sizeof dname, "%s/%c", player_dir, c); if ((dirp = opendir(dname)) == NULL) continue; for (dp = readdir(dirp); dp != NULL; dp = readdir(dirp)) { if (dp->d_name[0] != '.') { p1 = player_new(); if (player_read(p1, dp->d_name)) { player_remove(p1); fprintf(stderr, "FICS: Problem reading " "player %s.\n", dp->d_name); continue; } if (parray[p1].b_stats.rating > 0) { rating_add(parray[p1].b_stats.rating, TYPE_BLITZ); } if (parray[p1].s_stats.rating > 0) { rating_add(parray[p1].s_stats.rating, TYPE_STAND); } if (parray[p1].l_stats.rating > 0) { rating_add(parray[p1].l_stats.rating, TYPE_LIGHT); } // insert bughouse stuff here if (parray[p1].w_stats.rating > 0) { rating_add(parray[p1].w_stats.rating, TYPE_WILD); } player_remove(p1); } } /* for */ closedir(dirp); } /* for */ if (Rs_count) { Ratings_S_StdDev = sqrt(Rs_S / Rs_count); Ratings_S_Average = (Rs_total / (double)Rs_count); } else { Ratings_S_StdDev = 0; Ratings_S_Average = 0; } if (Rb_count) { Ratings_B_StdDev = sqrt(Rb_S / Rb_count); Ratings_B_Average = (Rb_total / (double)Rb_count); } else { Ratings_B_StdDev = 0; Ratings_B_Average = 0; } if (Rl_count) { Ratings_L_StdDev = sqrt(Rl_S / Rl_count); Ratings_L_Average = (Rl_total / (double)Rl_count); } else { Ratings_L_StdDev = 0; Ratings_L_Average = 0; } if (Rw_count) { Ratings_W_StdDev = sqrt(Rw_S / Rw_count); Ratings_W_Average = (Rw_total / (double)Rw_count); } else { Ratings_W_StdDev = 0; Ratings_W_Average = 0; } save_ratings(); t = time(NULL); fprintf(stderr, "FICS: Finished at %s\n", strltime(&t)); } PRIVATE int Round(double x) { return (x < 0 ? (int)(x - 0.5) : (int)(x + 0.5)); } PRIVATE double Gf(double ss) { return (1.0 / sqrt(1.0 + Gp * ss * ss)); } /* * Confusing but economical: calculate error and attenuation function * together. */ PRIVATE double GE(int r, int rr, double ss, double *fss) { *fss = Gf(ss); return (1.0 / (1.0 + pow(10.0, (rr - r) * (*fss) / 400.0))); } PRIVATE double current_sterr(double s, int t) { if (t < 0) t = 0; // this shouldn't happen return sqrt(s * s + Gd * Gd * log(1.0 + t / 60.0)); } /* * Calculates new rating and standard error. By vek. The person who * invented the ratings system is Mark E. Glickman, Ph.D. His e-mail * address is glickman@hustat.harvard.edu as of April '95. Postscript * copy of the note I coded this from should be available for ftp from * ics.onenet.net, if not elsewhere. */ PUBLIC void rating_sterr_delta(int p1, int p2, int type, int gtime, int result, int *deltarating, double *newsterr) { double E, fs2, denominator, GK, w; // Parts of fancy formulas double delta, sigma; // Results to return double s1, s2; int t1, r1, t2, r2; // Initial sterrs and ratings statistics *p1_stats; statistics *p2_stats; if (type == TYPE_BLITZ) { p1_stats = &parray[p1].b_stats; p2_stats = &parray[p2].b_stats; } else if (type == TYPE_WILD) { p1_stats = &parray[p1].w_stats; p2_stats = &parray[p2].w_stats; } else if (type == TYPE_LIGHT) { p1_stats = &parray[p1].l_stats; p2_stats = &parray[p2].l_stats; // insert bughouse stuff here } else { p1_stats = &parray[p1].s_stats; p2_stats = &parray[p2].s_stats; } /* * Calculate effective pre-game sterr's. ltime == 0 implies * never had sterr. */ if (p1_stats->ltime == 0) s1 = Gs0; else { t1 = gtime - p1_stats->ltime; s1 = current_sterr(p1_stats->sterr, t1); if (s1 > Gs0) s1 = Gs0; } if (p2_stats->ltime == 0) s2 = Gs0; else { t2 = gtime - p2_stats->ltime; s2 = current_sterr(p2_stats->sterr, t2); if (s2 > Gs0) s2 = Gs0; } if (p1_stats->rating == 0 && p1_stats->num == 0) r1 = Gr0; else r1 = p1_stats->rating; if (p2_stats->rating == 0 && p2_stats->num == 0) r2 = Gr0; else r2 = p2_stats->rating; if (result == RESULT_WIN) { w = 1.0; } else if (result == RESULT_DRAW) { w = 0.5; } else { w = 0.0; } E = GE(r1, r2, s2, &fs2); denominator = 1.0 / (s1 * s1) + Gq * Gq * fs2 * fs2 * E * (1.0 - E); GK = Gq * fs2 / denominator; delta = GK * (w - E); if (p1_stats->rating == 0 && p1_stats->num == 0) *deltarating = Round(Gr0 + delta); else *deltarating = Round(delta); // Returned values: deltarating, // newsterr. sigma = 1.0 / sqrt(denominator); *newsterr = (double) sigma; } PUBLIC int rating_delta(int p1, int p2, int type, int result, int gtime) { int delta; double sigma; rating_sterr_delta(p1, p2, type, gtime, result, &delta, &sigma); return delta; } PUBLIC int rating_update(int g) { double wSigma, bSigma; int gtime; int inprogress = (g == parray[garray[g].black].game); int wDelta, bDelta; int wRes, bRes; statistics *b_stats; statistics *w_stats; /* * If this is adjudication of stored game - be quiet about * ratings change. */ if (garray[g].type == TYPE_BLITZ) { w_stats = &parray[garray[g].white].b_stats; b_stats = &parray[garray[g].black].b_stats; } else if (garray[g].type == TYPE_STAND) { w_stats = &parray[garray[g].white].s_stats; b_stats = &parray[garray[g].black].s_stats; } else if (garray[g].type == TYPE_WILD) { w_stats = &parray[garray[g].white].w_stats; b_stats = &parray[garray[g].black].w_stats; } else if (garray[g].type == TYPE_LIGHT) { w_stats = &parray[garray[g].white].l_stats; b_stats = &parray[garray[g].black].l_stats; } else { fprintf(stderr, "FICS: Can't update untimed ratings!\n"); return -1; } switch (garray[g].result) { case END_CHECKMATE: case END_RESIGN: case END_FLAG: case END_ADJWIN: if (garray[g].winner == WHITE) { wRes = RESULT_WIN; bRes = RESULT_LOSS; } else { bRes = RESULT_WIN; wRes = RESULT_LOSS; } break; case END_AGREEDDRAW: case END_REPETITION: case END_50MOVERULE: case END_STALEMATE: case END_NOMATERIAL: case END_BOTHFLAG: case END_ADJDRAW: case END_FLAGNOMATERIAL: wRes = bRes = RESULT_DRAW; break; default: fprintf(stderr, "FICS: Update undecided game %d?\n", garray[g].result); return -1; } gtime = untenths(garray[g].timeOfStart); rating_sterr_delta(garray[g].white, garray[g].black, garray[g].type, gtime, wRes, &wDelta, &wSigma); rating_sterr_delta(garray[g].black, garray[g].white, garray[g].type, gtime, bRes, &bDelta, &bSigma); w_stats->ltime = gtime; b_stats->ltime = gtime; if (wRes == RESULT_WIN) { w_stats->win++; } else if (wRes == RESULT_LOSS) { w_stats->los++; } else { w_stats->dra++; } w_stats->num++; if (bRes == RESULT_WIN) { b_stats->win++; } else if (bRes == RESULT_LOSS) { b_stats->los++; } else { b_stats->dra++; } b_stats->num++; rating_remove(w_stats->rating, garray[g].type); rating_remove(b_stats->rating, garray[g].type); if (inprogress) { pprintf(garray[g].white, "%s rating adjustment: %d ", ((garray[g].type == TYPE_BLITZ) ? "Blitz" : ((garray[g].type == TYPE_WILD) ? "Wild" : ((garray[g].type == TYPE_LIGHT) ? "Lightning" : "Standard"))), w_stats->rating); pprintf(garray[g].black, "%s rating adjustment: %d ", ((garray[g].type == TYPE_BLITZ) ? "Blitz" : ((garray[g].type == TYPE_WILD) ? "Wild" : ((garray[g].type == TYPE_LIGHT) ? "Lightning" : "Standard"))), b_stats->rating); } if (wDelta < -1000) { pprintf(garray[g].white, "not changed due to bug " "(way too small)! sorry!\n"); fprintf(stderr, "FICS: Got too small ratings bug for %s " "(w) vs. %s\n", parray[garray[g].white].login, parray[garray[g].black].login); } else if (wDelta > 3000) { pprintf(garray[g].white, "not changed due to bug " "(way too big)! sorry!\n"); fprintf(stderr, "FICS: Got too big ratings bug for %s " "(w) vs. %s\n", parray[garray[g].white].login, parray[garray[g].black].login); } else { w_stats->rating += wDelta; w_stats->sterr = wSigma; } if (bDelta < -1000) { pprintf(garray[g].black, "not changed due to bug " "(way too small)! sorry!\n"); fprintf(stderr, "FICS: Got too small ratings bug for %s " "(b) vs. %s\n", parray[garray[g].black].login, parray[garray[g].white].login); } else if (bDelta > 3000) { pprintf(garray[g].black, "not changed due to bug " "(way too big)! sorry!\n"); fprintf(stderr, "FICS: Got too big ratings bug for %s " "(b) vs. %s\n", parray[garray[g].black].login, parray[garray[g].white].login); } else { b_stats->rating += bDelta; b_stats->sterr = bSigma; } rating_add(w_stats->rating, garray[g].type); rating_add(b_stats->rating, garray[g].type); if (w_stats->rating > w_stats->best && is_active(w_stats->num)) { w_stats->best = w_stats->rating; w_stats->whenbest = time(NULL); } if (b_stats->rating > b_stats->best && is_active(b_stats->num)) { b_stats->best = b_stats->rating; b_stats->whenbest = time(NULL); } // Ratings are now saved to disk after each game player_save(garray[g].white); player_save(garray[g].black); // foxbat 3.11.95 if (garray[g].type == TYPE_BLITZ) { Rb_count++; Rb_total += (w_stats->rating + b_stats->rating) / 2.0; } else if (garray[g].type == TYPE_STAND) { Rs_count++; Rs_total += (w_stats->rating + b_stats->rating) / 2.0; } else if (garray[g].type == TYPE_LIGHT) { Rl_count++; Rl_total += (w_stats->rating + b_stats->rating) / 2.0; } else if (garray[g].type == TYPE_WILD) { Rw_count++; Rw_total += (w_stats->rating + b_stats->rating) / 2.0; } // end add if (inprogress) { pprintf(garray[g].white, "--> %d\n", w_stats->rating); pprintf(garray[g].black, "--> %d\n", b_stats->rating); } save_ratings(); UpdateRank(garray[g].type, parray[garray[g].white].name, w_stats, parray[garray[g].white].name); UpdateRank(garray[g].type, parray[garray[g].black].name, b_stats, parray[garray[g].black].name); return 0; } PUBLIC int com_assess(int p, param_list param) { double newsterr1; double newsterr2; int p1 = p, p2; int p1_connected = 1, p2_connected = 1; int win1, draw1, loss1; int win2, draw2, loss2; time_t nowtime; nowtime = time(NULL); if (param[0].type == TYPE_NULL) { if (parray[p].game < 0) { pprintf(p, "You are not playing a game.\n"); return COM_OK; } else if (garray[parray[p].game].status == GAME_EXAMINE) { if (!strcmp(garray[parray[p].game].black_name, parray[p].name)) { pcommand(p, "assess %s\n", garray[parray[p].game].white_name); } else { pcommand(p, "assess %s %s\n", garray[parray[p].game].white_name, garray[parray[p].game].black_name); } return COM_OK; } else { p2 = parray[p].opponent; } } else { if (!FindPlayer(p, param[0].val.word, &p2, &p2_connected)) { pprintf(p, "No user named \"%s\" was found.\n", param[0].val.word); return COM_OK; } if (param[1].type != TYPE_NULL) { p1 = p2; p1_connected = p2_connected; if (!FindPlayer(p, param[1].val.word, &p2, &p2_connected)) { pprintf(p, "No user named \"%s\" was found.\n", param[1].val.word); if (!p1_connected) player_remove(p1); return COM_OK; } } } if (p1 == p2) { pprintf(p, "You can't assess the same players.\n"); if (!p1_connected) player_remove(p1); if (!p2_connected) player_remove(p2); return COM_OK; } rating_sterr_delta(p1, p2, TYPE_BLITZ, nowtime, RESULT_WIN, &win1, &newsterr1); rating_sterr_delta(p1, p2, TYPE_BLITZ, nowtime, RESULT_DRAW, &draw1, &newsterr1); rating_sterr_delta(p1, p2, TYPE_BLITZ, nowtime, RESULT_LOSS, &loss1, &newsterr1); rating_sterr_delta(p2, p1, TYPE_BLITZ, nowtime, RESULT_WIN, &win2, &newsterr2); rating_sterr_delta(p2, p1, TYPE_BLITZ, nowtime, RESULT_DRAW, &draw2, &newsterr2); rating_sterr_delta(p2, p1, TYPE_BLITZ, nowtime, RESULT_LOSS, &loss2, &newsterr2); pprintf(p, "\nBlitz\n %10s (%4s, RD: %5.1f) %10s (%4s, RD: %5.1f)\n", parray[p1].name, ratstrii(parray[p1].b_stats.rating, parray[p1].registered), parray[p1].b_stats.sterr, parray[p2].name, ratstrii(parray[p2].b_stats.rating, parray[p2].registered), parray[p2].b_stats.sterr); pprintf(p, "Win : %4d %4d\n", win1, loss2); pprintf(p, "Draw: %4d %4d\n", draw1, draw2); pprintf(p, "Loss: %4d %4d\n", loss1, win2); pprintf(p, "New RD: %5.1f %5.1f\n", newsterr1, newsterr2); rating_sterr_delta(p1, p2, TYPE_STAND, nowtime, RESULT_WIN, &win1, &newsterr1); rating_sterr_delta(p1, p2, TYPE_STAND, nowtime, RESULT_DRAW, &draw1, &newsterr1); rating_sterr_delta(p1, p2, TYPE_STAND, nowtime, RESULT_LOSS, &loss1, &newsterr1); rating_sterr_delta(p2, p1, TYPE_STAND, nowtime, RESULT_WIN, &win2, &newsterr2); rating_sterr_delta(p2, p1, TYPE_STAND, nowtime, RESULT_DRAW, &draw2, &newsterr2); rating_sterr_delta(p2, p1, TYPE_STAND, nowtime, RESULT_LOSS, &loss2, &newsterr2); pprintf(p, "\nStandard\n %10s (%4s, RD: %5.1f) %10s " "(%4s, RD: %5.1f)\n", parray[p1].name, ratstrii(parray[p1].s_stats.rating, parray[p1].registered), parray[p1].s_stats.sterr, parray[p2].name, ratstrii(parray[p2].s_stats.rating, parray[p2].registered), parray[p2].s_stats.sterr); pprintf(p, "Win : %4d %4d\n", win1, loss2); pprintf(p, "Draw: %4d %4d\n", draw1, draw2); pprintf(p, "Loss: %4d %4d\n", loss1, win2); pprintf(p, "New RD: %5.1f %5.1f\n", newsterr1, newsterr2); rating_sterr_delta(p1, p2, TYPE_LIGHT, nowtime, RESULT_WIN, &win1, &newsterr1); rating_sterr_delta(p1, p2, TYPE_LIGHT, nowtime, RESULT_DRAW, &draw1, &newsterr1); rating_sterr_delta(p1, p2, TYPE_LIGHT, nowtime, RESULT_LOSS, &loss1, &newsterr1); rating_sterr_delta(p2, p1, TYPE_LIGHT, nowtime, RESULT_WIN, &win2, &newsterr2); rating_sterr_delta(p2, p1, TYPE_LIGHT, nowtime, RESULT_DRAW, &draw2, &newsterr2); rating_sterr_delta(p2, p1, TYPE_LIGHT, nowtime, RESULT_LOSS, &loss2, &newsterr2); pprintf(p, "\nLightning\n %10s (%4s, RD: %5.1f) %10s " "(%4s, RD: %5.1f)\n", parray[p1].name, ratstrii(parray[p1].l_stats.rating, parray[p1].registered), parray[p1].l_stats.sterr, parray[p2].name, ratstrii(parray[p2].l_stats.rating, parray[p2].registered), parray[p2].l_stats.sterr); pprintf(p, "Win : %4d %4d\n", win1, loss2); pprintf(p, "Draw: %4d %4d\n", draw1, draw2); pprintf(p, "Loss: %4d %4d\n", loss1, win2); pprintf(p, "New RD: %5.1f %5.1f\n", newsterr1, newsterr2); rating_sterr_delta(p1, p2, TYPE_WILD, nowtime, RESULT_WIN, &win1, &newsterr1); rating_sterr_delta(p1, p2, TYPE_WILD, nowtime, RESULT_DRAW, &draw1, &newsterr1); rating_sterr_delta(p1, p2, TYPE_WILD, nowtime, RESULT_LOSS, &loss1, &newsterr1); rating_sterr_delta(p2, p1, TYPE_WILD, nowtime, RESULT_WIN, &win2, &newsterr2); rating_sterr_delta(p2, p1, TYPE_WILD, nowtime, RESULT_DRAW, &draw2, &newsterr2); rating_sterr_delta(p2, p1, TYPE_WILD, nowtime, RESULT_LOSS, &loss2, &newsterr2); pprintf(p, "\nWild\n %10s (%4s, RD: %5.1f) %10s (%4s, RD: %5.1f)\n", parray[p1].name, ratstrii(parray[p1].w_stats.rating, parray[p1].registered), parray[p1].w_stats.sterr, parray[p2].name, ratstrii(parray[p2].w_stats.rating, parray[p2].registered), parray[p2].w_stats.sterr); pprintf(p, "Win : %4d %4d\n", win1, loss2); pprintf(p, "Draw: %4d %4d\n", draw1, draw2); pprintf(p, "Loss: %4d %4d\n", loss1, win2); pprintf(p, "New RD: %5.1f %5.1f\n", newsterr1, newsterr2); if (!p1_connected) player_remove(p1); if (!p2_connected) player_remove(p2); return COM_OK; } PUBLIC int com_best(int p, param_list param) { return Best(p, param, 1); } PUBLIC int com_hbest(int p, param_list param) { return Best(p, param, 0); } PUBLIC int com_statistics(int p, param_list param) { pprintf(p, " Standard Blitz Lightning " "Wild\n"); pprintf(p, "average: %7.2f %7.2f %7.2f %7.2f\n", Ratings_S_Average, Ratings_B_Average, Ratings_L_Average, Ratings_W_Average); pprintf(p, "std dev: %7.2f %7.2f %7.2f %7.2f\n", Ratings_S_StdDev, Ratings_B_StdDev, Ratings_L_StdDev, Ratings_W_StdDev); pprintf(p, "number : %7d %7d %7d %7d\n", Rs_count, Rb_count, Rl_count, Rw_count); return COM_OK; } PUBLIC int com_fixrank(int p, param_list param) { int p1, connected; if (!FindPlayer(p, param[0].val.word, &p1, &connected)) return COM_OK; UpdateRank(TYPE_BLITZ, parray[p1].name, &parray[p1].b_stats, parray[p1].name); UpdateRank(TYPE_STAND, parray[p1].name, &parray[p1].s_stats, parray[p1].name); UpdateRank(TYPE_WILD, parray[p1].name, &parray[p1].w_stats, parray[p1].name); if (!connected) player_remove(p1); return COM_OK; } PUBLIC int com_rank(int p, param_list param) { return DisplayRank(p, param, 1); } PUBLIC int com_hrank(int p, param_list param) { return DisplayRank(p, param, 0); } PUBLIC int DisplayRank(int p, param_list param, int showComputers) { int show = (SHOW_BLITZ|SHOW_STANDARD|SHOW_WILD); int start, end, target, connected; if (param[0].type == TYPE_NULL) { DisplayTargetRank(p, parray[p].name, show, showComputers); return COM_OK; } else if (isdigit(param[0].val.word[0])) { end = -1; sscanf(param[0].val.word, "%d-%d", &start, &end); if (end > 0 && (param[1].type != TYPE_NULL)) show = ShowFromString(param[1].val.word); DisplayRankedPlayers(p, start, end, show, showComputers); return COM_OK; } else { target = player_search(p, param[0].val.word); if (target == 0) { pprintf(p, "Target %s not found.\n", param[0].val.word); return COM_OK; } connected = (target > 0); if (!connected) target = -target - 1; else target--; if (param[1].type != TYPE_NULL) show = ShowFromString(param[1].val.word); DisplayTargetRank(p, parray[target].name, show, showComputers); if (!connected) player_remove(target); return COM_OK; } } /* * CompareStats() returns: * - 1 if s1 comes first, * - -1 if s2 comes first, * - and 0 if neither takes precedence. */ PRIVATE int CompareStats(char *name1, statistics *s1, char *name2, statistics *s2) { int i, l1; if (s1 == NULL) { if (s2 == NULL) return 0; else return -1; } else if (s2 == NULL) return 1; if (s1->rating > s2->rating) return 1; if (s1->rating < s2->rating) return -1; l1 = strlen(name1); for (i = 0; i < l1; i++) { if (name2[i] == '\0') return -1; if (tolower(name1[i]) < tolower(name2[i])) return 1; if (tolower(name1[i]) > tolower(name2[i])) return -1; } if (name2[i] != '\0') return 1; fprintf(stderr, "Duplicate entries found: %s.\n", name1); return 0; } PRIVATE int GetRankFileName(char *out, const size_t size, int type) { switch (type) { case TYPE_BLITZ: snprintf(out, size, "%s/rank.blitz", sdir); return type; case TYPE_STAND: snprintf(out, size, "%s/rank.std", sdir); return type; case TYPE_WILD: snprintf(out, size, "%s/rank.wild", sdir); return type; default: return -1; } } PUBLIC void UpdateRank(int type, char *addName, statistics *sNew, char *delName) { FILE *fp; FILE *fptemp; char RankFile[MAX_FILENAME_SIZE]; char TmpRankFile[MAX_FILENAME_SIZE]; char command[MAX_STRING_LENGTH]; char line[MAX_RANK_LINE] = { '\0' }; char login[MAX_LOGIN_NAME] = { '\0' }; int comp; statistics sCur; if (GetRankFileName(RankFile, sizeof RankFile, type) < 0) return; if ((fp = fopen(RankFile, "r")) == NULL) { warn("%s: can't open rank file to update", __func__); return; } snprintf(TmpRankFile, sizeof TmpRankFile, "%s/tmpRank", sdir); if ((fptemp = fopen(TmpRankFile, "w")) == NULL) { warn("%s: unable to open rank file for updating", __func__); fclose(fp); return; } while (fgets(line, MAX_RANK_LINE - 1, fp)) { sscanf(line, "%s %d %d %d", login, &sCur.rating, &sCur.num, &comp); if (delName != NULL && !strcasecmp(delName, login)) { // Kill name. delName = NULL; continue; } if (addName != NULL && CompareStats(addName, sNew, login, &sCur) > 0) { int computer = in_list(-1, L_COMPUTER, addName); fprintf(fptemp, "%s %d %d %d\n", addName, sNew->rating, sNew->num, computer); addName = NULL; } fprintf(fptemp, "%s %d %d %d\n", login, sCur.rating, sCur.num, comp); } fclose(fptemp); fclose(fp); // XXX #define NASH_CODE 0 #if NASH_CODE snprintf(command, sizeof command, "mv %s %s", TmpRankFile, RankFile); system(command); #else if (rename(TmpRankFile, RankFile) == -1) warn("%s: rename()", __func__); UNUSED_VAR(command); #endif } PRIVATE void DisplayRankHead(int p, int show) { char Line[MAX_STRING_LENGTH] = { '\0' }; if (CheckFlag(show, SHOW_BLITZ)) strlcat(Line, " Blitz ", sizeof(Line)); if (CheckFlag(show, SHOW_STANDARD)) strlcat(Line, " Standard ", sizeof(Line)); if (CheckFlag(show, SHOW_WILD)) strlcat(Line, " Wild", sizeof(Line)); pprintf(p, "%s\n\n", Line); } PRIVATE int CountRankLine(int countComp, char *loginName, int num, int is_computer) { if (loginName == NULL || loginName[0] == '\0') return 0; return (countComp || !is_computer) && (is_active(num)); } PRIVATE int GetRank(FILE *fp, char *target, int countComp) { char line[MAX_RANK_LINE] = { '\0' }; char login[MAX_LOGIN_NAME] = { '\0' }; int count = 0; int nGames, is_computer; int playerFound = 0; while (fgets(line, MAX_RANK_LINE - 1, fp) && !playerFound) { sscanf(line, "%s %*d %d %d", login, &nGames, &is_computer); if ((playerFound = !strcasecmp(login, target)) || CountRankLine(countComp, login, nGames, is_computer)) count++; } return (playerFound ? count : -1); } PRIVATE void PositionFilePtr(FILE *fp, int count, int *last, int *nTied, int showComp) { char line[MAX_RANK_LINE] = { '\0' }; char login[MAX_LOGIN_NAME] = { '\0' }; int rating, nGames, is_computer; if (fp == NULL) return; rating = nGames = is_computer = 0; rewind(fp); for (int i = 1; i < count; i++) { do { fgets(line, MAX_RANK_LINE - 1, fp); if (feof(fp)) break; sscanf(line, "%s %d %d %d", login, &rating, &nGames, &is_computer); } while (!CountRankLine(showComp, login, nGames, is_computer)); if (rating != *last) { *nTied = 1; *last = rating; } else (*nTied)++; } } PRIVATE int ShowRankEntry(int p, FILE *fp, int count, int comp, char *target, int *lastRating, int *nTied) { char login[MAX_LOGIN_NAME] = { '\0' }; char newLine[MAX_RANK_LINE] = { '\0' }; int rating, findable, nGames, is_comp; // XXX rating = 0; findable = (count > 0 && !feof(fp)); nGames = 0; is_comp = 0; if (findable) { do { fgets(newLine, MAX_RANK_LINE - 1, fp); if (feof(fp)) { findable = 0; } else if (newLine[0] != '\0') { sscanf(newLine, "%s %d %d %d", login, &rating, &nGames, &is_comp); } else { login[0] = '\0'; } } while (!CountRankLine(comp, login, nGames, is_comp) && findable && strcasecmp(login, target)); } if (findable) { if (!strcasecmp(login, target) && !CountRankLine(comp, login, nGames, is_comp)) { pprintf_highlight(p, "---- %-12.12s %4s", login, ratstr(rating)); pprintf(p, " "); return 0; } else if (*lastRating == rating && *nTied < 1) { pprintf(p, " "); if (!strcasecmp(login, target)) { pprintf_highlight(p, "%-12.12s %4s", login, ratstr(rating)); } else { pprintf(p, "%-12.12s %4s", login, ratstr(rating)); } pprintf(p, " "); return 1; } else { if (*nTied >= 1) { if (*lastRating == rating) count -= *nTied; *nTied = -1; } if (!strcasecmp(login, target)) { pprintf_highlight(p, "%4d. %-12.12s %4s", count, login, ratstr(rating)); } else { pprintf(p, "%4d. %-12.12s %4s", count, login, ratstr(rating)); } pprintf(p, " "); *lastRating = rating; return 1; } } else { pprintf(p, "%25s", ""); return 1; } } PRIVATE int CountAbove(int num, int blitz, int std, int wild, int which) { int max = blitz; if (max < std) max = std; if (max < wild) max = wild; return (max <= (num + 1) / 2 ? max - 1 : (num + 1) / 2); } PRIVATE int ShowRankLines(int p, FILE *fb, FILE *fs, FILE *fw, int bCount, int sCount, int wCount, int n, int showComp, int show, char *target) { int lastBlitz = 9999, nTiedBlitz = 0; int lastStd = 9999, nTiedStd = 0; int lastWild = 9999, nTiedWild = 0; if (n <= 0) return 0; if (CheckFlag(show, SHOW_BLITZ)) { PositionFilePtr(fb, bCount, &lastBlitz, &nTiedBlitz, showComp); if (feof(fb)) ClearFlag(show, SHOW_BLITZ); } if (CheckFlag(show, SHOW_STANDARD)) { PositionFilePtr(fs, sCount, &lastStd, &nTiedStd, showComp); if (feof(fs)) ClearFlag(show, SHOW_STANDARD); } if (CheckFlag(show, SHOW_WILD)) { PositionFilePtr(fw, wCount, &lastWild, &nTiedWild, showComp); if (feof(fw)) ClearFlag(show, SHOW_WILD); } if (!CheckFlag(show, (SHOW_BLITZ | SHOW_STANDARD | SHOW_WILD))) return 0; DisplayRankHead(p, show); for (int i = 0; i < n && show; i++) { if (CheckFlag(show, SHOW_BLITZ)) { bCount += ShowRankEntry(p, fb, bCount, showComp, target, &lastBlitz, &nTiedBlitz); } if (CheckFlag(show, SHOW_STANDARD)) { sCount += ShowRankEntry(p, fs, sCount, showComp, target, &lastStd, &nTiedStd); } if (CheckFlag(show, SHOW_WILD)) { wCount += ShowRankEntry(p, fw, wCount, showComp, target, &lastWild, &nTiedWild); } pprintf(p, "\n"); } return 1; } PUBLIC int DisplayTargetRank(int p, char *target, int show, int showComp) { FILE *fb = NULL; FILE *fs = NULL; FILE *fw = NULL; char Path[MAX_FILENAME_SIZE] = { '\0' }; int numAbove; int numToShow = 20; int blitzRank = -1, blitzCount; int stdRank = -1, stdCount; int wildRank = -1, wildCount; if (CheckFlag(show, SHOW_BLITZ)) { GetRankFileName(Path, sizeof Path, TYPE_BLITZ); if ((fb = fopen(Path, "r")) != NULL) blitzRank = GetRank(fb, target, showComp); if (blitzRank < 0) ClearFlag(show, SHOW_BLITZ); } if (CheckFlag(show, SHOW_STANDARD)) { GetRankFileName(Path, sizeof Path, TYPE_STAND); if ((fs = fopen(Path, "r")) != NULL) stdRank = GetRank(fs, target, showComp); if (stdRank < 0) ClearFlag(show, SHOW_STANDARD); } if (CheckFlag(show, SHOW_WILD)) { GetRankFileName(Path, sizeof Path, TYPE_WILD); if (CheckFlag(show, SHOW_WILD)) fw = fopen(Path, "r"); if (fw != NULL) wildRank = GetRank(fw, target, showComp); if (wildRank < 0) ClearFlag(show, SHOW_WILD); } if (!CheckFlag(show, (SHOW_BLITZ | SHOW_STANDARD | SHOW_WILD))) { pprintf(p, "No ratings to show.\n"); if (fb != NULL) fclose(fb); if (fs != NULL) fclose(fs); if (fw != NULL) fclose(fw); return 0; } numAbove = CountAbove(numToShow, blitzRank, stdRank, wildRank, show); blitzCount = (blitzRank - numAbove); stdCount = (stdRank - numAbove); wildCount = (wildRank - numAbove); ShowRankLines(p, fb, fs, fw, blitzCount, stdCount, wildCount, numToShow, showComp, show, target); if (fb != NULL) fclose(fb); if (fs != NULL) fclose(fs); if (fw != NULL) fclose(fw); return 1; } PUBLIC int DisplayRankedPlayers(int p, int start, int end, int show, int showComp) { FILE *fb = NULL; FILE *fs = NULL; FILE *fw = NULL; char Path[MAX_FILENAME_SIZE] = { '\0' }; int num = (end - start + 1); if (start <= 0) start = 1; if (num <= 0) return 0; if (num > 100) num = 100; if (CheckFlag(show, SHOW_BLITZ)) { GetRankFileName(Path, sizeof Path, TYPE_BLITZ); if ((fb = fopen(Path, "r")) == NULL) ClearFlag(show, SHOW_BLITZ); } if (CheckFlag(show, SHOW_STANDARD)) { GetRankFileName(Path, sizeof Path, TYPE_STAND); if ((fs = fopen(Path, "r")) == NULL) ClearFlag(show, SHOW_STANDARD); } if (CheckFlag(show, SHOW_WILD)) { GetRankFileName(Path, sizeof Path, TYPE_WILD); if ((fw = fopen(Path, "r")) == NULL) ClearFlag(show, SHOW_WILD); } ShowRankLines(p, fb, fs, fw, start, start, start, num, showComp, show, ""); if (fb) fclose(fb); if (fs) fclose(fs); if (fw) fclose(fw); return 1; } PUBLIC int ShowFromString(char *s) { int len = strlen(s ? s : ""); int show = 0; if (s == NULL || s[0] == '\0') return (SHOW_BLITZ | SHOW_STANDARD | SHOW_WILD); for (int i = 0; i < len; i++) { switch (s[i]) { case 'b': SetFlag(show, SHOW_BLITZ); break; case 's': SetFlag(show, SHOW_STANDARD); break; case 'w': SetFlag(show, SHOW_WILD); break; } } return show; } PUBLIC int Best(int p, param_list param, int ShowComp) { int show = (SHOW_BLITZ | SHOW_STANDARD | SHOW_WILD); if (param[0].type != TYPE_NULL) show = ShowFromString(param[0].val.word); DisplayRankedPlayers(p, 1, 20, show, ShowComp); return COM_OK; }