int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow) { char szPath[MAX_PATH], szLibEccoFile[MAX_PATH]; EccoApiStruct EccoApi; BROWSEINFO bi; LPITEMIDLIST pidl; LocatePath(szLibEccoFile, cszLibEccoFile); if (!EccoApi.Startup(szLibEccoFile)) { MessageBox(NULL, "没有找到ECCO.DLL!", "ECCO开局信息整理工具", MB_ICONEXCLAMATION); return 0; } bi.hwndOwner = NULL; bi.pidlRoot = NULL; bi.pszDisplayName = NULL; bi.lpszTitle = "请选择可移植棋谱(*.PGN)所在的文件夹"; bi.ulFlags = BIF_RETURNONLYFSDIRS; bi.lpfn = NULL; bi.lParam = NULL; bi.iImage = 0; pidl = SHBrowseForFolder(&bi); if (SHGetPathFromIDList(pidl, szPath)) { PreGenInit(); ChineseInit(); SearchFolder(szPath, EccoApi); MessageBox(NULL, "全部棋谱已加入ECCO开局信息。", "ECCO开局信息整理工具", MB_ICONINFORMATION); } EccoApi.Shutdown(); return 0; }
int main(int argc, char **argv) { EccoApiStruct EccoApi; char szLibEccoPath[1024]; if (argc < 2) { printf("=== XQF->PGN Convertor ===\n"); printf("Usage: XQF2PGN XQF-File [PGN-File]\n"); return 0; } PreGenInit(); ChineseInit(); LocatePath(szLibEccoPath, cszLibEccoFile); EccoApi.Startup(szLibEccoPath); switch (Xqf2Pgn(argv[1], argc == 2 ? "XQF2PGN.PGN" : argv[2], EccoApi)) { case XQF2PGN_ERROR_OPEN: printf("%s: File Opening Error!\n", argv[1]); break; case XQF2PGN_ERROR_FORMAT: printf("%s: Not an XQF File!\n", argv[1]); break; case XQF2PGN_ERROR_CREATE: printf("File Creation Error!\n"); break; case XQF2PGN_OK: #ifdef _WIN32 if (argc == 2) { ShellExecute(NULL, NULL, "XQF2PGN.PGN", NULL, NULL, SW_SHOW); } #endif break; } EccoApi.Shutdown(); return 0; }
int start(void) { int i; bool bPonderTime; UcciCommStruct UcciComm; char szLibEvalFile[1024]; const char *szEngineName; PositionStruct posProbe; #ifdef _WIN32 HMODULE hModule; #else void *hModule; #endif if (BootLine() != UCCI_COMM_UCCI) { return 0; } LocatePath(Search.szBookFile, "BOOK.DAT"); LocatePath(szLibEvalFile, cszLibEvalFile); hModule = LoadEvalApi(szLibEvalFile); bPonderTime = false; PreGenInit(); NewHash(24); // 24=16MB, 25=32MB, 26=64MB, ... Search.pos.FromFen("rnbakabnr/9/1c5c1/p1p1p1p1p/9/9/P1P1P1P1P/1C5C1/9/RNBAKABNR b - - 0 1"); Search.pos.nDistance = 0; Search.PreEvaluate(&Search.pos, &PreEval); Search.nBanMoves = 0; Search.bQuit = Search.bBatch = Search.bDebug = Search.bAlwaysCheck = false; Search.bUseHash = Search.bUseBook = Search.bNullMove = Search.bKnowledge = true; Search.bIdle = false; Search.nCountMask = INTERRUPT_COUNT - 1; Search.nRandomMask = 0; Search.rc4Random.InitRand(); szEngineName = Search.GetEngineName(); if (szEngineName == NULL) { PrintLn("#id name ElephantEye"); } else { //printf("id name %s / ElephantEye\n", szEngineName); //fflush(stdout); pipeOutputWrite("id name %s / ElephantEye\n", szEngineName); } PrintLn("#id version 3.15"); PrintLn("#id copyright 2004-2008 www.elephantbase.net"); PrintLn("#id author Morning Yellow"); PrintLn("#id user ElephantEye Test Team"); PrintLn("#option usemillisec type check default true"); PrintLn("#option promotion type check default false"); PrintLn("#option batch type check default false"); PrintLn("#option debug type check default false"); PrintLn("#option ponder type check default false"); PrintLn("#option alwayscheck type check default false"); PrintLn("#option usehash type check default true"); PrintLn("#option usebook type check default true"); //printf("option bookfiles type string default %s\n", Search.szBookFile); //fflush(stdout); pipeOutputWrite("#option bookfiles type string default %s\n", Search.szBookFile); //printf("option evalapi type string default %s\n", szLibEvalFile); //fflush(stdout); pipeOutputWrite("#option evalapi type string default %s\n", szLibEvalFile); PrintLn("#option hashsize type spin min 16 max 1024 default 16"); PrintLn("#option idle type combo var none var small var medium var large default none"); PrintLn("#option pruning type combo var none var small var medium var large default large"); PrintLn("#option knowledge type combo var none var small var medium var large default large"); PrintLn("#option randomness type combo var none var small var medium var large default none"); PrintLn("#option newgame type button"); PrintLn("#ucciok"); // 以下是接收指令和提供对策的循环体 while (!Search.bQuit) { switch (IdleLine(UcciComm, Search.bDebug)) { case UCCI_COMM_ISREADY: PrintLn("#readyok"); break; case UCCI_COMM_STOP: PrintLn("#nobestmove"); break; case UCCI_COMM_POSITION: BuildPos(Search.pos, UcciComm); Search.pos.nDistance = 0; Search.PreEvaluate(&Search.pos, &PreEval); Search.nBanMoves = 0; break; case UCCI_COMM_BANMOVES: Search.nBanMoves = UcciComm.nBanMoveNum; for (i = 0; i < UcciComm.nBanMoveNum; i ++) { Search.wmvBanList[i] = COORD_MOVE(UcciComm.lpdwBanMovesCoord[i]); } break; case UCCI_COMM_SETOPTION: switch (UcciComm.Option) { case UCCI_OPTION_PROMOTION: PreEval.bPromotion = UcciComm.bCheck; break; case UCCI_OPTION_BATCH: Search.bBatch = UcciComm.bCheck; break; case UCCI_OPTION_DEBUG: Search.bDebug = UcciComm.bCheck; break; case UCCI_OPTION_PONDER: bPonderTime = UcciComm.bCheck; break; case UCCI_OPTION_ALWAYSCHECK: Search.bAlwaysCheck = UcciComm.bCheck; break; case UCCI_OPTION_USEHASH: Search.bUseHash = UcciComm.bCheck; break; case UCCI_OPTION_USEBOOK: Search.bUseBook = UcciComm.bCheck; break; case UCCI_OPTION_BOOKFILES: if (AbsolutePath(UcciComm.szOption)) { strcpy(Search.szBookFile, UcciComm.szOption); } else { LocatePath(Search.szBookFile, UcciComm.szOption); } break; case UCCI_OPTION_EVALAPI: if (AbsolutePath(UcciComm.szOption)) { strcpy(szLibEvalFile, UcciComm.szOption); } else { LocatePath(szLibEvalFile, UcciComm.szOption); } FreeEvalApi(hModule); hModule = LoadEvalApi(szLibEvalFile); break; case UCCI_OPTION_HASHSIZE: DelHash(); i = 19; // 小于1,分配0.5M置换表 while (UcciComm.nSpin > 0) { UcciComm.nSpin /= 2; i ++; } NewHash(MAX(i, 24)); // 最小的置换表设为16M break; case UCCI_OPTION_IDLE: switch (UcciComm.Grade) { case UCCI_GRADE_NONE: Search.bIdle = false; Search.nCountMask = INTERRUPT_COUNT - 1; break; case UCCI_GRADE_SMALL: Search.bIdle = true; Search.nCountMask = INTERRUPT_COUNT / 4 - 1; break; case UCCI_GRADE_MEDIUM: Search.bIdle = true; Search.nCountMask = INTERRUPT_COUNT / 16 - 1; break; case UCCI_GRADE_LARGE: Search.bIdle = true; Search.nCountMask = INTERRUPT_COUNT / 64 - 1; break; default: break; } break; case UCCI_OPTION_PRUNING: Search.bNullMove = (UcciComm.Grade != UCCI_GRADE_NONE); break; case UCCI_OPTION_KNOWLEDGE: Search.bKnowledge = (UcciComm.Grade != UCCI_GRADE_NONE); break; case UCCI_OPTION_RANDOMNESS: switch (UcciComm.Grade) { case UCCI_GRADE_NONE: Search.nRandomMask = 0; break; case UCCI_GRADE_SMALL: Search.nRandomMask = 1; break; case UCCI_GRADE_MEDIUM: Search.nRandomMask = 3; break; case UCCI_GRADE_LARGE: Search.nRandomMask = 7; break; default: break; } break; default: break; } break; case UCCI_COMM_GO: Search.bPonder = UcciComm.bPonder; Search.bDraw = UcciComm.bDraw; switch (UcciComm.Go) { case UCCI_GO_DEPTH: Search.nGoMode = GO_MODE_INFINITY; Search.nNodes = 0; SearchMain(UcciComm.nDepth); break; case UCCI_GO_NODES: Search.nGoMode = GO_MODE_NODES; Search.nNodes = UcciComm.nNodes; SearchMain(UCCI_MAX_DEPTH); break; case UCCI_GO_TIME_MOVESTOGO: case UCCI_GO_TIME_INCREMENT: Search.nGoMode = GO_MODE_TIMER; if (UcciComm.Go == UCCI_GO_TIME_MOVESTOGO) { // 对于时段制,把剩余时间平均分配到每一步,作为适当时限。 // 剩余步数从1到5,最大时限依次是剩余时间的100%、90%、80%、70%和60%,5以上都是50% Search.nProperTimer = UcciComm.nTime / UcciComm.nMovesToGo; Search.nMaxTimer = UcciComm.nTime * MAX(5, 11 - UcciComm.nMovesToGo) / 10; } else { // 对于加时制,假设棋局会在20回合内结束,算出平均每一步的适当时限,最大时限是剩余时间的一半 Search.nProperTimer = UcciComm.nTime / 20 + UcciComm.nIncrement; Search.nMaxTimer = UcciComm.nTime / 2; } // 如果是后台思考的时间分配策略,那么适当时限设为原来的1.25倍 Search.nProperTimer += (bPonderTime ? Search.nProperTimer / 4 : 0); Search.nMaxTimer = MIN(Search.nMaxTimer, Search.nProperTimer * 10); SearchMain(UCCI_MAX_DEPTH); break; default: break; } break; case UCCI_COMM_PROBE: BuildPos(posProbe, UcciComm); if (!PopHash(posProbe)) { PopLeaf(posProbe); } break; case UCCI_COMM_QUIT: Search.bQuit = true; break; default: break; } } DelHash(); FreeEvalApi(hModule); PrintLn("#bye"); return 0; }
int main(void) { int i; bool bPonderTime; UcciCommStruct UcciComm; const char *szEngineName; PositionStruct posProbe; #ifdef _WIN32 HMODULE hModule; #else void *hModule; #endif int mv, stat; char fen[1024]; /* disable stdio buffering */ if (setvbuf(stdin, NULL, _IONBF, 0) != 0) perror("setvbuf"); if (setvbuf(stdout, NULL, _IONBF, 0) != 0) perror("setvbuf"); // myfp = fopen("test", "w+"); // fputs("test\n", myfp); xb_mv_left = 40; xb_mv_ctrl = 40; xb_tm_left = 30000; xb_tm_ctrl = 30000; xb_tm_incr = 0; xb_post = 0; xb_ponder = 0; xb_depth = UCCI_MAX_DEPTH; xb_force = 0; Search.nHashSize = 4; Search.nRandom = 0; Search.nRandomSave = 2; /* if not working with autotools */ #ifndef PKGDATADIR #define PKGDATADIR "." #endif LocatePath(Search.szBookFile, PKGDATADIR "/book.dat"); //LocatePath(Search.szBookFile, "book.dat"); LocatePath(Search.szLibEvalFile, cszLibEvalFile); hModule = LoadEvalApi(Search.szLibEvalFile); bPonderTime = false; PreGenInit(); NewHash(24); // 24=16MB, 25=32MB, 26=64MB, ... Search.pos.FromFen(cszStartFen); Search.pos.nDistance = 0; Search.PreEvaluate(&Search.pos, &PreEval); Search.nBanMoves = 0; Search.bQuit = Search.bBatch = Search.bDebug = Search.bAlwaysCheck = false; Search.bUseHash = Search.bUseBook = Search.bNullMove = Search.bKnowledge = true; Search.bIdle = false; Search.nCountMask = INTERRUPT_COUNT - 1; Search.nRandomMask = 0; Search.rc4Random.InitRand(); szEngineName = Search.GetEngineName(); if (szEngineName == NULL) { PrintLn("id name ElephantEye"); } else { printf("id name %s / ElephantEye\n", szEngineName); fflush(stdout); } PrintLn("id version 3.15"); PrintLn("id copyright 2004-2008 www.elephantbase.net"); PrintLn("id author Morning Yellow"); PrintLn("id user ElephantEye Test Team"); while (BootLine() != UCCI_COMM_XBOARD); // PrintLn("option usemillisec type check default true"); // PrintLn("option promotion type check default false"); // PrintLn("option batch type check default false"); // PrintLn("option debug type check default false"); // PrintLn("option ponder type check default false"); // PrintLn("option alwayscheck type check default false"); // PrintLn("option usehash type check default true"); // PrintLn("option usebook type check default true"); // printf("option bookfiles type string default %s\n", Search.szBookFile); // fflush(stdout); // printf("option evalapi type string default %s\n", szLibEvalFile); // fflush(stdout); // PrintLn("option hashsize type spin min 16 max 1024 default 16"); // PrintLn("option idle type combo var none var small var medium var large default none"); // PrintLn("option pruning type combo var none var small var medium var large default large"); // PrintLn("option knowledge type combo var none var small var medium var large default large"); // PrintLn("option randomness type combo var none var small var medium var large default none"); // PrintLn("option newgame type button"); // PrintLn("ucciok"); // 以下是接收指令和提供对策的循环体 while (!Search.bQuit) { switch (IdleLine(UcciComm, Search.bDebug)) { case UCCI_COMM_STOP: PrintLn("nobestmove"); break; case UCCI_COMM_POSITION: BuildPos(Search.pos, UcciComm); Search.pos.nDistance = 0; Search.PreEvaluate(&Search.pos, &PreEval); Search.nBanMoves = 0; hint_mv = 0; break; case UCCI_COMM_NEW: Search.pos.FromFen(cszStartFen); Search.pos.nDistance = 0; Search.PreEvaluate(&Search.pos, &PreEval); Search.nBanMoves = 0; xb_force = 0; xb_tm_left = xb_tm_ctrl; xb_mv_left = xb_mv_ctrl; xb_depth = UCCI_MAX_DEPTH; hint_mv = 0; break; case UCCI_COMM_BANMOVES: Search.nBanMoves = UcciComm.nBanMoveNum; for (i = 0; i < UcciComm.nBanMoveNum; i ++) { Search.wmvBanList[i] = COORD_MOVE(UcciComm.lpdwBanMovesCoord[i]); } break; case UCCI_COMM_SETOPTION: switch (UcciComm.Option) { case UCCI_OPTION_PROMOTION: PreEval.bPromotion = UcciComm.bCheck; break; case UCCI_OPTION_ALWAYSCHECK: Search.bAlwaysCheck = UcciComm.bCheck; break; case UCCI_OPTION_USEHASH: Search.bUseHash = UcciComm.bCheck; break; case UCCI_OPTION_USEBOOK: Search.bUseBook = UcciComm.bCheck; break; case UCCI_OPTION_BOOKFILES: if (AbsolutePath(UcciComm.szOption)) { strcpy(Search.szBookFile, UcciComm.szOption); } else { LocatePath(Search.szBookFile, UcciComm.szOption); } break; case UCCI_OPTION_EVALAPI: if (AbsolutePath(UcciComm.szOption)) { strcpy(Search.szLibEvalFile, UcciComm.szOption); } else { LocatePath(Search.szLibEvalFile, UcciComm.szOption); } FreeEvalApi(hModule); hModule = LoadEvalApi(Search.szLibEvalFile); break; case UCCI_OPTION_HASHSIZE: DelHash(); Search.nHashSize = UcciComm.nSpin; NewHash(UcciComm.nSpin + 20); break; case UCCI_OPTION_PRUNING: Search.bNullMove = UcciComm.bCheck; break; case UCCI_OPTION_KNOWLEDGE: Search.bKnowledge = UcciComm.bCheck; break; case UCCI_OPTION_RANDOMNESS: Search.nRandom = UcciComm.nSpin; if (UcciComm.nSpin) Search.nRandomSave = UcciComm.nSpin; Search.nRandomMask = (1 << Search.nRandom) - 1; break; default: break; } break; case UCCI_COMM_GO: // Search.bPonder = UcciComm.bPonder; // Search.bDraw = UcciComm.bDraw; // switch (UcciComm.Go) { // case UCCI_GO_DEPTH: // Search.nGoMode = GO_MODE_INFINITY; // Search.nNodes = 0; // SearchMain(UcciComm.nDepth); // break; // case UCCI_GO_NODES: // Search.nGoMode = GO_MODE_NODES; // Search.nNodes = UcciComm.nNodes; // SearchMain(UCCI_MAX_DEPTH); // break; // case UCCI_GO_TIME_MOVESTOGO: // case UCCI_GO_TIME_INCREMENT: // Search.nGoMode = GO_MODE_TIMER; // if (UcciComm.Go == UCCI_GO_TIME_MOVESTOGO) { // // 对于时段制,把剩余时间平均分配到每一步,作为适当时限。 // // 剩余步数从1到5,最大时限依次是剩余时间的100%、90%、80%、70%和60%,5以上都是50% // Search.nProperTimer = UcciComm.nTime / UcciComm.nMovesToGo; // Search.nMaxTimer = UcciComm.nTime * MAX(5, 11 - UcciComm.nMovesToGo) / 10; // } else { // // 对于加时制,假设棋局会在20回合内结束,算出平均每一步的适当时限,最大时限是剩余时间的一半 // Search.nProperTimer = UcciComm.nTime / 20 + UcciComm.nIncrement; // Search.nMaxTimer = UcciComm.nTime / 2; // } // // 如果是后台思考的时间分配策略,那么适当时限设为原来的1.25倍 // Search.nProperTimer += (bPonderTime ? Search.nProperTimer / 4 : 0); // Search.nMaxTimer = MIN(Search.nMaxTimer, Search.nProperTimer * 10); // SearchMain(UCCI_MAX_DEPTH); // break; // default: // break; // } xb_force = 0; Search.nGoMode = GO_MODE_TIMER; prepare_clock(); SearchMain(xb_depth); update_clock(); break; case UCCI_COMM_PROBE: BuildPos(posProbe, UcciComm); if (!PopHash(posProbe)) { PopLeaf(posProbe); } break; case UCCI_COMM_QUIT: Search.bQuit = true; break; case UCCI_COMM_UNDO: if (Search.pos.nDistance >= 1) Search.pos.UndoMakeMove(); hint_mv = 0; break; case UCCI_COMM_REMOVE: if (Search.pos.nDistance >= 2) { Search.pos.UndoMakeMove(); Search.pos.UndoMakeMove(); } hint_mv = 0; break; case UCCI_COMM_USERMOVE: mv = COORD_MOVE(UcciComm.dwMoveCoord); TryMove(Search.pos, stat, mv); switch (stat) { case MOVE_ILLEGAL: printf("Illegal move: %.4s\n", (char *)&UcciComm.dwMoveCoord); break; case MOVE_INCHECK: printf("Illegal move (in check): %.4s\n", (char *)&UcciComm.dwMoveCoord); break; case MOVE_DRAW: puts("1/2-1/2 {Draw by rule}\n"); break; case MOVE_PERPETUAL_LOSS: printf("Illegal move (perpetual attack): %.4s\n", (char *)&UcciComm.dwMoveCoord); break; case MOVE_PERPETUAL: puts("1/2-1/2 {Draw by repetition}\n"); break; case MOVE_MATE: if (Search.pos.sdPlayer == 0) puts("1-0 {checkmate or stalemate}\n"); else puts("0-1 {checkmate or stalemate}\n"); break; default: Search.pos.MakeMove(mv); if (!xb_force) { prepare_clock(); SearchMain(xb_depth); update_clock(); } break; } break; default: break; } } DelHash(); FreeEvalApi(hModule); return 0; }