/* * This file is part of the libsidservo project. * Copyright 2025 Edward V. Emelianov . * * 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 3 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. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ // move telescope to given MOTOR position in degrees #include #include #include #include #include "conf.h" #include "dump.h" #include "sidservo.h" #include "simpleconv.h" typedef struct{ int help; int Ncycles; int wait; int relative; char *coordsoutput; char *conffile; double X; double Y; } parameters; static parameters G = { .Ncycles = 10, .X = NAN, .Y = NAN, }; static sl_option_t cmdlnopts[] = { {"help", NO_ARGS, NULL, 'h', arg_int, APTR(&G.help), "show this help"}, {"ncycles", NEED_ARG, NULL, 'n', arg_int, APTR(&G.Ncycles), "N cycles of waiting in stopped state (default: 40)"}, {"newx", NEED_ARG, NULL, 'X', arg_double, APTR(&G.X), "new X coordinate"}, {"newy", NEED_ARG, NULL, 'Y', arg_double, APTR(&G.Y), "new Y coordinate"}, {"output", NEED_ARG, NULL, 'o', arg_string, APTR(&G.coordsoutput),"file to log coordinates"}, {"wait", NO_ARGS, NULL, 'w', arg_int, APTR(&G.wait), "wait until mowing stopped"}, {"relative", NO_ARGS, NULL, 'r', arg_int, APTR(&G.relative), "relative move"}, {"conffile", NEED_ARG, NULL, 'C', arg_string, APTR(&G.conffile), "configuration file name"}, end_option }; static FILE* fcoords = NULL; static pthread_t dthr; void signals(int sig){ pthread_cancel(dthr); if(sig){ signal(sig, SIG_IGN); DBG("Get signal %d, quit.\n", sig); } Mount.quit(); if(fcoords) fclose(fcoords); exit(sig); } // dump thread static void *dumping(void _U_ *u){ dumpmoving(fcoords, 3600., G.Ncycles); return NULL; } int main(int _U_ argc, char _U_ **argv){ sl_init(); sl_parseargs(&argc, &argv, cmdlnopts); if(G.help) sl_showhelp(-1, cmdlnopts); conf_t *Config = readServoConf(G.conffile); if(!Config){ dumpConf(); return 1; } if(MCC_E_OK != Mount.init(Config)) ERRX("Can't init mount"); coordval_pair_t M; if(!getPos(&M, NULL)) ERRX("Can't get current position"); if(G.coordsoutput){ if(!G.wait) green("When logging I should wait until moving ends; added '-w'"); G.wait = 1; } if(G.coordsoutput){ if(!(fcoords = fopen(G.coordsoutput, "w"))) ERRX("Can't open %s", G.coordsoutput); logmnt(fcoords, NULL); if(pthread_create(&dthr, NULL, dumping, NULL)) ERRX("Can't run dump thread"); } printf("Mount position: X=%g, Y=%g\n", RAD2DEG(M.X.val), RAD2DEG(M.Y.val)); if(isnan(G.X) && isnan(G.Y)) goto out; double *xtag = NULL, *ytag = NULL, xr, yr; double _7deg = RAD2DEG(7.); if(!isnan(G.X)){ xr = DEG2RAD(G.X); if(G.relative) xr += M.X.val; xtag = &xr; // set max speed Mount.setSpeed(&_7deg, NULL); } if(!isnan(G.Y)){ yr = DEG2RAD(G.Y); if(G.relative) yr += M.Y.val; ytag = &yr; Mount.setSpeed(NULL, &_7deg); } printf("Moving to "); if(xtag) printf("X=%gdeg ", G.X); if(ytag) printf("Y=%gdeg", G.Y); printf("\n"); Mount.moveTo(xtag, ytag); if(G.wait){ sleep(1); waitmoving(G.Ncycles); if(!getPos(&M, NULL)) WARNX("Can't get current position"); else printf("New mount position: X=%g, Y=%g\n", RAD2DEG(M.X.val), RAD2DEG(M.Y.val)); } out: DBG("JOIN"); if(G.coordsoutput) pthread_join(dthr, NULL); DBG("QUIT"); if(G.wait){ if(getPos(&M, NULL)) printf("Mount position: X=%g, Y=%g\n", RAD2DEG(M.X.val), RAD2DEG(M.Y.val)); Mount.quit(); } return 0; }