Hallo,
Hat wer das Spiel Mastermind in C programmiert? Mit Vater Kind Prozessen (pipes).
Falls das wer hat, würd ich mich um den Source sehr freuen.
cu
edit: Suche hat mir nicht viel weiterhelfen können.
Mastermind
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http://probability.ca/jeff/comp/mastermind.c
gegoogelt und das gefunden, aber is ned multithreaded/prozessen soweit ich beim ueberfliegen gesehen hab
david
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google mal nach mastermind.c da findet sich etliches
david
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hört sich ja schwer nach sysprog an. naja, hier bitte:
C
Alles anzeigen/* MASTERMIND by Ernst Schwartz, 0004444*/ #include <stdio.h> #include <stdlib.h> #include <errno.h> #include <unistd.h> #include <sys/types.h> #include <sys/wait.h> #include <time.h> #include <string.h> #include <ctype.h> #define MAXCHAR 5 const char *szCommand = "<not yet set>"; static int pipe_father2son[2]; static int pipe_son2father[2]; static FILE *stream_father2son = (FILE *) 0; static FILE *stream_son2father = (FILE *) 0; int status; pid_t pid; pid_t wpid; void BailOut(const char *szMessage); void FreeRessources(void); /* GENERATES RANDOM 4-DIGIT NUMBER & STORES IT IN AN CHAR-ARRAY */ char *GenerateRandom(void) { static char random_number[MAXCHAR]; srand(time(NULL)*rand()); (void) sprintf(random_number, "%04d\0", rand()%10000); return random_number; } /* COMPARES 2 NUMBERS AND RETURNS THE POINTS & X */ char *CompareNumbers(char *number1, char *number2) { int i; int j; int anzahl_X; /* Ziffern vorhanden, aber an der falschen Stelle */ int anzahl_Punkte; /* Ziffern an der richtigen Stelle */ char *result = "\0"; i = j = anzahl_X = anzahl_Punkte = 0; /* printf("%s vs. %s\n", number1, number2); */ while(i<(MAXCHAR-1)) { while(j<(MAXCHAR-1)) { if(number1[i] == number2[j]) { if(i==j) { anzahl_X++; /* printf("%d - %d, %c - %c: X: %d\n", i, j, number1[i], number2[j], anzahl_X); */ } else { anzahl_Punkte++; /* printf("%d - %d, %c - %c: Punkte: %d\n", i, j, number1[i], number2[j], anzahl_Punkte); */ } number2[j] = 'X'; /* printf("number1: %s, number2: %s\n", number1, number2); */ break; } j++; } i++; j=0; } if (anzahl_X == 4) (void) sprintf(result, "Du hast meine Zahl erraten!\n"); else (void) sprintf(result, "X = %d, Punkte = %d\n", anzahl_X, anzahl_Punkte); return(result); } /* CHECKS IF INPUT IS CORRECT (only digits, not too short) */ int CheckInput(char *text) { int i = 0; do { if(!isdigit(text[i]) && text[i] != '\0') return 1; } while (text[i++] != '\0'); return 0; } /* HOW TO USE THIS PROGRAM */ void Usage(void) { (void) fprintf(stderr, "USAGE: %s\n", szCommand); BailOut((const char *) 0); } /* PRINTS ERROR-MESSAGES */ void BailOut(const char *szMessage) { if (szMessage != (const char *) 0) (void) fprintf(stderr, "%s", szMessage); exit(EXIT_FAILURE); } /* THE CHILD PROCESS; GENERATES RANDOM NUMBER & COMPARES IT TO WHAT IT GETS FROM THE FATHER */ /* RETURNS THE RESULT TO THE FATHER */ void ChildProcess(void) { char *number, *number_tmp = "\0"; char buffer[MAXCHAR]; char *result; number = GenerateRandom(); (void) printf("CHILD: created number %s\n", number); if (close(pipe_father2son[1]) == -1) { BailOut("Error closing the write descriptor father -> son!"); } /* printf("CHILD (134): CLOSED WRITE DESCRIPTOR father -> son.\n"); */ if ((stream_father2son = fdopen(pipe_father2son[0], "r")) == (FILE *) NULL) { BailOut("Cannot open pipe father -> son for reading!"); } /* printf("CHILD (141): OPENED PIPE father -> son FOR READING.\n"); */ if (close(pipe_son2father[0]) == -1) { BailOut("Error closing the read descriptor son -> father!"); } /* printf("CHILD (169): CLOSED READ DESCRIPTOR son -> father.\n"); */ if ((stream_son2father = fdopen(pipe_son2father[1], "w")) == (FILE *) NULL) { BailOut("Cannot open pipe son -> father for writing!"); } /* printf("CHILD (177): OPENED PIPE son -> father FOR WRITING.\n"); */ /* NOW READING FROM FATHER ! */ do { (void) strncpy(number_tmp, number, sizeof(number)); /* printf("ANFANG: %s\n", number); */ if (fgets(buffer, MAXCHAR, stream_father2son) == NULL) { BailOut("Can't read from stream father -> son!"); } /* printf("CHILD (148): READ FROM PIPE father -> son.\n"); */ /* printf("VOR COMPARE: %s vs. %s\n", number, buffer); */ result = CompareNumbers(number_tmp, buffer); /* printf("NACH COMPARE: %s vs. %s\n", number, buffer); */ /* printf("CHILD: FUNCTION RETURNED: %s\n", result); */ /* printf("CHILD (158): CHECKED RESULT.\n"); */ /* NOW WRITING TO FATHER ! */ if (fprintf(stream_son2father, result) < 0) { BailOut("Cannot write to pipe son -> father!"); } /* printf("CHILD (185): WROTE TO PIPE son -> father.\n"); */ if (fflush(stream_son2father) == EOF) { BailOut("Cannot flush pipe son -> father!"); } /* printf("CHILD (193): FLUSHED PIPE son -> father.\n"); */ if(result[0] == 'D') break; /* printf("ENDE: %s\n", number); */ } while (1); FreeRessources(); /* printf("CHILD (205): FREE'D RESSOURCES.\n"); */ exit(EXIT_SUCCESS); } /* FATHER PROCESS; GETS USER INPUT, SENDS IT TO CHILD, RECEIVES RESULTS FROM CHILD */ /* AND PRINTS THEM ON stdout */ void FatherProcess(void) { char input[MAXCHAR]; char result[1024]; result[0] = '\0'; if (close(pipe_father2son[0]) == -1) { BailOut("Error closing the read descriptor father -> son!"); } /* printf("PARENT (227): CLOSED READ DESCRIPTOR father -> son.\n"); */ if ((stream_father2son = fdopen(pipe_father2son[1], "w")) == (FILE *) NULL) { BailOut("Cannot open pipe father -> son for writing!"); } /* printf("PARENT (235): OPENED PIPE father -> son FOR WRITING.\n"); */ if (close(pipe_son2father[1]) == -1) { BailOut("Error closing the write descriptor son -> father!"); } /* printf("PARENT (261): CLOSED WRITE DESCRIPTOR son -> father.\n"); */ if ((stream_son2father = fdopen(pipe_son2father[0], "r")) == (FILE *) NULL) { BailOut("Cannot open pipe son -> father for reading!"); } /* printf("PARENT (269): OPENED PIPE son -> father FOR READING.\n"); */ while (result[0] != 'D') { result[0] = '\0'; do { input[0] = '\0'; (void) printf("PARENT: Write something: "); if (fgets(input, MAXCHAR, stdin) == NULL) { BailOut("Couldn't read from stdin!"); } if (fflush(stdin) == EOF) { BailOut("Couldn't flush stdin!"); } if(CheckInput(input) == 1) { (void) printf("%s: Bad bad input!\n", input); continue; } break; } while(1); /* NOW WRITING TO SON ! */ if (fprintf(stream_father2son, input) < 0) { BailOut("Can't write to pipe father -> son!"); } /* printf("PARENT (243): WROTE TO PIPE father -> son.\n"); */ if(fflush(stream_father2son) == EOF) { BailOut("Can't flush stream father -> son"); } /* printf("PARENT (251): FLUSHED STREAM father -> son.\n"); */ /* NOW READING FROM SON ! */ if (fgets(result, 1024, stream_son2father) == NULL) { BailOut("Can't read from stream son -> father!"); } /* printf("PARENT (277): READ FROM PIPE son -> father.\n"); */ (void) printf("%s", result); } FreeRessources(); /* printf("PARENT (282): FREE'D RESSOURCES.\n"); */ } /* MAKES THE PIPES */ void AllocateRessources(void) { if (pipe(pipe_father2son) == -1) BailOut("Cannot create pipe father -> son!"); if (pipe(pipe_son2father) == -1) BailOut("Cannot create pipe son -> father!"); } /* CLOSES THE STREAMS */ void FreeRessources(void) { if (stream_father2son != (FILE *) 0) { if (fclose((FILE *) stream_father2son) == EOF) { stream_father2son = (FILE *) 0; BailOut("Cannot close pipestream!"); } stream_father2son = (FILE *) 0; } if (stream_son2father != (FILE *) 0) { if (fclose((FILE *) stream_son2father) == EOF) { stream_son2father = (FILE *) 0; BailOut("Cannot close pipestream!"); } stream_son2father = (FILE *) 0; } } /* MAIN METHOD; FORKS CHILD, PLAYS GAME, WAITS FOR CHILD TO EXIT, THEN EXITS */ int main(int argc, char *argv[]) { szCommand = argv[0]; if (argc != 1) { Usage(); } AllocateRessources(); switch(pid=fork()) { case -1: perror("fork"); /* something went wrong */ exit(1); /* parent exits */ case 0: ChildProcess(); default: (void) printf("%s\n", "== MASTERMIND =="); FatherProcess(); while ((wpid = wait(&status)) != pid) { if (wpid != -1) { continue; } if (errno == EINTR) { continue; } BailOut("Error waiting for child process!"); } } exit(EXIT_SUCCESS); }
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