/* ** iolib.c ** Input/output library to LUA */ char *rcs_iolib="$Id: iolib.c,v 1.28 1995/11/10 17:55:48 roberto Exp roberto $"; #include #include #include #include #include #include #include #include "lua.h" #include "luadebug.h" #include "lualib.h" static FILE *in=stdin, *out=stdout; #ifdef POPEN FILE *popen(); int pclose(); #else #define popen(x,y) NULL /* that is, popen always fails */ #define pclose(x) (-1) #endif static void closeread (void) { if (in != stdin) { if (pclose(in) == -1) fclose(in); in = stdin; } } static void closewrite (void) { if (out != stdout) { if (pclose(out) == -1) fclose(out); out = stdout; } } /* ** Open a file to read. ** LUA interface: ** status = readfrom (filename) ** where: ** status = 1 -> success ** status = nil -> error */ static void io_readfrom (void) { if (lua_getparam (1) == LUA_NOOBJECT) { /* restore standart input */ closeread(); lua_pushnumber (1); } else { char *s = lua_check_string(1, "readfrom"); FILE *fp = (*s == '|') ? popen(s+1, "r") : fopen(s, "r"); if (fp == NULL) lua_pushnil(); else { closeread(); in = fp; lua_pushnumber (1); } } } /* ** Open a file to write. ** LUA interface: ** status = writeto (filename) ** where: ** status = 1 -> success ** status = nil -> error */ static void io_writeto (void) { if (lua_getparam (1) == LUA_NOOBJECT) /* restore standart output */ { closewrite(); lua_pushnumber (1); } else { char *s = lua_check_string(1, "writeto"); FILE *fp = (*s == '|') ? popen(s+1,"w") : fopen(s,"w"); if (fp == NULL) lua_pushnil(); else { closewrite(); out = fp; lua_pushnumber (1); } } } /* ** Open a file to write appended. ** LUA interface: ** status = appendto (filename) ** where: ** status = 2 -> success (already exist) ** status = 1 -> success (new file) ** status = nil -> error */ static void io_appendto (void) { char *s = lua_check_string(1, "appendto"); struct stat st; int r = (stat(s, &st) == -1) ? 1 : 2; FILE *fp = fopen (s, "a"); if (fp == NULL) lua_pushnil(); else { if (out != stdout) fclose (out); out = fp; lua_pushnumber (r); } } static char getformat (char *f, int *just, int *m, int *n) { int t; switch (*f++) { case 's': case 'S': t = 's'; break; case 'f': case 'F': case 'g': case 'G': case 'e': case 'E': t = 'f'; break; case 'i': case 'I': t = 'i'; break; default: t = 0; /* to avoid compiler warnings */ lua_arg_error("read/write (format)"); } *just = (*f == '<' || *f == '>' || *f == '|') ? *f++ : '>'; if (isdigit(*f)) { *m = 0; while (isdigit(*f)) *m = *m*10 + (*f++ - '0'); } else *m = -1; if (*f == '.') { f++; /* skip point */ *n = 0; while (isdigit(*f)) *n = *n*10 + (*f++ - '0'); } else *n = -1; return t; } static char *add_char (int c) { static char *buff = NULL; static int max = 0; static int n = 0; if (n >= max) { if (max == 0) { max = 100; buff = (char *)malloc(max); } else { max *= 2; buff = (char *)realloc(buff, max); } if (buff == NULL) lua_error("memory overflow"); } buff[n++] = c; if (c == 0) n = 0; /* prepare for next string */ return buff; } /* ** Read a variable. On error put nil on stack. ** LUA interface: ** variable = read ([format]) ** ** O formato pode ter um dos seguintes especificadores: ** ** s ou S -> para string ** f ou F, g ou G, e ou E -> para reais ** i ou I -> para inteiros ** ** Estes especificadores podem vir seguidos de numero que representa ** o numero de campos a serem lidos. */ static int read_until_char (int del) { int c; while((c = fgetc(in)) != EOF && c != del) add_char(c); return c; } static int read_until_blank (void) { int c; while((c = fgetc(in)) != EOF && !isspace(c)) add_char(c); return c; } static void read_m (int m) { int c; while (m-- && (c = fgetc(in)) != EOF) add_char(c); } static void read_free (void) { int c; while (isspace(c=fgetc(in))) ; if (c == EOF) { lua_pushnil(); return; } if (c == '\"' || c == '\'') { /* string */ c = read_until_char(c); if (c == EOF) { add_char(0); /* to be ready for next time */ lua_pushnil(); } else lua_pushstring(add_char(0)); } else { double d; char dummy; char *s; add_char(c); read_until_blank(); s = add_char(0); if (sscanf(s, "%lf %c", &d, &dummy) == 1) lua_pushnumber(d); else lua_pushstring(s); } } static void io_read (void) { lua_Object o = lua_getparam (1); if (o == LUA_NOOBJECT) /* free format */ read_free(); else /* formatted */ { int m, dummy1, dummy2; switch (getformat(lua_check_string(1, "read"), &dummy1, &m, &dummy2)) { case 's': if (m < 0) read_until_blank(); else read_m(m); lua_pushstring(add_char(0)); break; case 'i': /* can read as float, since it makes no difference to Lua */ case 'f': { double d; int result; if (m < 0) result = fscanf(in, "%lf", &d); else { read_m(m); result = sscanf(add_char(0), "%lf", &d); } if (result == 1) lua_pushnumber(d); else lua_pushnil(); break; } } } } /* ** Read characters until a given one. The delimiter is not read. */ static void io_readuntil (void) { int del = *lua_check_string(1, "readuntil"); int c = read_until_char(del); if (c != EOF) ungetc(c,in); lua_pushstring(add_char(0)); } /* ** Write a variable. On error put 0 on stack, otherwise put 1. ** LUA interface: ** status = write (variable [,format]) ** ** O formato pode ter um dos seguintes especificadores: ** ** s ou S -> para string ** f ou F, g ou G, e ou E -> para reais ** i ou I -> para inteiros ** ** Estes especificadores podem vir seguidos de: ** ** [?][m][.n] ** ** onde: ** ? -> indica justificacao ** < = esquerda ** | = centro ** > = direita (default) ** m -> numero maximo de campos (se exceder estoura) ** n -> indica precisao para ** reais -> numero de casas decimais ** inteiros -> numero minimo de digitos ** string -> nao se aplica */ static int write_fill (int n, int c) { while (n--) if (fputc(c, out) == EOF) return 0; return 1; } static int write_string (char *s, int just, int m) { int status; int l = strlen(s); int pre; /* number of blanks before string */ if (m < 0) m = l; else if (l > m) { write_fill(m, '*'); return 0; } pre = (just == '<') ? 0 : (just == '>') ? m-l : (m-l)/2; status = write_fill(pre, ' '); status = status && fprintf(out, "%s", s) >= 0; status = status && write_fill(m-(l+pre), ' '); return status; } static int write_float (int just, int m, int n) { char buffer[100]; lua_Object p = lua_getparam(1); float number; if (!lua_isnumber(p)) return 0; number = lua_getnumber(p); if (n >= 0) sprintf(buffer, "%.*f", n, number); else sprintf(buffer, "%g", number); return write_string(buffer, just, m); } static int write_int (int just, int m, int n) { char buffer[100]; lua_Object p = lua_getparam(1); int number; if (!lua_isnumber(p)) return 0; number = (int)lua_getnumber(p); if (n >= 0) sprintf(buffer, "%.*d", n, number); else sprintf(buffer, "%d", number); return write_string(buffer, just, m); } static void io_write (void) { int status = 0; if (lua_getparam (2) == LUA_NOOBJECT) /* free format */ { lua_Object o1 = lua_getparam(1); if (lua_isnumber(o1)) status = fprintf (out, "%g", lua_getnumber(o1)) >= 0; else if (lua_isstring(o1)) status = fprintf (out, "%s", lua_getstring(o1)) >= 0; } else /* formated */ { int just, m, n; switch (getformat (lua_check_string(2, "write"), &just, &m, &n)) { case 's': { lua_Object p = lua_getparam(1); if (lua_isstring(p)) status = write_string(lua_getstring(p), just, m); else status = 0; break; } case 'f': status = write_float(just, m, n); break; case 'i': status = write_int(just, m, n); break; } } if (status) lua_pushnumber(status); else lua_pushnil(); } /* ** Execute a executable program using "system". ** Return the result of execution. */ static void io_execute (void) { lua_pushnumber(system(lua_check_string(1, "execute"))); } /* ** Remove a file. On error return nil. */ static void io_remove (void) { if (remove(lua_check_string(1, "remove")) == 0) lua_pushnumber (1); else lua_pushnil(); } /* ** To get a environment variables */ static void io_getenv (void) { char *env = getenv(lua_check_string(1, "getenv")); if (env == NULL) lua_pushnil(); else lua_pushstring(env); } /* ** Return time: hour, min, sec */ static void io_time (void) { time_t t; struct tm *s; time(&t); s = localtime(&t); lua_pushnumber(s->tm_hour); lua_pushnumber(s->tm_min); lua_pushnumber(s->tm_sec); } /* ** Return date: dd, mm, yyyy */ static void io_date (void) { time_t t; struct tm *s; time(&t); s = localtime(&t); lua_pushnumber(s->tm_mday); lua_pushnumber(s->tm_mon+1); lua_pushnumber(s->tm_year+1900); } /* ** Beep */ static void io_beep (void) { printf("\a"); } /* ** To exit */ static void io_exit (void) { lua_Object o = lua_getparam(1); if (lua_isstring(o)) fprintf(stderr, "%s\n", lua_getstring(o)); exit(1); } /* ** To debug a lua program. Start a dialog with the user, interpreting lua commands until an 'cont'. */ static void io_debug (void) { while (1) { char buffer[250]; fprintf(stderr, "lua_debug> "); if (gets(buffer) == 0) return; if (strcmp(buffer, "cont") == 0) return; lua_dostring(buffer); } } void lua_printstack (FILE *f) { int level = 0; lua_Object func; fprintf(f, "Active Stack:\n"); while ((func = lua_stackedfunction(level++)) != LUA_NOOBJECT) { char *name; int currentline; fprintf(f, "\t"); switch (*getobjname(func, &name)) { case 'g': fprintf(f, "function %s", name); break; case 'f': fprintf(f, "fallback %s", name); break; default: { char *filename; int linedefined; lua_funcinfo(func, &filename, &linedefined); if (linedefined == 0) fprintf(f, "main of %s", filename); else if (linedefined < 0) fprintf(f, "%s", filename); else fprintf(f, "function (%s:%d)", filename, linedefined); } } if ((currentline = lua_currentline(func)) > 0) fprintf(f, " at line %d", currentline); fprintf(f, "\n"); } } static void errorfb (void) { lua_Object o = lua_getparam(1); char *s = lua_isstring(o) ? lua_getstring(o) : "(no messsage)"; fprintf(stderr, "lua: %s\n", s); lua_printstack(stderr); } /* ** Open io library */ void iolib_open (void) { lua_register ("readfrom", io_readfrom); lua_register ("writeto", io_writeto); lua_register ("appendto", io_appendto); lua_register ("read", io_read); lua_register ("readuntil",io_readuntil); lua_register ("write", io_write); lua_register ("execute", io_execute); lua_register ("remove", io_remove); lua_register ("getenv", io_getenv); lua_register ("time", io_time); lua_register ("date", io_date); lua_register ("beep", io_beep); lua_register ("exit", io_exit); lua_register ("debug", io_debug); lua_register ("print_stack", errorfb); lua_setfallback("error", errorfb); }