/* Copyright (C) 1988, 1989, 1990, 1991 Free Software Foundation, Inc. This file is part of GNU Make. GNU Make 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, or (at your option) any later version. GNU Make 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 GNU Make; see the file COPYING. If not, write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "make.h" #include "commands.h" #include "dep.h" #include "file.h" #include "variable.h" #include "job.h" #include "getopt.h" extern char *version_string; extern void print_variable_data_base (); extern void print_dir_data_base (); extern void print_rule_data_base (); extern void print_file_data_base (); extern void print_vpath_data_base (); #ifndef HAVE_UNISTD_H extern int chdir (); #endif #ifndef STDC_HEADERS #ifndef sun /* Sun has an incorrect decl in a header. */ extern void exit (); #endif extern double atof (); #endif extern char *mktemp (); static void log_working_directory (); static void print_data_base (), print_version (); static void decode_switches (), decode_env_switches (); static void define_makeflags (); /* The structure that describes an accepted command switch. */ struct command_switch { char c; /* The switch character. */ enum /* Type of the value. */ { flag, /* Turn int flag on. */ flag_off, /* Turn int flag off. */ string, /* One string per switch. */ positive_int, /* A positive integer. */ floating, /* A floating-point number (double). */ ignore /* Ignored. */ } type; char *value_ptr; /* Pointer to the value-holding variable. */ unsigned int env:1; /* Can come from MAKEFLAGS. */ unsigned int toenv:1; /* Should be put in MAKEFLAGS. */ unsigned int no_makefile:1; /* Don't propagate when remaking makefiles. */ char *noarg_value; /* Pointer to value used if no argument is given. */ char *default_value;/* Pointer to default value. */ char *long_name; /* Long option name. */ char *argdesc; /* Descriptive word for argument. */ char *description; /* Description for usage message. */ }; /* The structure used to hold the list of strings given in command switches of a type that takes string arguments. */ struct stringlist { char **list; /* Nil-terminated list of strings. */ unsigned int idx; /* Index into above. */ unsigned int max; /* Number of pointers allocated. */ }; /* The recognized command switches. */ /* Nonzero means do not print commands to be executed (-s). */ int silent_flag; /* Nonzero means just touch the files that would appear to need remaking (-t) */ int touch_flag; /* Nonzero means just print what commands would need to be executed, don't actually execute them (-n). */ int just_print_flag; /* Print debugging trace info (-d). */ int debug_flag = 0; /* Environment variables override makefile definitions. */ int env_overrides = 0; /* Nonzero means ignore status codes returned by commands executed to remake files. Just treat them all as successful (-i). */ int ignore_errors_flag = 0; /* Nonzero means don't remake anything, just print the data base that results from reading the makefile (-p). */ int print_data_base_flag = 0; /* Nonzero means don't remake anything; just return a nonzero status if the specified targets are not up to date (-q). */ int question_flag = 0; /* Nonzero means do not use any of the builtin rules (-r). */ int no_builtin_rules_flag = 0; /* Nonzero means keep going even if remaking some file fails (-k). */ int keep_going_flag; int default_keep_going_flag = 0; /* Nonzero means print directory before starting and when done (-w). */ int print_directory_flag = 0; /* Nonzero means ignore print_directory_flag and never print the directory. This is necessary because print_directory_flag is set implicitly. */ int inhibit_print_directory_flag = 0; /* Nonzero means print version information. */ int print_version_flag = 0; /* List of makefiles given with -f switches. */ static struct stringlist *makefiles = 0; /* Number of job slots (commands that can be run at once). */ unsigned int job_slots = 1; unsigned int default_job_slots = 1; /* Value of job_slots that means no limit. */ static unsigned int inf_jobs = 0; /* Maximum load average at which multiple jobs will be run. Negative values mean unlimited, while zero means limit to zero load (which could be useful to start infinite jobs remotely but one at a time locally). */ double max_load_average = -1.0; double default_load_average = -1.0; /* List of directories given with -C switches. */ static struct stringlist *directories = 0; /* List of include directories given with -I switches. */ static struct stringlist *include_directories = 0; /* List of files given with -o switches. */ static struct stringlist *old_files = 0; /* List of files given with -W switches. */ static struct stringlist *new_files = 0; /* If nonzero, we should just print usage and exit. */ static int print_usage_flag = 0; /* If nonzero, we should print a warning message for each reference to an undefined variable. */ int warn_undefined_variables_flag; /* The table of command switches. */ static const struct command_switch switches[] = { { 'b', ignore, 0, 0, 0, 0, 0, 0, 0, 0, "Ignored for compatibility" }, { 'C', string, (char *) &directories, 0, 0, 0, 0, 0, "directory", "DIRECTORY", "Change to DIRECTORY before doing anything" }, { 'd', flag, (char *) &debug_flag, 1, 1, 0, 0, 0, "debug", 0, "Print lots of debugging information" }, { 'e', flag, (char *) &env_overrides, 1, 1, 0, 0, 0, "environment-overrides", 0, "Environment variables override makefiles" }, { 'f', string, (char *) &makefiles, 0, 0, 0, 0, 0, "file", "FILE", "Read FILE as a makefile" }, { 'h', flag, (char *) &print_usage_flag, 0, 0, 0, 0, 0, "help", 0, "Print this message and exit" }, { 'i', flag, (char *) &ignore_errors_flag, 1, 1, 0, 0, 0, "ignore-errors", 0, "Ignore errors from commands" }, { 'I', string, (char *) &include_directories, 1, 1, 0, 0, 0, "include-dir", "DIRECTORY", "Search DIRECTORY for included makefiles" }, { 'j', positive_int, (char *) &job_slots, 1, 1, 0, (char *) &inf_jobs, (char *) &default_job_slots, "jobs", "N", "Allow N jobs at once; infinite jobs with no arg" }, { 'k', flag, (char *) &keep_going_flag, 1, 1, 0, 0, (char *) &default_keep_going_flag, "keep-going", 0, "Keep going when some targets can't be made" }, { 'l', floating, (char *) &max_load_average, 1, 1, 0, (char *) &default_load_average, (char *) &default_load_average, "load-average", "N", "Don't start multiple jobs unless load is below N" }, { 'm', ignore, 0, 0, 0, 0, 0, 0, 0, 0, "-b" }, { 'n', flag, (char *) &just_print_flag, 1, 1, 1, 0, 0, "just-print", 0, "Don't actually run any commands; just print them" }, { 'o', string, (char *) &old_files, 0, 0, 0, 0, 0, "old-file", "FILE", "Consider FILE to be very old and don't remake it" }, { 'p', flag, (char *) &print_data_base_flag, 1, 1, 0, 0, 0, "print-data-base", 0, "Print make's internal database" }, { 'q', flag, (char *) &question_flag, 1, 1, 1, 0, 0, "question", 0, "Run no commands; exit status says if up to date" }, { 'r', flag, (char *) &no_builtin_rules_flag, 1, 1, 0, 0, 0, "no-builtin-rules", 0, "Disable the built-in implicit rules" }, { 's', flag, (char *) &silent_flag, 1, 1, 0, 0, 0, "silent", 0, "Don't echo commands" }, { 'S', flag_off, (char *) &keep_going_flag, 1, 1, 0, 0, (char *) &default_keep_going_flag, "no-keep-going", 0, "Turns off -k" }, { 't', flag, (char *) &touch_flag, 1, 1, 1, 0, 0, "touch", 0, "Touch targets instead of remaking them" }, { 'v', flag, (char *) &print_version_flag, 1, 1, 0, 0, 0, "version", 0, "Print the version number of make and exit" }, { 'w', flag, (char *) &print_directory_flag, 1, 1, 0, 0, 0, "print-directory", 0, "Print the current directory" }, { 1, flag, (char *) &inhibit_print_directory_flag, 1, 1, 0, 0, 0, "no-print-directory", 0, "Turn off -w, even if it was turned on implicitly" }, { 'W', string, (char *) &new_files, 0, 0, 0, 0, 0, "what-if", "FILE", "Consider FILE to be infinitely new" }, { 2, flag, (char *) &warn_undefined_variables_flag, 1, 1, 0, 0, 0, "warn-undefined-variables", 0, "Warn when an undefined variable is referenced" }, { '\0', } }; /* Secondary long names for options. */ static struct option long_option_aliases[] = { { "quiet", no_argument, 0, 's' }, { "stop", no_argument, 0, 'S' }, { "new-file", required_argument, 0, 'W' }, { "assume-new", required_argument, 0, 'W' }, { "assume-old", required_argument, 0, 'o' }, { "max-load", optional_argument, 0, 'l' }, { "dry-run", no_argument, 0, 'n' }, { "recon", no_argument, 0, 'n' }, { "makefile", required_argument, 0, 'f' }, }; /* The usage message prints the descriptions of options starting in this column. Make sure it leaves enough room for the longest description to fit in less than 80 characters. */ #define DESCRIPTION_COLUMN 30 /* List of non-switch arguments. */ struct stringlist *other_args = 0; /* The name we were invoked with. */ char *program; /* Our current directory after processing all -C options. */ char *starting_directory; /* Value of the MAKELEVEL variable at startup (or 0). */ unsigned int makelevel; /* First file defined in the makefile whose name does not start with `.'. This is the default to remake if the command line does not specify. */ struct file *default_goal_file; /* Pointer to structure for the file .DEFAULT whose commands are used for any file that has none of its own. This is zero if the makefiles do not define .DEFAULT. */ struct file *default_file; /* Mask of signals that are being caught with fatal_error_signal. */ #ifdef POSIX sigset_t fatal_signal_set; #else #ifdef HAVE_SIGSETMASK int fatal_signal_mask; #endif #endif static struct file * enter_command_line_file (name) char *name; { if (name[0] == '~') { char *expanded = tilde_expand (name); if (expanded != 0) name = expanded; /* Memory leak; I don't care. */ } /* This is also done in parse_file_seq, so this is redundant for names read from makefiles. It is here for names passed on the command line. */ while (name[0] == '.' && name[1] == '/' && name[2] != '\0') { name += 2; while (*name == '/') /* Skip following slashes: ".//foo" is "foo", not "/foo". */ ++name; } if (*name == '\0') { /* It was all slashes! Move back to the dot and truncate it after the first slash, so it becomes just "./". */ do --name; while (name[0] != '.'); name[2] = '\0'; } return enter_file (savestring (name, strlen (name))); } int main (argc, argv, envp) int argc; char **argv; char **envp; { extern void init_dir (); extern RETSIGTYPE fatal_error_signal (), child_handler (); register struct file *f; register unsigned int i; register char *cmd_defs; register unsigned int cmd_defs_len, cmd_defs_idx; char **p; time_t now; struct dep *goals = 0; register struct dep *lastgoal; struct dep *read_makefiles; PATH_VAR (current_directory); char *directory_before_chdir; default_goal_file = 0; reading_filename = 0; reading_lineno_ptr = 0; #ifndef HAVE_SYS_SIGLIST signame_init (); #endif #ifdef POSIX sigemptyset (&fatal_signal_set); #define ADD_SIG(sig) sigaddset (&fatal_signal_set, sig) #else #ifdef HAVE_SIGSETMASK fatal_signal_mask = 0; #define ADD_SIG(sig) fatal_signal_mask |= sigmask (sig) #else #define ADD_SIG(sig) #endif #endif #define FATAL_SIG(sig) \ if (signal ((sig), fatal_error_signal) == SIG_IGN) \ (void) signal ((sig), SIG_IGN); \ else \ ADD_SIG (sig); FATAL_SIG (SIGHUP); FATAL_SIG (SIGQUIT); FATAL_SIG (SIGINT); FATAL_SIG (SIGTERM); #ifdef SIGDANGER FATAL_SIG (SIGDANGER); #endif #ifdef SIGXCPU FATAL_SIG (SIGXCPU); #endif #ifdef SIGXFSZ FATAL_SIG (SIGXFSZ); #endif #undef FATAL_SIG /* Make sure stdout is line-buffered. */ #ifdef HAVE_SETLINEBUF setlinebuf (stdout); #else #ifndef SETVBUF_REVERSED setvbuf (stdout, (char *) 0, _IOLBF, BUFSIZ); #else /* setvbuf not reversed. */ /* Some buggy systems lose if we pass 0 instead of allocating ourselves. */ setvbuf (stdout, _IOLBF, xmalloc (BUFSIZ), BUFSIZ); #endif /* setvbuf reversed. */ #endif /* setlinebuf missing. */ /* Initialize the directory hashing code. */ init_dir (); /* Set up to access user data (files). */ user_access (); /* Figure out where this program lives. */ if (argv[0] == 0) argv[0] = ""; if (argv[0][0] == '\0') program = "make"; else { program = rindex (argv[0], '/'); if (program == 0) program = argv[0]; else ++program; } /* Figure out where we are. */ if (getcwd (current_directory, GET_PATH_MAX) == 0) { #ifdef HAVE_GETCWD perror_with_name ("getcwd: ", ""); #else error ("getwd: %s", current_directory); #endif current_directory[0] = '\0'; directory_before_chdir = 0; } else directory_before_chdir = savestring (current_directory, strlen (current_directory)); /* Read in variables from the environment. It is important that this be done before `MAKE' and `MAKEOVERRIDES' are figured out so their definitions will not be ones from the environment. */ for (i = 0; envp[i] != 0; ++i) { register char *ep = envp[i]; while (*ep++ != '=') ; (void) define_variable (envp[i], ep - envp[i] - 1, ep, o_env, 1); } /* Decode the switches. */ decode_env_switches ("MAKEFLAGS", 9); decode_env_switches ("MFLAGS", 6); decode_switches (argc, argv, 0); /* Print version information. */ if (print_version_flag || print_data_base_flag || debug_flag) print_version (); /* `make --version' is supposed to just print the version and exit. */ if (print_version_flag) die (0); /* Search for command line arguments that define variables, and do the definitions. Also save up the text of these arguments in CMD_DEFS so we can put them into the values of $(MAKEOVERRIDES) and $(MAKE). */ cmd_defs_len = 200; cmd_defs = (char *) xmalloc (cmd_defs_len); cmd_defs_idx = 0; for (i = 1; other_args->list[i] != 0; ++i) { if (other_args->list[i][0] == '\0') /* Ignore empty arguments, so they can't kill enter_file. */ continue; /* Try a variable definition. */ if (try_variable_definition ((char *) 0, 0, other_args->list[i], o_command)) { /* It succeeded. The variable is already defined. Backslash-quotify it and append it to CMD_DEFS, then clobber it to 0 in the list so that it won't be taken for a goal target. */ register char *p = other_args->list[i]; unsigned int l = strlen (p); if (cmd_defs_idx + (l * 2) + 1 > cmd_defs_len) { if (l * 2 > cmd_defs_len) cmd_defs_len += l * 2; else cmd_defs_len *= 2; cmd_defs = (char *) xrealloc (cmd_defs, cmd_defs_len); } while (*p != '\0') { if (index (";'\"*?[]$<>(){}|&~`\\ \t\r\n\f\v", *p) != 0) cmd_defs[cmd_defs_idx++] = '\\'; cmd_defs[cmd_defs_idx++] = *p++; } cmd_defs[cmd_defs_idx++] = ' '; } else { /* It was not a variable definition, so it is a target to be made. Enter it as a file and add it to the dep chain of goals. */ f = enter_command_line_file (other_args->list[i]); f->cmd_target = 1; if (goals == 0) { goals = (struct dep *) xmalloc (sizeof (struct dep)); lastgoal = goals; } else { lastgoal->next = (struct dep *) xmalloc (sizeof (struct dep)); lastgoal = lastgoal->next; } lastgoal->name = 0; lastgoal->file = f; } } if (cmd_defs_idx > 0) { cmd_defs[cmd_defs_idx - 1] = '\0'; (void) define_variable ("MAKEOVERRIDES", 13, cmd_defs, o_default, 0); } free (cmd_defs); /* Set the "MAKE_COMMAND" variable to the name we were invoked with. (If it is a relative pathname with a slash, prepend our directory name so the result will run the same program regardless of the current dir. If it is a name with no slash, we can only hope that PATH did not find it in the current directory.) */ if (current_directory[0] != '\0' && argv[0] != 0 && argv[0][0] != '/' && index (argv[0], '/') != 0) argv[0] = concat (current_directory, "/", argv[0]); (void) define_variable ("MAKE_COMMAND", 12, argv[0], o_default, 0); /* Append the command-line variable definitions gathered above so sub-makes will get them as command-line definitions. */ (void) define_variable ("MAKE", 4, "$(MAKE_COMMAND) $(MAKEOVERRIDES)", o_default, 1); /* If there were -C flags, move ourselves about. */ if (directories != 0) for (i = 0; directories->list[i] != 0; ++i) { char *dir = directories->list[i]; if (dir[0] == '~') { char *expanded = tilde_expand (dir); if (expanded != 0) dir = expanded; } if (chdir (dir) < 0) pfatal_with_name (dir); if (dir != directories->list[i]) free (dir); } /* Figure out the level of recursion. */ { struct variable *v = lookup_variable ("MAKELEVEL", 9); if (v != 0 && *v->value != '\0' && *v->value != '-') makelevel = (unsigned int) atoi (v->value); else makelevel = 0; } /* Except under -s, always do -w in sub-makes and under -C. */ if (!silent_flag && (directories != 0 || makelevel > 0)) print_directory_flag = 1; /* Let the user disable that with --no-print-directory. */ if (inhibit_print_directory_flag) print_directory_flag = 0; /* Construct the list of include directories to search. */ construct_include_path (include_directories == 0 ? (char **) 0 : include_directories->list); /* Figure out where we are now, after chdir'ing. */ if (directories == 0) /* We didn't move, so we're still in the same place. */ starting_directory = current_directory; else { if (getcwd (current_directory, GET_PATH_MAX) == 0) { #ifdef HAVE_GETCWD perror_with_name ("getcwd: ", ""); #else error ("getwd: %s", current_directory); #endif starting_directory = 0; } else starting_directory = current_directory; } /* Tell the user where he is. */ if (print_directory_flag) log_working_directory (1); /* Read any stdin makefiles into temporary files. */ if (makefiles != 0) { register unsigned int i; for (i = 0; i < makefiles->idx; ++i) if (makefiles->list[i][0] == '-' && makefiles->list[i][1] == '\0') { /* This makefile is standard input. Since we may re-exec and thus re-read the makefiles, we read standard input into a temporary file and read from that. */ static char name[] = "/tmp/GmXXXXXX"; FILE *outfile; /* Make a unique filename. */ (void) mktemp (name); outfile = fopen (name, "w"); if (outfile == 0) pfatal_with_name ("fopen (temporary file)"); while (!feof (stdin)) { char buf[2048]; int n = fread (buf, 1, sizeof(buf), stdin); if (n > 0 && fwrite (buf, 1, n, outfile) != n) pfatal_with_name ("fwrite (temporary file)"); } /* Try to make sure we won't remake the temporary file when we are re-exec'd. Kludge-o-matic! */ fprintf (outfile, "%s:;\n", name); (void) fclose (outfile); /* Replace the name that read_all_makefiles will see with the name of the temporary file. */ { char *temp; /* SGI compiler requires alloca's result be assigned simply. */ temp = (char *) alloca (sizeof (name)); bcopy (name, temp, sizeof (name)); makefiles->list[i] = temp; } /* Make sure the temporary file will not be remade. */ f = enter_file (savestring (name, sizeof name - 1)); f->updated = 1; f->update_status = 0; f->command_state = cs_finished; /* Let it be removed when we're done. */ f->intermediate = 1; /* But don't mention it. */ f->dontcare = 1; } } /* Set up to handle children dying. This must be done before reading in the makefiles so that `shell' function calls will work. */ #ifdef SIGCHLD (void) signal (SIGCHLD, child_handler); #endif #ifdef SIGCLD (void) signal (SIGCLD, child_handler); #endif /* Define the initial list of suffixes for old-style rules. */ set_default_suffixes (); /* Define some internal and special variables. */ define_automatic_variables (); /* Set up the MAKEFLAGS and MFLAGS variables so makefiles can look at them. */ define_makeflags (0, 0); /* Define the default variables. */ define_default_variables (); /* Read all the makefiles. */ default_file = enter_file (".DEFAULT"); read_makefiles = read_all_makefiles (makefiles == 0 ? (char **) 0 : makefiles->list); /* Decode switches again, in case the variables were set by the makefile. */ decode_env_switches ("MAKEFLAGS", 9); decode_env_switches ("MFLAGS", 6); /* Set up MAKEFLAGS and MFLAGS again, so they will be right. */ define_makeflags (1, 0); ignore_errors_flag |= lookup_file (".IGNORE") != 0; silent_flag |= lookup_file (".SILENT") != 0; /* Make each `struct dep' point at the `struct file' for the file depended on. */ snap_deps (); /* Install the default implicit rules. This used to be done before reading the makefiles. But in that case, built-in pattern rules were in the chain before user-defined ones, so they matched first. */ install_default_implicit_rules (); /* Convert old-style suffix rules to pattern rules. */ convert_to_pattern (); /* Compute implicit rule limits. */ count_implicit_rule_limits (); /* Construct the listings of directories in VPATH lists. */ build_vpath_lists (); /* Mark files given with -o flags as very old (00:00:01.00 Jan 1, 1970) and as having been updated already, and files given with -W flags as brand new (time-stamp of now). */ if (old_files != 0) for (p = old_files->list; *p != 0; ++p) { f = enter_command_line_file (*p); f->last_mtime = (time_t) 1; f->updated = 1; f->update_status = 0; f->command_state = cs_finished; } if (new_files != 0) { now = time ((time_t *) 0); for (p = new_files->list; *p != 0; ++p) { f = enter_command_line_file (*p); f->last_mtime = now; } } if (read_makefiles != 0) { /* Update any makefiles if necessary. */ time_t *makefile_mtimes = 0; unsigned int mm_idx = 0; if (debug_flag) puts ("Updating makefiles...."); /* Remove any makefiles we don't want to try to update. Also record the current modtimes so we can compare them later. */ { register struct dep *d, *last; last = 0; d = read_makefiles; while (d != 0) { register struct file *f = d->file; if (f->double_colon) do { if (f->deps == 0 && f->cmds != 0) { /* This makefile is a :: target with commands, but no dependencies. So, it will always be remade. This might well cause an infinite loop, so don't try to remake it. (This will only happen if your makefiles are written exceptionally stupidly; but if you work for Athena, that's how you write your makefiles.) */ if (debug_flag) printf ("Makefile `%s' might loop; not remaking it.\n", f->name); if (last == 0) read_makefiles = d->next; else last->next = d->next; /* Free the storage. */ free ((char *) d); d = last == 0 ? 0 : last->next; break; } f = f->prev; } while (f != NULL); if (f == NULL || !f->double_colon) { if (makefile_mtimes == 0) makefile_mtimes = (time_t *) xmalloc (sizeof (time_t)); else makefile_mtimes = (time_t *) xrealloc ((char *) makefile_mtimes, (mm_idx + 1) * sizeof (time_t)); makefile_mtimes[mm_idx++] = file_mtime_no_search (d->file); last = d; d = d->next; } } } /* Set up `MAKEFLAGS' specially while remaking makefiles. */ define_makeflags (1, 1); switch (update_goal_chain (read_makefiles, 1)) { default: abort (); case -1: /* Did nothing. */ break; case 1: /* Failed to update. Figure out if we care. */ { /* Nonzero if any makefile was successfully remade. */ int any_remade = 0; /* Nonzero if any makefile we care about failed in updating or could not be found at all. */ int any_failed = 0; register unsigned int i; for (i = 0; read_makefiles != 0; ++i) { struct dep *d = read_makefiles; read_makefiles = d->next; if (d->file->updated) { /* This makefile was updated. */ if (d->file->update_status == 0) { /* It was successfully updated. */ any_remade |= (file_mtime_no_search (d->file) != makefile_mtimes[i]); } else if (! (d->changed & RM_DONTCARE)) { time_t mtime; /* The update failed and this makefile was not from the MAKEFILES variable, so we care. */ error ("Failed to remake makefile `%s'.", d->file->name); mtime = file_mtime_no_search (d->file); any_remade |= (mtime != (time_t) -1 && mtime != makefile_mtimes[i]); } } else /* This makefile was not found at all. */ if (! (d->changed & RM_DONTCARE)) { /* This is a makefile we care about. See how much. */ if (d->changed & RM_INCLUDED) /* An included makefile. We don't need to die, but we do want to complain. */ error ("Included makefile `%s' was not found.", dep_name (d)); else { /* A normal makefile. We must die later. */ error ("Makefile `%s' was not found", dep_name (d)); any_failed = 1; } } free ((char *) d); } if (any_remade) goto re_exec; else if (any_failed) die (1); else break; } case 0: re_exec: /* Updated successfully. Re-exec ourselves. */ remove_intermediates (0); if (print_data_base_flag) print_data_base (); if (print_directory_flag) log_working_directory (0); if (makefiles != 0) { /* These names might have changed. */ register unsigned int i, j = 0; for (i = 1; i < argc; ++i) if (!strcmp (argv[i], "-f")) /* XXX */ { char *p = &argv[i][2]; if (*p == '\0') argv[++i] = makefiles->list[j]; else argv[i] = concat ("-f", makefiles->list[j], ""); ++j; } } if (directories != 0 && directories->idx > 0) { char bad; if (directory_before_chdir != 0) { if (chdir (directory_before_chdir) < 0) { perror_with_name ("chdir", ""); bad = 1; } else bad = 0; } else bad = 1; if (bad) fatal ("Couldn't change back to original directory."); } for (p = environ; *p != 0; ++p) if (!strncmp (*p, "MAKELEVEL=", 10)) { /* The SGI compiler apparently can't understand the concept of storing the result of a function in something other than a local variable. */ char *sgi_loses; sgi_loses = (char *) alloca (40); *p = sgi_loses; sprintf (*p, "MAKELEVEL=%u", makelevel); break; } if (debug_flag) { char **p; fputs ("Re-executing:", stdout); for (p = argv; *p != 0; ++p) printf (" %s", *p); puts (""); } fflush (stdout); fflush (stderr); exec_command (argv, environ); /* NOTREACHED */ } } /* Set up `MAKEFLAGS' again for the normal targets. */ define_makeflags (1, 0); { int status; /* If there were no command-line goals, use the default. */ if (goals == 0) { if (default_goal_file != 0) { goals = (struct dep *) xmalloc (sizeof (struct dep)); goals->next = 0; goals->name = 0; goals->file = default_goal_file; } } else lastgoal->next = 0; if (goals != 0) { /* Update the goals. */ if (debug_flag) puts ("Updating goal targets...."); switch (update_goal_chain (goals, 0)) { case -1: /* Nothing happened. */ case 0: /* Updated successfully. */ status = 0; break; case 1: /* Updating failed. */ status = 1; break; default: abort (); } } else { if (read_makefiles == 0) fatal ("No targets specified and no makefile found"); else fatal ("No targets"); } /* Exit. */ die (status); } return 0; } /* Parsing of arguments, decoding of switches. */ static char options[sizeof (switches) / sizeof (switches[0]) * 3]; static struct option long_options[(sizeof (switches) / sizeof (switches[0])) + (sizeof (long_option_aliases) / sizeof (long_option_aliases[0]))]; /* Fill in the string and vector for getopt. */ static void init_switches () { register char *p; register int c; register unsigned int i; if (options[0] != '\0') /* Already done. */ return; p = options; for (i = 0; switches[i].c != '\0'; ++i) { long_options[i].name = (switches[i].long_name == 0 ? "" : switches[i].long_name); long_options[i].flag = 0; long_options[i].val = switches[i].c; if (isalnum (switches[i].c)) *p++ = switches[i].c; switch (switches[i].type) { case flag: case flag_off: case ignore: long_options[i].has_arg = no_argument; break; case string: case positive_int: case floating: if (isalnum (switches[i].c)) *p++ = ':'; if (switches[i].noarg_value != 0) { if (isalnum (switches[i].c)) *p++ = ':'; long_options[i].has_arg = optional_argument; } else long_options[i].has_arg = required_argument; break; } } *p = '\0'; for (c = 0; c < (sizeof (long_option_aliases) / sizeof (long_option_aliases[0])); ++c) long_options[i++] = long_option_aliases[c]; long_options[i].name = 0; } /* Decode switches from ARGC and ARGV. They came from the environment if ENV is nonzero. */ static void decode_switches (argc, argv, env) int argc; char **argv; int env; { int bad = 0; register const struct command_switch *cs; register struct stringlist *sl; register int c; if (!env) { other_args = (struct stringlist *) xmalloc (sizeof (struct stringlist)); other_args->max = argc + 1; other_args->list = (char **) xmalloc ((argc + 1) * sizeof (char *)); other_args->idx = 1; other_args->list[0] = argv[0]; } /* getopt does most of the parsing for us. First, get its vectors set up. */ init_switches (); /* Let getopt produce error messages for the command line, but not for options from the environment. */ opterr = !env; /* Reset getopt's state. */ optind = 0; while ((c = getopt_long (argc, argv, options, long_options, (int *) 0)) != EOF) { if (c == '?') /* Bad option. We will print a usage message and die later. But continue to parse the other options so the user can see all he did wrong. */ bad = 1; else for (cs = switches; cs->c != '\0'; ++cs) if (cs->c == c) { /* Whether or not we will actually do anything with this switch. We test this individually inside the switch below rather than just once outside it, so that options which are to be ignored still consume args. */ int doit = !env || cs->env; switch (cs->type) { default: abort (); case ignore: break; case flag: case flag_off: if (doit) *(int *) cs->value_ptr = cs->type == flag; break; case string: if (!doit) break; if (optarg == 0) optarg = cs->noarg_value; sl = *(struct stringlist **) cs->value_ptr; if (sl == 0) { sl = (struct stringlist *) xmalloc (sizeof (struct stringlist)); sl->max = 5; sl->idx = 0; sl->list = (char **) xmalloc (5 * sizeof (char *)); *(struct stringlist **) cs->value_ptr = sl; } else if (sl->idx == sl->max - 1) { sl->max += 5; sl->list = (char **) xrealloc ((char *) sl->list, sl->max * sizeof (char *)); } sl->list[sl->idx++] = optarg; sl->list[sl->idx] = 0; break; case positive_int: if (optarg == 0 && argc > optind && isdigit (argv[optind][0])) optarg = argv[optind++]; if (!doit) break; if (optarg != 0) { int i = atoi (optarg); if (i < 1) { if (doit) error ("the `-%c' option requires a \ positive integral argument", cs->c); bad = 1; } else *(unsigned int *) cs->value_ptr = i; } else *(unsigned int *) cs->value_ptr = *(unsigned int *) cs->noarg_value; break; case floating: if (optarg == 0 && optind < argc && (isdigit (argv[optind][0]) || argv[optind][0] == '.')) optarg = argv[optind++]; if (doit) *(double *) cs->value_ptr = (optarg != 0 ? atof (optarg) : *(double *) cs->noarg_value); break; } /* We've found the switch. Stop looking. */ break; } } if (!env) { /* Collect the remaining args in the `other_args' string list. */ while (optind < argc) { char *arg = argv[optind++]; if (arg[0] != '-' || arg[1] != '\0') other_args->list[other_args->idx++] = arg; } other_args->list[other_args->idx] = 0; } if (!env && (bad || print_usage_flag)) { /* Print a nice usage message. */ if (print_version_flag) print_version (); fprintf (stderr, "Usage: %s [options] [target] ...\n", program); fputs ("Options:\n", stderr); for (cs = switches; cs->c != '\0'; ++cs) { char buf[1024], shortarg[50], longarg[50], *p; if (cs->description[0] == '-') continue; switch (long_options[cs - switches].has_arg) { case no_argument: shortarg[0] = longarg[0] = '\0'; break; case required_argument: sprintf (longarg, "=%s", cs->argdesc); sprintf (shortarg, " %s", cs->argdesc); break; case optional_argument: sprintf (longarg, "[=%s]", cs->argdesc); sprintf (shortarg, " [%s]", cs->argdesc); break; } p = buf; if (isalnum (cs->c)) { sprintf (buf, " -%c%s", cs->c, shortarg); p += strlen (p); } if (cs->long_name != 0) { unsigned int i; sprintf (p, "%s--%s%s", !isalnum (cs->c) ? " " : ", ", cs->long_name, longarg); p += strlen (p); for (i = 0; i < (sizeof (long_option_aliases) / sizeof (long_option_aliases[0])); ++i) if (long_option_aliases[i].val == cs->c) { sprintf (p, ", --%s%s", long_option_aliases[i].name, longarg); p += strlen (p); } } { const struct command_switch *ncs = cs; while ((++ncs)->c != '\0') if (ncs->description[0] == '-' && ncs->description[1] == cs->c) { /* This is another switch that does the same one as the one we are processing. We want to list them all together on one line. */ sprintf (p, ", -%c%s", ncs->c, shortarg); p += strlen (p); if (ncs->long_name != 0) { sprintf (p, ", --%s%s", ncs->long_name, longarg); p += strlen (p); } } } if (p - buf > DESCRIPTION_COLUMN - 2) /* The list of option names is too long to fit on the same line with the description, leaving at least two spaces. Print it on its own line instead. */ { fprintf (stderr, "%s\n", buf); buf[0] = '\0'; } fprintf (stderr, "%*s%s.\n", - DESCRIPTION_COLUMN, buf, cs->description); } die (bad); } } /* Decode switches from environment variable ENVAR (which is LEN chars long). We do this by chopping the value into a vector of words, prepending a dash to the first word if it lacks one, and passing the vector to decode_switches. */ static void decode_env_switches (envar, len) char *envar; unsigned int len; { char *varref = (char *) alloca (2 + len + 2); char *value, *args; int argc; char **argv; /* Get the variable's value. */ varref[0] = '$'; varref[1] = '('; bcopy (envar, &varref[2], len); varref[2 + len] = ')'; varref[2 + len + 1] = '\0'; value = variable_expand (varref); /* Skip whitespace, and check for an empty value. */ value = next_token (value); len = strlen (value); if (len == 0) return; /* Make a copy of the value in ARGS, where we will munge it. If it does not begin with a dash, prepend one. We must allocate lasting storage for this (and we never free it) because decode_switches may save pointers into it for string-valued switches. */ args = (char *) xmalloc (1 + len + 2); if (value[0] != '-') args[0] = '-'; bcopy (value, value[0] == '-' ? args : &args[1], len + 1); /* Write an extra null terminator so our loop below will never be in danger of looking past the end of the string. */ args[(value[0] == '-' ? 0 : 1) + len + 1] = '\0'; /* Allocate a vector that is definitely big enough. */ argv = (char **) alloca ((1 + len + 1) * sizeof (char *)); /* getopt will look at the arguments starting at ARGV[1]. Prepend a spacer word. */ argv[0] = 0; argc = 1; do { argv[argc++] = args; args = end_of_token (args); *args++ = '\0'; } while (*args != '\0'); argv[argc] = 0; /* Parse those words. */ decode_switches (argc, argv, 1); } /* Define the MAKEFLAGS and MFLAGS variables to reflect the settings of the command switches. Include options with args if ALL is nonzero. Don't include options with the `no_makefile' flag set if MAKEFILE. */ static void define_makeflags (all, makefile) int all, makefile; { register const struct command_switch *cs; char *flagstring; /* We will construct a linked list of `struct flag's describing all the flags which need to go in MAKEFLAGS. Then, once we know how many there are and their lengths, we can put them all together in a string. */ struct flag { struct flag *next; const struct command_switch *cs; char *arg; unsigned int arglen; }; struct flag *flags = 0; unsigned int flagslen = 0; #define ADD_FLAG(ARG, LEN) \ do { \ struct flag *new = (struct flag *) alloca (sizeof (struct flag)); \ new->cs = cs; \ new->arg = (ARG); \ new->arglen = (LEN); \ new->next = flags; \ flags = new; \ if (new->arg == 0) \ ++flagslen; /* Just a single flag letter. */ \ else \ flagslen += 1 + 1 + 1 + 1 + new->arglen; /* " -x foo" */ \ if (!isalnum (cs->c)) \ /* This switch has no single-letter version, so we use the long. */ \ flagslen += 2 + strlen (cs->long_name); \ } while (0) for (cs = switches; cs->c != '\0'; ++cs) if (cs->toenv && (!makefile || !cs->no_makefile)) switch (cs->type) { default: abort (); case ignore: break; case flag: case flag_off: if (!*(int *) cs->value_ptr == (cs->type == flag_off) && (cs->default_value == 0 || *(int *) cs->value_ptr != *(int *) cs->default_value)) ADD_FLAG (0, 0); break; case positive_int: if (all) { if ((cs->default_value != 0 && (*(unsigned int *) cs->value_ptr == *(unsigned int *) cs->default_value))) break; else if (cs->noarg_value != 0 && (*(unsigned int *) cs->value_ptr == *(unsigned int *) cs->noarg_value)) ADD_FLAG ("", 0); /* Optional value omitted; see below. */ else if (cs->c == 'j') /* Special case for `-j'. */ ADD_FLAG ("1", 1); else { char *buf = (char *) alloca (30); sprintf (buf, "%u", *(unsigned int *) cs->value_ptr); ADD_FLAG (buf, strlen (buf)); } } break; case floating: if (all) { if (cs->default_value != 0 && (*(double *) cs->value_ptr == *(double *) cs->default_value)) break; else if (cs->noarg_value != 0 && (*(double *) cs->value_ptr == *(double *) cs->noarg_value)) ADD_FLAG ("", 0); /* Optional value omitted; see below. */ else { char *buf = (char *) alloca (100); sprintf (buf, "%g", *(double *) cs->value_ptr); ADD_FLAG (buf, strlen (buf)); } } break; case string: if (all) { struct stringlist *sl = *(struct stringlist **) cs->value_ptr; if (sl != 0) { /* Add the elements in reverse order, because all the flags get reversed below; and the order matters for some switches (like -I). */ register unsigned int i = sl->idx; while (i-- > 0) ADD_FLAG (sl->list[i], strlen (sl->list[i])); } } break; } #undef ADD_FLAG if (flags == 0) /* No flags. Use a string of two nulls so [1] works below. */ flagstring = "\0"; else { /* Construct the value in FLAGSTRING. We allocate enough space for a preceding dash and trailing null. */ register char *p; flagstring = (char *) alloca (1 + flagslen + 1); p = flagstring; *p++ = '-'; do { /* Add the flag letter or name to the string. */ if (!isalnum (flags->cs->c)) { *p++ = '-'; strcpy (p, flags->cs->long_name); p += strlen (p); } else *p++ = flags->cs->c; if (flags->arg != 0) { /* A flag that takes an optional argument which in this case is omitted is specified by ARG being "" and ARGLEN being 0. We must distinguish because a following flag appended without an intervening " -" is considered the arg for the first. */ if (flags->arglen > 0) { /* Add its argument too. */ *p++ = !isalnum (flags->cs->c) ? '=' : ' '; bcopy (flags->arg, p, flags->arglen); p += flags->arglen; } /* Write a following space and dash, for the next flag. */ *p++ = ' '; *p++ = '-'; } else if (!isalnum (flags->cs->c)) { /* Long options must each go in their own word, so we write the following space and dash. */ *p++ = ' '; *p++ = '-'; } flags = flags->next; } while (flags != 0); if (p[-1] == '-') /* Kill the final space and dash. */ p -= 2; /* Terminate the string. */ *p = '\0'; } (void) define_variable ("MAKEFLAGS", 9, /* On Sun, the value of MFLAGS starts with a `-' but the value of MAKEFLAGS lacks the `-'. Be compatible with this unless FLAGSTRING starts with a long option `--foo', since removing the first dash would result in the bogus `-foo'. */ flagstring[1] == '-' ? flagstring : &flagstring[1], o_env, 0); (void) define_variable ("MFLAGS", 6, flagstring, o_env, 0); } /* Print version information. */ static void print_version () { static int printed_version = 0; extern char *remote_description; char *precede = print_data_base_flag ? "# " : ""; if (printed_version) /* Do it only once. */ return; printf ("%sGNU Make version %s", precede, version_string); if (remote_description != 0 && *remote_description != '\0') printf ("-%s", remote_description); printf (", by Richard Stallman and Roland McGrath.\n\ %sCopyright (C) 1988, 89, 90, 91, 92, 93 Free Software Foundation, Inc.\n\ %sThis is free software; see the source for copying conditions.\n\ %sThere is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A\n\ %sPARTICULAR PURPOSE.\n\n", precede, precede, precede, precede); printed_version = 1; /* Flush stdout so the user doesn't have to wait to see the version information while things are thought about. */ fflush (stdout); } /* Print a bunch of information about this and that. */ static void print_data_base () { extern char *ctime (); time_t when; when = time ((time_t *) 0); printf ("\n# Make data base, printed on %s", ctime (&when)); print_variable_data_base (); print_dir_data_base (); print_rule_data_base (); print_file_data_base (); print_vpath_data_base (); when = time ((time_t *) 0); printf ("\n# Finished Make data base on %s\n", ctime (&when)); } /* Exit with STATUS, cleaning up as necessary. */ void die (status) int status; { static char dying = 0; if (!dying) { int err; dying = 1; if (print_version_flag) print_version (); /* Wait for children to die. */ for (err = status != 0; job_slots_used > 0; err = 0) reap_children (1, err); /* Remove the intermediate files. */ remove_intermediates (0); if (print_data_base_flag) print_data_base (); if (print_directory_flag) log_working_directory (0); } exit (status); } /* Write a message indicating that we've just entered or left (according to ENTERING) the current directory. */ static void log_working_directory (entering) int entering; { static int entered = 0; char *message = entering ? "Entering" : "Leaving"; if (entering) entered = 1; else if (!entered) /* Don't print the leaving message if we haven't printed the entering message. */ return; if (print_data_base_flag) fputs ("# ", stdout); if (makelevel == 0) printf ("%s: %s ", program, message); else printf ("%s[%u]: %s ", program, makelevel, message); if (starting_directory == 0) puts ("an unknown directory"); else printf ("directory `%s'\n", starting_directory); }