/* Library for reading command lines and decoding commands. Copyright (C) 1986, 1989, 1990 Free Software Foundation, Inc. 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 2 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, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include "defs.h" #include "param.h" #include "command.h" #include "symtab.h" #include "value.h" #include #include extern char *getenv (); /* Add element named NAME to command list *LIST. FUN should be the function to execute the command; it will get a character string as argument, with leading and trailing blanks already eliminated. DOC is a documentation string for the command. Its first line should be a complete sentence. It should start with ? for a command that is an abbreviation or with * for a command that most users don't need to know about. */ struct cmd_list_element * add_cmd (name, class, fun, doc, list) char *name; enum command_class class; void (*fun) (); char *doc; struct cmd_list_element **list; { register struct cmd_list_element *c = (struct cmd_list_element *) xmalloc (sizeof (struct cmd_list_element)); delete_cmd (name, list); c->next = *list; c->name = name; c->class = class; c->function = fun; c->doc = doc; c->prefixlist = 0; c->prefixname = (char *)NULL; c->allow_unknown = 0; c->abbrev_flag = 0; c->aux = 0; c->type = not_set_cmd; c->completer = make_symbol_completion_list; c->var = 0; c->var_type = var_boolean; c->user_commands = 0; *list = c; return c; } /* Same as above, except that the abbrev_flag is set. */ struct cmd_list_element * add_abbrev_cmd (name, class, fun, doc, list) char *name; enum command_class class; void (*fun) (); char *doc; struct cmd_list_element **list; { register struct cmd_list_element *c = add_cmd (name, class, fun, doc, list); c->abbrev_flag = 1; return c; } struct cmd_list_element * add_alias_cmd (name, oldname, class, abbrev_flag, list) char *name; char *oldname; enum command_class class; int abbrev_flag; struct cmd_list_element **list; { /* Must do this since lookup_cmd tries to side-effect its first arg */ char *copied_name; register struct cmd_list_element *old; register struct cmd_list_element *c; copied_name = (char *) alloca (strlen (oldname) + 1); strcpy (copied_name, oldname); old = lookup_cmd (&copied_name, *list, "", 1, 1); if (old == 0) { delete_cmd (name, list); return 0; } c = add_cmd (name, class, old->function, old->doc, list); c->prefixlist = old->prefixlist; c->prefixname = old->prefixname; c->allow_unknown = old->allow_unknown; c->abbrev_flag = abbrev_flag; c->aux = old->aux; return c; } /* Like add_cmd but adds an element for a command prefix: a name that should be followed by a subcommand to be looked up in another command list. PREFIXLIST should be the address of the variable containing that list. */ struct cmd_list_element * add_prefix_cmd (name, class, fun, doc, prefixlist, prefixname, allow_unknown, list) char *name; enum command_class class; void (*fun) (); char *doc; struct cmd_list_element **prefixlist; char *prefixname; int allow_unknown; struct cmd_list_element **list; { register struct cmd_list_element *c = add_cmd (name, class, fun, doc, list); c->prefixlist = prefixlist; c->prefixname = prefixname; c->allow_unknown = allow_unknown; return c; } /* Like add_prefix_cmd butsets the abbrev_flag on the new command. */ struct cmd_list_element * add_abbrev_prefix_cmd (name, class, fun, doc, prefixlist, prefixname, allow_unknown, list) char *name; enum command_class class; void (*fun) (); char *doc; struct cmd_list_element **prefixlist; char *prefixname; int allow_unknown; struct cmd_list_element **list; { register struct cmd_list_element *c = add_cmd (name, class, fun, doc, list); c->prefixlist = prefixlist; c->prefixname = prefixname; c->allow_unknown = allow_unknown; c->abbrev_flag = 1; return c; } /* ARGSUSED */ void not_just_help_class_command (args, from_tty, c) char *args; int from_tty; struct cmd_list_element *c; { } /* Add element named NAME to command list LIST (the list for set or some sublist thereof). CLASS is as in add_cmd. VAR_TYPE is the kind of thing we are setting. VAR is address of the variable being controlled by this command. DOC is the documentation string. */ struct cmd_list_element * add_set_cmd (name, class, var_type, var, doc, list) char *name; enum command_class class; var_types var_type; char *var; char *doc; struct cmd_list_element **list; { /* For set/show, we have to call do_setshow_command differently than an ordinary function (take commandlist as well as arg), so the function field isn't helpful. However, function == NULL means that it's a help class, so set the function to not_just_help_class_command. */ struct cmd_list_element *c = add_cmd (name, class, not_just_help_class_command, doc, list); c->type = set_cmd; c->var_type = var_type; c->var = var; return c; } /* Where SETCMD has already been added, add the corresponding show command to LIST and return a pointer to it. */ struct cmd_list_element * add_show_from_set (setcmd, list) struct cmd_list_element *setcmd; struct cmd_list_element **list; { struct cmd_list_element *showcmd = (struct cmd_list_element *) xmalloc (sizeof (struct cmd_list_element)); bcopy (setcmd, showcmd, sizeof (struct cmd_list_element)); delete_cmd (showcmd->name, list); showcmd->type = show_cmd; /* Replace "set " at start of docstring with "show ". */ if (setcmd->doc[0] == 'S' && setcmd->doc[1] == 'e' && setcmd->doc[2] == 't' && setcmd->doc[3] == ' ') showcmd->doc = concat ("Show ", setcmd->doc + 4, ""); else fprintf (stderr, "GDB internal error: Bad docstring for set command\n"); showcmd->next = *list; *list = showcmd; return showcmd; } /* Remove the command named NAME from the command list. */ void delete_cmd (name, list) char *name; struct cmd_list_element **list; { register struct cmd_list_element *c; struct cmd_list_element *p; while (*list && !strcmp ((*list)->name, name)) { p = (*list)->next; free (*list); *list = p; } if (*list) for (c = *list; c->next;) { if (!strcmp (c->next->name, name)) { p = c->next->next; free (c->next); c->next = p; } else c = c->next; } } /* This command really has to deal with two things: * 1) I want documentation on *this string* (usually called by * "help commandname"). * 2) I want documentation on *this list* (usually called by * giving a command that requires subcommands. Also called by saying * just "help".) * * I am going to split this into two seperate comamnds, help_cmd and * help_list. */ void help_cmd (command, stream) char *command; FILE *stream; { struct cmd_list_element *c; extern struct cmd_list_element *cmdlist; if (!command) { help_list (cmdlist, "", all_classes, stream); return; } c = lookup_cmd (&command, cmdlist, "", 0, 0); if (c == 0) return; /* There are three cases here. If c->prefixlist is nonzero, we have a prefix command. Print its documentation, then list its subcommands. If c->function is nonzero, we really have a command. Print its documentation and return. If c->function is zero, we have a class name. Print its documentation (as if it were a command) and then set class to the number of this class so that the commands in the class will be listed. */ fputs_filtered (c->doc, stream); fputs_filtered ("\n", stream); if (c->prefixlist == 0 && c->function != 0) return; fprintf_filtered (stream, "\n"); /* If this is a prefix command, print it's subcommands */ if (c->prefixlist) help_list (*c->prefixlist, c->prefixname, all_commands, stream); /* If this is a class name, print all of the commands in the class */ if (c->function == 0) help_list (cmdlist, "", c->class, stream); } /* * Get a specific kind of help on a command list. * * LIST is the list. * CMDTYPE is the prefix to use in the title string. * CLASS is the class with which to list the nodes of this list (see * documentation for help_cmd_list below), As usual, ALL_COMMANDS for * everything, ALL_CLASSES for just classes, and non-negative for only things * in a specific class. * and STREAM is the output stream on which to print things. * If you call this routine with a class >= 0, it recurses. */ void help_list (list, cmdtype, class, stream) struct cmd_list_element *list; char *cmdtype; enum command_class class; FILE *stream; { int len; char *cmdtype1, *cmdtype2; /* If CMDTYPE is "foo ", CMDTYPE1 gets " foo" and CMDTYPE2 gets "foo sub" */ len = strlen (cmdtype); cmdtype1 = (char *) alloca (len + 1); cmdtype1[0] = 0; cmdtype2 = (char *) alloca (len + 4); cmdtype2[0] = 0; if (len) { cmdtype1[0] = ' '; strncpy (cmdtype1 + 1, cmdtype, len - 1); cmdtype1[len] = 0; strncpy (cmdtype2, cmdtype, len - 1); strcpy (cmdtype2 + len - 1, " sub"); } if (class == all_classes) fprintf_filtered (stream, "List of classes of %scommands:\n\n", cmdtype2); else fprintf_filtered (stream, "List of %scommands:\n\n", cmdtype2); help_cmd_list (list, class, cmdtype, (int)class >= 0, stream); if (class == all_classes) fprintf_filtered (stream, "\n\ Type \"help%s\" followed by a class name for a list of commands in that class.", cmdtype1); fprintf_filtered (stream, "\n\ Type \"help%s\" followed by %scommand name for full documentation.\n\ Command name abbreviations are allowed if unambiguous.\n", cmdtype1, cmdtype2); } /* Print only the first line of STR on STREAM. */ static void print_doc_line (stream, str) FILE *stream; char *str; { static char *line_buffer = 0; static int line_size; register char *p; if (!line_buffer) { line_size = 80; line_buffer = (char *) xmalloc (line_size); } p = str; while (*p && *p != '\n' && *p != '.' && *p != ',') p++; if (p - str > line_size - 1) { line_size = p - str + 1; free (line_buffer); line_buffer = (char *) xmalloc (line_size); } strncpy (line_buffer, str, p - str); line_buffer[p - str] = '\0'; if (islower (line_buffer[0])) line_buffer[0] = toupper (line_buffer[0]); fputs_filtered (line_buffer, stream); } /* * Implement a help command on command list LIST. * RECURSE should be non-zero if this should be done recursively on * all sublists of LIST. * PREFIX is the prefix to print before each command name. * STREAM is the stream upon which the output should be written. * CLASS should be: * A non-negative class number to list only commands in that * class. * ALL_COMMANDS to list all commands in list. * ALL_CLASSES to list all classes in list. * * Note that RECURSE will be active on *all* sublists, not just the * ones seclected by the criteria above (ie. the selection mechanism * is at the low level, not the high-level). */ void help_cmd_list (list, class, prefix, recurse, stream) struct cmd_list_element *list; enum command_class class; char *prefix; int recurse; FILE *stream; { register struct cmd_list_element *c; for (c = list; c; c = c->next) { if (c->abbrev_flag == 0 && (class == all_commands || (class == all_classes && c->function == 0) || (class == c->class && c->function != 0))) { fprintf_filtered (stream, "%s%s -- ", prefix, c->name); print_doc_line (stream, c->doc); fputs_filtered ("\n", stream); } if (recurse && c->prefixlist != 0 && c->abbrev_flag == 0) help_cmd_list (*c->prefixlist, class, c->prefixname, 1, stream); } } /* This routine takes a line of TEXT and a CLIST in which to start the lookup. When it returns it will have incremented the text pointer past the section of text it matched, set *RESULT_LIST to the list in which the last word was matched, and will return the cmd list element which the text matches. It will return 0 if no match at all was possible. It will return -1 if ambigous matches are possible; in this case *RESULT_LIST will be set to the list in which there are ambiguous choices (and text will be set to the ambiguous text string). It does no error reporting whatsoever; control will always return to the superior routine. In the case of an ambiguous return (-1), *RESULT_LIST will be set to point at the prefix_command (ie. the best match) *or* (special case) will be 0 if no prefix command was ever found. For example, in the case of "info a", "info" matches without ambiguity, but "a" could be "args" or "address", so *RESULT_LIST is set to the cmd_list_element for "info". So in this case result list should not be interpeted as a pointer to the beginning of a list; it simply points to a specific command. If RESULT_LIST is NULL, don't set *RESULT_LIST (but don't otherwise affect the operation). This routine does *not* modify the text pointed to by TEXT. If IGNORE_HELP_CLASSES is nonzero, ignore any command list elements which are actually help classes rather than commands (i.e. the function field of the struct cmd_list_element is 0). */ struct cmd_list_element * lookup_cmd_1 (text, clist, result_list, ignore_help_classes) char **text; struct cmd_list_element *clist, **result_list; int ignore_help_classes; { char *p, *command; int len, tmp, nfound; struct cmd_list_element *found, *c; while (**text == ' ' || **text == '\t') (*text)++; /* Treating underscores as part of command words is important so that "set args_foo()" doesn't get interpreted as "set args _foo()". */ for (p = *text; *p && (isalnum(*p) || *p == '-' || *p == '_'); p++) ; /* If nothing but whitespace, return 0. */ if (p == *text) return 0; len = p - *text; /* *text and p now bracket the first command word to lookup (and it's length is len). We copy this into a local temporary, converting to lower case as we go. */ command = (char *) alloca (len + 1); for (tmp = 0; tmp < len; tmp++) { char x = (*text)[tmp]; command[tmp] = (x >= 'A' && x <= 'Z') ? x - 'A' + 'a' : x; } command[len] = '\0'; /* Look it up. */ found = 0; nfound = 0; for (c = clist; c; c = c->next) if (!strncmp (command, c->name, len) && (!ignore_help_classes || c->function)) { found = c; nfound++; if (c->name[len] == '\0') { nfound = 1; break; } } /* If nothing matches, we have a simple failure. */ if (nfound == 0) return 0; if (nfound > 1) { if (result_list != NULL) /* Will be modified in calling routine if we know what the prefix command is. */ *result_list = 0; return (struct cmd_list_element *) -1; /* Ambiguous. */ } /* We've matched something on this list. Move text pointer forward. */ *text = p; if (found->prefixlist) { c = lookup_cmd_1 (text, *found->prefixlist, result_list, ignore_help_classes); if (!c) { /* Didn't find anything; this is as far as we got. */ if (result_list != NULL) *result_list = clist; return found; } else if (c == (struct cmd_list_element *) -1) { /* We've gotten this far properley, but the next step is ambiguous. We need to set the result list to the best we've found (if an inferior hasn't already set it). */ if (result_list != NULL) if (!*result_list) /* This used to say *result_list = *found->prefixlist If that was correct, need to modify the documentation at the top of this function to clarify what is supposed to be going on. */ *result_list = found; return c; } else { /* We matched! */ return c; } } else { if (result_list != NULL) *result_list = clist; return found; } } /* All this hair to move the space to the front of cmdtype */ void undef_cmd_error (cmdtype, q) char *cmdtype, *q; { error ("Undefined %scommand: \"%s\". Try \"help%s%.*s\".", cmdtype, q, *cmdtype? " ": "", strlen(cmdtype)-1, cmdtype); } /* Look up the contents of *LINE as a command in the command list LIST. LIST is a chain of struct cmd_list_element's. If it is found, return the struct cmd_list_element for that command and update *LINE to point after the command name, at the first argument. If not found, call error if ALLOW_UNKNOWN is zero otherwise (or if error returns) return zero. Call error if specified command is ambiguous, unless ALLOW_UNKNOWN is negative. CMDTYPE precedes the word "command" in the error message. If INGNORE_HELP_CLASSES is nonzero, ignore any command list elements which are actually help classes rather than commands (i.e. the function field of the struct cmd_list_element is 0). */ struct cmd_list_element * lookup_cmd (line, list, cmdtype, allow_unknown, ignore_help_classes) char **line; struct cmd_list_element *list; char *cmdtype; int allow_unknown; int ignore_help_classes; { struct cmd_list_element *last_list = 0; struct cmd_list_element *c = lookup_cmd_1 (line, list, &last_list, ignore_help_classes); char *ptr = (*line) + strlen (*line) - 1; /* Clear off trailing whitespace. */ while (ptr >= *line && (*ptr == ' ' || *ptr == '\t')) ptr--; *(ptr + 1) = '\0'; if (!c) { if (!allow_unknown) { if (!*line) error ("Lack of needed %scommand", cmdtype); else { char *p = *line, *q; while (isalnum(*p) || *p == '-') p++; q = (char *) alloca (p - *line + 1); strncpy (q, *line, p - *line); q[p-*line] = '\0'; undef_cmd_error (cmdtype, q); } } else return 0; } else if (c == (struct cmd_list_element *) -1) { /* Ambigous. Local values should be off prefixlist or called values. */ int local_allow_unknown = (last_list ? last_list->allow_unknown : allow_unknown); char *local_cmdtype = last_list ? last_list->prefixname : cmdtype; struct cmd_list_element *local_list = (last_list ? *(last_list->prefixlist) : list); if (local_allow_unknown < 0) { if (last_list) return last_list; /* Found something. */ else return 0; /* Found nothing. */ } else { /* Report as error. */ int amb_len; char ambbuf[100]; for (amb_len = 0; ((*line)[amb_len] && (*line)[amb_len] != ' ' && (*line)[amb_len] != '\t'); amb_len++) ; ambbuf[0] = 0; for (c = local_list; c; c = c->next) if (!strncmp (*line, c->name, amb_len)) { if (strlen (ambbuf) + strlen (c->name) + 6 < (int)sizeof ambbuf) { if (strlen (ambbuf)) strcat (ambbuf, ", "); strcat (ambbuf, c->name); } else { strcat (ambbuf, ".."); break; } } error ("Ambiguous %scommand \"%s\": %s.", local_cmdtype, *line, ambbuf); return 0; /* lint */ } } else { /* We've got something. It may still not be what the caller wants (if this command *needs* a subcommand). */ while (**line == ' ' || **line == '\t') (*line)++; if (c->prefixlist && **line && !c->allow_unknown) undef_cmd_error (c->prefixname, *line); /* Seems to be what he wants. Return it. */ return c; } return 0; } #if 0 /* Look up the contents of *LINE as a command in the command list LIST. LIST is a chain of struct cmd_list_element's. If it is found, return the struct cmd_list_element for that command and update *LINE to point after the command name, at the first argument. If not found, call error if ALLOW_UNKNOWN is zero otherwise (or if error returns) return zero. Call error if specified command is ambiguous, unless ALLOW_UNKNOWN is negative. CMDTYPE precedes the word "command" in the error message. */ struct cmd_list_element * lookup_cmd (line, list, cmdtype, allow_unknown) char **line; struct cmd_list_element *list; char *cmdtype; int allow_unknown; { register char *p; register struct cmd_list_element *c, *found; int nfound; char ambbuf[100]; char *processed_cmd; int i, cmd_len; /* Skip leading whitespace. */ while (**line == ' ' || **line == '\t') (*line)++; /* Clear out trailing whitespace. */ p = *line + strlen (*line); while (p != *line && (p[-1] == ' ' || p[-1] == '\t')) p--; *p = 0; /* Find end of command name. */ p = *line; while (*p == '-' || (*p >= 'a' && *p <= 'z') || (*p >= 'A' && *p <= 'Z') || (*p >= '0' && *p <= '9')) p++; /* Look up the command name. If exact match, keep that. Otherwise, take command abbreviated, if unique. Note that (in my opinion) a null string does *not* indicate ambiguity; simply the end of the argument. */ if (p == *line) { if (!allow_unknown) error ("Lack of needed %scommand", cmdtype); return 0; } /* Copy over to a local buffer, converting to lowercase on the way. This is in case the command being parsed is a subcommand which doesn't match anything, and that's ok. We want the original untouched for the routine of the original command. */ processed_cmd = (char *) alloca (p - *line + 1); for (cmd_len = 0; cmd_len < p - *line; cmd_len++) { char x = (*line)[cmd_len]; if (x >= 'A' && x <= 'Z') processed_cmd[cmd_len] = x - 'A' + 'a'; else processed_cmd[cmd_len] = x; } processed_cmd[cmd_len] = '\0'; /* Check all possibilities in the current command list. */ found = 0; nfound = 0; for (c = list; c; c = c->next) { if (!strncmp (processed_cmd, c->name, cmd_len)) { found = c; nfound++; if (c->name[cmd_len] == 0) { nfound = 1; break; } } } /* Report error for undefined command name. */ if (nfound != 1) { if (nfound > 1 && allow_unknown >= 0) { ambbuf[0] = 0; for (c = list; c; c = c->next) if (!strncmp (processed_cmd, c->name, cmd_len)) { if (strlen (ambbuf) + strlen (c->name) + 6 < sizeof ambbuf) { if (strlen (ambbuf)) strcat (ambbuf, ", "); strcat (ambbuf, c->name); } else { strcat (ambbuf, ".."); break; } } error ("Ambiguous %scommand \"%s\": %s.", cmdtype, processed_cmd, ambbuf); } else if (!allow_unknown) error ("Undefined %scommand: \"%s\".", cmdtype, processed_cmd); return 0; } /* Skip whitespace before the argument. */ while (*p == ' ' || *p == '\t') p++; *line = p; if (found->prefixlist && *p) { c = lookup_cmd (line, *found->prefixlist, found->prefixname, found->allow_unknown); if (c) return c; } return found; } #endif /* Helper function for SYMBOL_COMPLETION_FUNCTION. */ /* Return a vector of char pointers which point to the different possible completions in LIST of TEXT. */ char ** complete_on_cmdlist (list, text) struct cmd_list_element *list; char *text; { struct cmd_list_element *ptr; char **matchlist; int sizeof_matchlist; int matches; int textlen = strlen (text); sizeof_matchlist = 10; matchlist = (char **) xmalloc (sizeof_matchlist * sizeof (char *)); matches = 0; for (ptr = list; ptr; ptr = ptr->next) if (!strncmp (ptr->name, text, textlen) && !ptr->abbrev_flag && (ptr->function || ptr->prefixlist)) { if (matches == sizeof_matchlist) { sizeof_matchlist *= 2; matchlist = (char **) xrealloc ((char *)matchlist, (sizeof_matchlist * sizeof (char *))); } matchlist[matches] = (char *) xmalloc (strlen (ptr->name) + 1); strcpy (matchlist[matches++], ptr->name); } if (matches == 0) { free (matchlist); matchlist = 0; } else { matchlist = (char **) xrealloc ((char *)matchlist, ((matches + 1) * sizeof (char *))); matchlist[matches] = (char *) 0; } return matchlist; } static int parse_binary_operation (arg) char *arg; { int length; if (!arg || !*arg) return 1; length = strlen (arg); while (arg[length - 1] == ' ' || arg[length - 1] == '\t') length--; if (!strncmp (arg, "on", length) || !strncmp (arg, "1", length) || !strncmp (arg, "yes", length)) return 1; else if (!strncmp (arg, "off", length) || !strncmp (arg, "0", length) || !strncmp (arg, "no", length)) return 0; else { error ("\"on\" or \"off\" expected."); return 0; } } /* Do a "set" or "show" command. ARG is NULL if no argument, or the text of the argument, and FROM_TTY is nonzero if this command is being entered directly by the user (i.e. these are just like any other command). C is the command list element for the command. */ void do_setshow_command (arg, from_tty, c) char *arg; int from_tty; struct cmd_list_element *c; { if (c->type == set_cmd) { switch (c->var_type) { case var_string: { char *new; char *p; char *q; int ch; if (arg == NULL) arg = ""; new = (char *) xmalloc (strlen (arg) + 2); p = arg; q = new; while (ch = *p++) { if (ch == '\\') { /* \ at end of argument is used after spaces so they won't be lost. */ if (*p == 0) break; ch = parse_escape (&p); if (ch == 0) break; /* C loses */ else if (ch > 0) *q++ = ch; } else *q++ = ch; } if (*(p - 1) != '\\') *q++ = ' '; *q++ = '\0'; new = (char *) xrealloc (new, q - new); if (*(char **)c->var != NULL) free (*(char **)c->var); *(char **) c->var = new; } break; case var_string_noescape: if (arg == NULL) arg = ""; if (*(char **)c->var != NULL) free (*(char **)c->var); *(char **) c->var = savestring (arg, strlen (arg)); break; case var_filename: if (arg == NULL) error_no_arg ("filename to set it to."); if (*(char **)c->var != NULL) free (*(char **)c->var); *(char **)c->var = tilde_expand (arg); break; case var_boolean: *(int *) c->var = parse_binary_operation (arg); break; case var_uinteger: if (arg == NULL) error_no_arg ("integer to set it to."); *(int *) c->var = parse_and_eval_address (arg); if (*(int *) c->var == 0) *(int *) c->var = UINT_MAX; break; case var_zinteger: if (arg == NULL) error_no_arg ("integer to set it to."); *(int *) c->var = parse_and_eval_address (arg); break; default: error ("gdb internal error: bad var_type in do_setshow_command"); } } else if (c->type == show_cmd) { /* Print doc minus "show" at start. */ print_doc_line (stdout, c->doc + 5); fputs_filtered (" is ", stdout); wrap_here (" "); switch (c->var_type) { case var_string: { unsigned char *p; fputs_filtered ("\"", stdout); for (p = *(unsigned char **) c->var; *p != '\0'; p++) printchar (*p, stdout, '"'); fputs_filtered ("\"", stdout); } break; case var_string_noescape: case var_filename: fputs_filtered ("\"", stdout); fputs_filtered (*(char **) c->var, stdout); fputs_filtered ("\"", stdout); break; case var_boolean: fputs_filtered (*(int *) c->var ? "on" : "off", stdout); break; case var_uinteger: if (*(unsigned int *) c->var == UINT_MAX) { fputs_filtered ("unlimited", stdout); break; } /* else fall through */ case var_zinteger: fprintf_filtered (stdout, "%d", *(unsigned int *) c->var); break; default: error ("gdb internal error: bad var_type in do_setshow_command"); } fputs_filtered (".\n", stdout); } else error ("gdb internal error: bad cmd_type in do_setshow_command"); (*c->function) (NULL, from_tty, c); } /* Show all the settings in a list of show commands. */ void cmd_show_list (list, from_tty, prefix) struct cmd_list_element *list; int from_tty; char *prefix; { for (; list != NULL; list = list->next) { /* If we find a prefix, run its list, prefixing our output by its prefix (with "show " skipped). */ if (list->prefixlist && !list->abbrev_flag) cmd_show_list (*list->prefixlist, from_tty, list->prefixname + 5); if (list->type == show_cmd) { fputs_filtered (prefix, stdout); fputs_filtered (list->name, stdout); fputs_filtered (": ", stdout); do_setshow_command ((char *)NULL, from_tty, list); } } } /* ARGSUSED */ static void shell_escape (arg, from_tty) char *arg; int from_tty; { int rc, status, pid; char *p, *user_shell; extern char *rindex (); if ((user_shell = (char *) getenv ("SHELL")) == NULL) user_shell = "/bin/sh"; /* Get the name of the shell for arg0 */ if ((p = rindex (user_shell, '/')) == NULL) p = user_shell; else p++; /* Get past '/' */ if ((pid = fork()) == 0) { if (!arg) execl (user_shell, p, 0); else execl (user_shell, p, "-c", arg, 0); fprintf (stderr, "Exec of shell failed\n"); exit (0); } if (pid != -1) while ((rc = wait (&status)) != pid && rc != -1) ; else error ("Fork failed"); } static void make_command (arg, from_tty) char *arg; int from_tty; { char *p; if (arg == 0) p = "make"; else { p = xmalloc (sizeof("make ") + strlen(arg)); strcpy (p, "make "); strcpy (p + sizeof("make ")-1, arg); } shell_escape (p, from_tty); } static void user_info_1 (c, stream) struct cmd_list_element *c; FILE *stream; { register struct command_line *cmdlines; cmdlines = c->user_commands; if (!cmdlines) return; fprintf_filtered (stream, "User command %s:\n", c->name); while (cmdlines) { fprintf_filtered (stream, "%s\n", cmdlines->line); cmdlines = cmdlines->next; } fputs_filtered ("\n", stream); } /* ARGSUSED */ static void user_info (args, from_tty) char *args; int from_tty; { struct cmd_list_element *c; extern struct cmd_list_element *cmdlist; if (args) { c = lookup_cmd (&args, cmdlist, "", 0, 1); if (c->class != class_user) error ("Not a user command."); user_info_1 (c, stdout); } else { for (c = cmdlist; c; c = c->next) { if (c->class == class_user) user_info_1 (c, stdout); } } } void _initialize_command () { add_com ("shell", class_support, shell_escape, "Execute the rest of the line as a shell command. \n\ With no arguments, run an inferior shell."); add_com ("make", class_support, make_command, "Run the ``make'' program using the rest of the line as arguments."); add_info ("user", user_info, "Show definitions of user defined commands.\n\ Argument is the name of the user defined command.\n\ With no argument, show definitions of all user defined commands."); }