/* break.c, created from break.def. */ #line 22 "./break.def" #line 34 "./break.def" #include #if defined (HAVE_UNISTD_H) # ifdef _MINIX # include # endif # include #endif #include "../bashintl.h" #include "../shell.h" #include "common.h" extern char *this_command_name; extern int posixly_correct; static int check_loop_level __P((void)); /* The depth of while's and until's. */ int loop_level = 0; /* Non-zero when a "break" instruction is encountered. */ int breaking = 0; /* Non-zero when we have encountered a continue instruction. */ int continuing = 0; /* Set up to break x levels, where x defaults to 1, but can be specified as the first argument. */ int break_builtin (list) WORD_LIST *list; { intmax_t newbreak; if (check_loop_level () == 0) return (EXECUTION_SUCCESS); (void)get_numeric_arg (list, 1, &newbreak); if (newbreak <= 0) { sh_erange (list->word->word, _("loop count")); breaking = loop_level; return (EXECUTION_FAILURE); } if (newbreak > loop_level) newbreak = loop_level; breaking = newbreak; return (EXECUTION_SUCCESS); } #line 101 "./break.def" /* Set up to continue x levels, where x defaults to 1, but can be specified as the first argument. */ int continue_builtin (list) WORD_LIST *list; { intmax_t newcont; if (check_loop_level () == 0) return (EXECUTION_SUCCESS); (void)get_numeric_arg (list, 1, &newcont); if (newcont <= 0) { sh_erange (list->word->word, _("loop count")); breaking = loop_level; return (EXECUTION_FAILURE); } if (newcont > loop_level) newcont = loop_level; continuing = newcont; return (EXECUTION_SUCCESS); } /* Return non-zero if a break or continue command would be okay. Print an error message if break or continue is meaningless here. */ static int check_loop_level () { #if defined (BREAK_COMPLAINS) if (loop_level == 0 && posixly_correct == 0) builtin_error (_("only meaningful in a `for', `while', or `until' loop")); #endif /* BREAK_COMPLAINS */ return (loop_level); }