/* CLI utilities.
Copyright (C) 2011-2018 Free Software Foundation, Inc.
This file is part of GDB.
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 3 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, see . */
#ifndef CLI_UTILS_H
#define CLI_UTILS_H
/* *PP is a string denoting a number. Get the number. Advance *PP
after the string and any trailing whitespace.
The string can either be a number, or "$" followed by the name of a
convenience variable, or ("$" or "$$") followed by digits.
TRAILER is a character which can be found after the number; most
commonly this is `-'. If you don't want a trailer, use \0. */
extern int get_number_trailer (const char **pp, int trailer);
/* Convenience. Like get_number_trailer, but with no TRAILER. */
extern int get_number (const char **);
/* Like the above, but takes a non-const "char **". */
extern int get_number (char **);
/* Extract from ARGS the arguments [-q] [-t TYPEREGEXP] [--] NAMEREGEXP.
The caller is responsible to initialize *QUIET to false, *REGEXP
and *T_REGEXP to "".
extract_info_print_args can then be called iteratively to search
for valid arguments, as part of a 'main parsing loop' searching for
-q/-t/-- arguments together with other flags and options.
Returns true and updates *ARGS + one of *QUIET, *REGEXP, *T_REGEXP if
it finds a valid argument.
Returns false if no valid argument is found at the beginning of ARGS. */
extern bool extract_info_print_args (const char **args,
bool *quiet,
std::string *regexp,
std::string *t_regexp);
/* Throws an error telling the user that ARGS starts with an option
unrecognized by COMMAND. */
extern void report_unrecognized_option_error (const char *command,
const char *args);
/* Builds the help string for a command documented by PREFIX,
followed by the extract_info_print_args help for ENTITY_KIND. */
const char *info_print_args_help (const char *prefix,
const char *entity_kind);
/* Parse a number or a range.
A number will be of the form handled by get_number.
A range will be of the form - , and
will represent all the integers between number1 and number2,
inclusive. */
class number_or_range_parser
{
public:
/* Default construction. Must call init before calling
get_next. */
number_or_range_parser () {}
/* Calls init automatically. */
number_or_range_parser (const char *string);
/* STRING is the string to be parsed. */
void init (const char *string);
/* While processing a range, this fuction is called iteratively; At
each call it will return the next value in the range.
At the beginning of parsing a range, the char pointer
STATE->m_cur_tok will be advanced past and left
pointing at the '-' token. Subsequent calls will not advance the
pointer until the range is completed. The call that completes
the range will advance the pointer past . */
int get_number ();
/* Setup internal state such that get_next() returns numbers in the
START_VALUE to END_VALUE range. END_PTR is where the string is
advanced to when get_next() returns END_VALUE. */
void setup_range (int start_value, int end_value,
const char *end_ptr);
/* Returns true if parsing has completed. */
bool finished () const;
/* Return the string being parsed. When parsing has finished, this
points past the last parsed token. */
const char *cur_tok () const
{ return m_cur_tok; }
/* True when parsing a range. */
bool in_range () const
{ return m_in_range; }
/* When parsing a range, the final value in the range. */
int end_value () const
{ return m_end_value; }
/* When parsing a range, skip past the final token in the range. */
void skip_range ()
{
gdb_assert (m_in_range);
m_cur_tok = m_end_ptr;
m_in_range = false;
}
private:
/* No need for these. They are intentionally not defined anywhere. */
number_or_range_parser (const number_or_range_parser &);
number_or_range_parser &operator= (const number_or_range_parser &);
/* The string being parsed. When parsing has finished, this points
past the last parsed token. */
const char *m_cur_tok;
/* Last value returned. */
int m_last_retval;
/* When parsing a range, the final value in the range. */
int m_end_value;
/* When parsing a range, a pointer past the final token in the
range. */
const char *m_end_ptr;
/* True when parsing a range. */
bool m_in_range;
};
/* Accept a number and a string-form list of numbers such as is
accepted by get_number_or_range. Return TRUE if the number is
in the list.
By definition, an empty list includes all numbers. This is to
be interpreted as typing a command such as "delete break" with
no arguments. */
extern int number_is_in_list (const char *list, int number);
/* Reverse S to the last non-whitespace character without skipping past
START. */
extern const char *remove_trailing_whitespace (const char *start,
const char *s);
/* Same, for non-const S. */
static inline char *
remove_trailing_whitespace (const char *start, char *s)
{
return (char *) remove_trailing_whitespace (start, (const char *) s);
}
/* A helper function to extract an argument from *ARG. An argument is
delimited by whitespace. The return value is empty if no argument
was found. */
extern std::string extract_arg (char **arg);
/* A const-correct version of the above. */
extern std::string extract_arg (const char **arg);
/* A helper function that looks for an argument at the start of a
string. The argument must also either be at the end of the string,
or be followed by whitespace. Returns 1 if it finds the argument,
0 otherwise. If the argument is found, it updates *STR. */
extern int check_for_argument (const char **str, const char *arg, int arg_len);
/* Same, for non-const STR. */
static inline int
check_for_argument (char **str, const char *arg, int arg_len)
{
return check_for_argument (const_cast (str),
arg, arg_len);
}
/* A helper function that looks for a set of flags at the start of a
string. The possible flags are given as a null terminated string.
A flag in STR must either be at the end of the string,
or be followed by whitespace.
Returns 0 if no valid flag is found at the start of STR.
Otherwise updates *STR, and returns N (which is > 0),
such that FLAGS [N - 1] is the valid found flag. */
extern int parse_flags (const char **str, const char *flags);
/* qcs_flags struct regroups the flags parsed by parse_flags_qcs. */
struct qcs_flags
{
bool quiet = false;
bool cont = false;
bool silent = false;
};
/* A helper function that uses parse_flags to handle the flags qcs :
A flag -q sets FLAGS->QUIET to true.
A flag -c sets FLAGS->CONT to true.
A flag -s sets FLAGS->SILENT to true.
The caller is responsible to initialize *FLAGS to false before the (first)
call to parse_flags_qcs.
parse_flags_qcs can then be called iteratively to search for more
valid flags, as part of a 'main parsing loop' searching for -q/-c/-s
flags together with other flags and options.
Returns true and updates *STR and one of FLAGS->QUIET, FLAGS->CONT,
FLAGS->SILENT if it finds a valid flag.
Returns false if no valid flag is found at the beginning of STR.
Throws an error if a flag is found such that both FLAGS->CONT and
FLAGS->SILENT are true. */
extern bool parse_flags_qcs (const char *which_command, const char **str,
qcs_flags *flags);
#endif /* CLI_UTILS_H */