keymap.c File Reference

#include "config.h"
#include <ctype.h>
#include <limits.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "mutt/lib.h"
#include "gui/lib.h"
#include "mutt.h"
#include "keymap.h"
#include "ncrypt/lib.h"
#include "functions.h"
#include "init.h"
#include "mutt_commands.h"
#include "mutt_globals.h"
#include "mutt_logging.h"
#include "opcodes.h"
#include "options.h"
#include <strings.h>
#include "imap/lib.h"
#include "monitor.h"

Include dependency graph for keymap.c:

Go to the source code of this file.

Functions
static void	mutt_keymap_free (struct Keymap **km)
	Free a Keymap. More...
static void	mutt_keymaplist_free (struct KeymapList *km_list)
	Free a List of Keymaps. More...
static struct Keymap *	alloc_keys (size_t len, keycode_t *keys)
	Allocate space for a sequence of keys. More...
static int	parse_fkey (char *s)
	Parse a function key string. More...
static int	parse_keycode (const char *s)
	Parse a numeric keycode. More...
static size_t	parsekeys (const char *str, keycode_t *d, size_t max)
	Parse a key string into key codes. More...
static struct Keymap *	km_compare_keys (struct Keymap *k1, struct Keymap *k2, size_t *pos)
	Compare two keymaps' keyscodes and return the bigger one. More...
static enum CommandResult	km_bind_err (const char *s, enum MenuType menu, int op, char *macro, char *desc, struct Buffer *err)
	Set up a key binding. More...
enum CommandResult	km_bind (char *s, enum MenuType menu, int op, char *macro, char *desc)
	Bind a key to a macro. More...
static enum CommandResult	km_bindkey_err (const char *s, enum MenuType menu, int op, struct Buffer *err)
	Bind a key in a Menu to an operation (with error message) More...
static enum CommandResult	km_bindkey (const char *s, enum MenuType menu, int op)
	Bind a key in a Menu to an operation. More...
static int	get_op (const struct Binding *bindings, const char *start, size_t len)
	Get the function by its name. More...
const char *	mutt_get_func (const struct Binding *bindings, int op)
	Get the name of a function. More...
static void	generic_tokenize_push_string (char *s, void(*generic_push)(int, int))
	Parse and queue a 'push' command. More...
static int	retry_generic (enum MenuType menu, keycode_t *keys, int keyslen, int lastkey)
	Try to find the key in the generic menu bindings. More...
int	km_dokey (enum MenuType menu)
	Determine what a keypress should do. More...
static void	create_bindings (const struct Binding *map, enum MenuType menu)
	Attach a set of keybindings to a Menu. More...
static const char *	km_keyname (int c)
	Get the human name for a key. More...
void	mutt_init_abort_key (void)
	Parse the abort_key config string. More...
int	mutt_abort_key_config_observer (struct NotifyCallback *nc)
	Listen for abort_key config changes - Implements observer_t. More...
int	km_expand_key (char *s, size_t len, struct Keymap *map)
	Get the key string bound to a Keymap. More...
struct Keymap *	km_find_func (enum MenuType menu, int func)
	Find a function's mapping in a Menu. More...
void	init_extended_keys (void)
	Initialise map of ncurses extended keys. More...
void	km_init (void)
	Initialise all the menu keybindings. More...
void	km_error_key (enum MenuType menu)
	Handle an unbound key sequence. More...
enum CommandResult	mutt_parse_push (struct Buffer *buf, struct Buffer *s, intptr_t data, struct Buffer *err)
	Parse the 'push' command - Implements Command::parse() More...
static char *	parse_keymap (enum MenuType *menu, struct Buffer *s, int max_menus, int *num_menus, struct Buffer *err, bool bind)
	Parse a user-config key binding. More...
static enum CommandResult	try_bind (char *key, enum MenuType menu, char *func, const struct Binding *bindings, struct Buffer *err)
	Try to make a key binding. More...
const struct Binding *	km_get_table (enum MenuType menu)
	Lookup a menu's keybindings. More...
enum CommandResult	mutt_parse_bind (struct Buffer *buf, struct Buffer *s, intptr_t data, struct Buffer *err)
	Parse the 'bind' command - Implements Command::parse() More...
static void *	parse_menu (bool *menu, char *s, struct Buffer *err)
	Parse menu-names into an array. More...
static void	km_unbind_all (struct KeymapList *km_list, unsigned long mode)
	Free all the keys in the supplied Keymap. More...
enum CommandResult	mutt_parse_unbind (struct Buffer *buf, struct Buffer *s, intptr_t data, struct Buffer *err)
	Parse the 'unbind' command - Implements Command::parse() More...
enum CommandResult	mutt_parse_macro (struct Buffer *buf, struct Buffer *s, intptr_t data, struct Buffer *err)
	Parse the 'macro' command - Implements Command::parse() More...
enum CommandResult	mutt_parse_exec (struct Buffer *buf, struct Buffer *s, intptr_t data, struct Buffer *err)
	Parse the 'exec' command - Implements Command::parse() More...
void	mutt_what_key (void)
	Ask the user to press a key. More...
void	mutt_keys_free (void)
	Free the key maps. More...

Variables
const struct Mapping	Menus []
	Menu name lookup table. More...
static struct Mapping	KeyNames []
	Key name lookup table. More...
int	LastKey
	contains the last key the user pressed More...
keycode_t	AbortKey
	code of key to abort prompts, normally Ctrl-G More...
struct KeymapList	Keymaps [MENU_MAX]
	Array of Keymap keybindings, one for each Menu. More...

Detailed Description

Manage keymappings

Authors

• Michael R. Elkins

Copyright

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, see http://www.gnu.org/licenses/.

Definition in file keymap.c.

Function Documentation

mutt_keymap_free()

static void mutt_keymap_free ( struct Keymap **  km )

static

Free a Keymap.

Parameters

km	Keymap to free

Definition at line 202 of file keymap.c.

{
  if (!km || !*km)
    return;
 
  FREE(&(*km)->macro);
  FREE(&(*km)->desc);
  FREE(&(*km)->keys);
  FREE(km);
}

Here is the caller graph for this function:

mutt_keymaplist_free()

static void mutt_keymaplist_free ( struct KeymapList *  km_list )

static

Free a List of Keymaps.

Parameters

km_list

List of Keymaps to free

Definition at line 217 of file keymap.c.

{
  struct Keymap *np = NULL, *tmp = NULL;
  STAILQ_FOREACH_SAFE(np, km_list, entries, tmp)
  {
    STAILQ_REMOVE(km_list, np, Keymap, entries);
    mutt_keymap_free(&np);
  }
}

Here is the call graph for this function:

Here is the caller graph for this function:

alloc_keys()

static struct Keymap* alloc_keys ( size_t  len, keycode_t *  keys  )

static

Allocate space for a sequence of keys.

Parameters

len	Number of keys
keys	Array of keys

Return values

ptr	Sequence of keys

Definition at line 233 of file keymap.c.

{
  struct Keymap *p = mutt_mem_calloc(1, sizeof(struct Keymap));
  p->len = len;
  p->keys = mutt_mem_calloc(len, sizeof(keycode_t));
  memcpy(p->keys, keys, len * sizeof(keycode_t));
  return p;
}

Here is the call graph for this function:

Here is the caller graph for this function:

parse_fkey()

static int parse_fkey ( char *  s )

static

Parse a function key string.

Parameters

s	String to parse

Return values

num	Number of the key

Given "<f8>", it will return 8.

Definition at line 249 of file keymap.c.

{
  char *t = NULL;
  int n = 0;
 
  if ((s[0] != '<') || (tolower(s[1]) != 'f'))
    return -1;
 
  for (t = s + 2; *t && isdigit((unsigned char) *t); t++)
  {
    n *= 10;
    n += *t - '0';
  }
 
  if (*t != '>')
    return -1;
  return n;
}

Here is the caller graph for this function:

parse_keycode()

static int parse_keycode ( const char *  s )

static

Parse a numeric keycode.

Parameters

s	String to parse

Return values

num	Number of the key

This function parses the string <NNN> and uses the octal value as the key to bind.

Definition at line 276 of file keymap.c.

{
  char *end_char = NULL;
  long int result = strtol(s + 1, &end_char, 8);
  /* allow trailing whitespace, eg.  < 1001 > */
  while (IS_SPACE(*end_char))
    end_char++;
  /* negative keycodes don't make sense, also detect overflow */
  if ((*end_char != '>') || (result < 0) || (result == LONG_MAX))
  {
    return -1;
  }
 
  return result;
}

Here is the caller graph for this function:

parsekeys()

static size_t parsekeys ( const char *  str, keycode_t *  d, size_t  max  )

static

Parse a key string into key codes.

Parameters

str	Key string
d	Array for key codes
max	Maximum length of key sequence

Return values

num	Length of key sequence

Definition at line 299 of file keymap.c.

{
  int n;
  size_t len = max;
  char buf[128];
  char c;
  char *t = NULL;
 
  mutt_str_copy(buf, str, sizeof(buf));
  char *s = buf;
 
  while (*s && len)
  {
    *d = '\0';
    if ((*s == '<') && (t = strchr(s, '>')))
    {
      t++;
      c = *t;
      *t = '\0';
 
      n = mutt_map_get_value(s, KeyNames);
      if (n != -1)
      {
        s = t;
        *d = n;
      }
      else if ((n = parse_fkey(s)) > 0)
      {
        s = t;
        *d = KEY_F(n);
      }
      else if ((n = parse_keycode(s)) > 0)
      {
        s = t;
        *d = n;
      }
 
      *t = c;
    }
 
    if (!*d)
    {
      *d = (unsigned char) *s;
      s++;
    }
    d++;
    len--;
  }
 
  return max - len;
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_compare_keys()

static struct Keymap* km_compare_keys ( struct Keymap *  k1, struct Keymap *  k2, size_t *  pos  )

static

Compare two keymaps' keyscodes and return the bigger one.

Parameters

k1	first keymap to compare
k2	second keymap to compare
pos	position where the two keycodes differ

Return values

ptr	Keymap with a bigger ASCII keycode

Definition at line 358 of file keymap.c.

{
  while (*pos < k1->len && *pos < k2->len)
  {
    if (k1->keys[*pos] < k2->keys[*pos])
      return k2;
    else if (k1->keys[*pos] > k2->keys[*pos])
      return k1;
    else
      *pos = *pos + 1;
  }
 
  return NULL;
}

Here is the caller graph for this function:

km_bind_err()

static enum CommandResult km_bind_err ( const char *  s, enum MenuType  menu, int  op, char *  macro, char *  desc, struct Buffer *  err  )

static

Set up a key binding.

Parameters

s	Key string
menu	Menu id, e.g. MENU_EDITOR
op	Operation, e.g. OP_DELETE
macro	Macro string
desc	Description of macro (OPTIONAL)
err	Buffer for error message

Return values

CommandResult

Result e.g. MUTT_CMD_SUCCESS

Insert a key sequence into the specified map. The map is sorted by ASCII value (lowest to highest)

Definition at line 386 of file keymap.c.

{
  enum CommandResult rc = MUTT_CMD_SUCCESS;
  struct Keymap *last = NULL, *np = NULL, *compare = NULL;
  keycode_t buf[MAX_SEQ];
  size_t pos = 0, lastpos = 0;
 
  size_t len = parsekeys(s, buf, MAX_SEQ);
 
  struct Keymap *map = alloc_keys(len, buf);
  map->op = op;
  map->macro = mutt_str_dup(macro);
  map->desc = mutt_str_dup(desc);
 
  /* find position to place new keymap */
  STAILQ_FOREACH(np, &Keymaps[menu], entries)
  {
    compare = km_compare_keys(map, np, &pos);
 
    if (compare == map) /* map's keycode is bigger */
    {
      last = np;
      lastpos = pos;
      if (pos > np->eq)
        pos = np->eq;
    }
    else if (compare == np) /* np's keycode is bigger, found insert location */
    {
      map->eq = pos;
      break;
    }
    else /* equal keycodes */
    {
      /* Don't warn on overwriting a 'noop' binding */
      if ((np->len != len) && (np->op != OP_NULL))
      {
        /* Overwrite with the different lengths, warn */
        /* TODO: MAX_SEQ here is wrong */
        char old_binding[MAX_SEQ];
        char new_binding[MAX_SEQ];
        km_expand_key(old_binding, MAX_SEQ, map);
        km_expand_key(new_binding, MAX_SEQ, np);
        char *err_msg =
            _("Binding '%s' will alias '%s'  Before, try: 'bind %s %s noop'  "
              "https://neomutt.org/guide/configuration.html#bind-warnings");
        if (err)
        {
          /* err was passed, put the string there */
          snprintf(err->data, err->dsize, err_msg, old_binding, new_binding,
                   mutt_map_get_name(menu, Menus), new_binding);
        }
        else
        {
          mutt_error(err_msg, old_binding, new_binding,
                     mutt_map_get_name(menu, Menus), new_binding);
        }
        rc = MUTT_CMD_WARNING;
      }
 
      map->eq = np->eq;
      STAILQ_REMOVE(&Keymaps[menu], np, Keymap, entries);
      mutt_keymap_free(&np);
      break;
    }
  }
 
  if (last) /* if queue has at least one entry */
  {
    if (STAILQ_NEXT(last, entries))
      STAILQ_INSERT_AFTER(&Keymaps[menu], last, map, entries);
    else /* last entry in the queue */
      STAILQ_INSERT_TAIL(&Keymaps[menu], map, entries);
    last->eq = lastpos;
  }
  else /* queue is empty, so insert from head */
  {
    STAILQ_INSERT_HEAD(&Keymaps[menu], map, entries);
  }
 
  return rc;
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_bind()

enum CommandResult km_bind	(	char *	s,
		enum MenuType	menu,
		int	op,
		char *	macro,
		char *	desc
	)

Bind a key to a macro.

Parameters

s	Key string
menu	Menu id, e.g. MENU_EDITOR
op	Operation, e.g. OP_DELETE
macro	Macro string
desc	Description of macro (OPTIONAL)

Return values

CommandResult

Result e.g. MUTT_CMD_SUCCESS

Definition at line 478 of file keymap.c.

{
  return km_bind_err(s, menu, op, macro, desc, NULL);
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_bindkey_err()

static enum CommandResult km_bindkey_err ( const char *  s, enum MenuType  menu, int  op, struct Buffer *  err  )

static

Bind a key in a Menu to an operation (with error message)

Parameters

s	Key string
menu	Menu id, e.g. MENU_PAGER
op	Operation, e.g. OP_DELETE
err	Buffer for error message

Return values

CommandResult

Result e.g. MUTT_CMD_SUCCESS

Definition at line 491 of file keymap.c.

{
  return km_bind_err(s, menu, op, NULL, NULL, err);
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_bindkey()

static enum CommandResult km_bindkey ( const char *  s, enum MenuType  menu, int  op  )

static

Bind a key in a Menu to an operation.

Parameters

s	Key string
menu	Menu id, e.g. MENU_PAGER
op	Operation, e.g. OP_DELETE

Return values

CommandResult

Result e.g. MUTT_CMD_SUCCESS

Definition at line 504 of file keymap.c.

{
  return km_bindkey_err(s, menu, op, NULL);
}

Here is the call graph for this function:

Here is the caller graph for this function:

get_op()

static int get_op ( const struct Binding *  bindings, const char *  start, size_t  len  )

static

Get the function by its name.

Parameters

bindings	Key bindings table
start	Name of function to find
len	Length of string to match

Return values

num	Operation, e.g. OP_DELETE

Definition at line 516 of file keymap.c.

{
  for (int i = 0; bindings[i].name; i++)
  {
    if (mutt_istrn_equal(start, bindings[i].name, len) &&
        (mutt_str_len(bindings[i].name) == len))
    {
      return bindings[i].op;
    }
  }
 
  return OP_NULL;
}

Here is the call graph for this function:

Here is the caller graph for this function:

mutt_get_func()

const char* mutt_get_func	(	const struct Binding *	bindings,
		int	op
	)

Get the name of a function.

Parameters

bindings	Key bindings table
op	Operation, e.g. OP_DELETE

Return values

ptr	Name of function
NULL	Operation not found

Note

This returns a static string.

Definition at line 539 of file keymap.c.

{
  for (int i = 0; bindings[i].name; i++)
  {
    if (bindings[i].op == op)
      return bindings[i].name;
  }
 
  return NULL;
}

Here is the caller graph for this function:

generic_tokenize_push_string()

static void generic_tokenize_push_string ( char *  s, void(*)(int, int)  generic_push  )

static

Parse and queue a 'push' command.

Parameters

s	String to push into the key queue
generic_push	Callback function to add events to macro queue

Parses s for <function> syntax and adds the whole sequence to either the macro or unget buffer. This function is invoked by the next two defines below.

Definition at line 559 of file keymap.c.

{
  char *pp = NULL;
  char *p = s + mutt_str_len(s) - 1;
  size_t l;
  int i, op = OP_NULL;
 
  while (p >= s)
  {
    /* if we see something like "<PageUp>", look to see if it is a real
     * function name and return the corresponding value */
    if (*p == '>')
    {
      for (pp = p - 1; pp >= s && *pp != '<'; pp--)
        ; // do nothing
 
      if (pp >= s)
      {
        i = parse_fkey(pp);
        if (i > 0)
        {
          generic_push(KEY_F(i), 0);
          p = pp - 1;
          continue;
        }
 
        l = p - pp + 1;
        for (i = 0; KeyNames[i].name; i++)
        {
          if (mutt_istrn_equal(pp, KeyNames[i].name, l))
            break;
        }
        if (KeyNames[i].name)
        {
          /* found a match */
          generic_push(KeyNames[i].value, 0);
          p = pp - 1;
          continue;
        }
 
        /* See if it is a valid command
         * skip the '<' and the '>' when comparing */
        for (enum MenuType j = 0; Menus[j].name; j++)
        {
          const struct Binding *binding = km_get_table(Menus[j].value);
          if (binding)
          {
            op = get_op(binding, pp + 1, l - 2);
            if (op != OP_NULL)
              break;
          }
        }
 
        if (op != OP_NULL)
        {
          generic_push(0, op);
          p = pp - 1;
          continue;
        }
      }
    }
    generic_push((unsigned char) *p--, 0); /* independent 8 bits chars */
  }
}

Here is the call graph for this function:

Here is the caller graph for this function:

retry_generic()

static int retry_generic ( enum MenuType  menu, keycode_t *  keys, int  keyslen, int  lastkey  )

static

Try to find the key in the generic menu bindings.

Parameters

menu	Menu id, e.g. MENU_PAGER
keys	Array of keys to return to the input queue
keyslen	Number of keys in the array
lastkey	Last key pressed (to return to input queue)

Return values

num	Operation, e.g. OP_DELETE

Definition at line 632 of file keymap.c.

{
  if ((menu != MENU_EDITOR) && (menu != MENU_GENERIC) && (menu != MENU_PAGER))
  {
    if (lastkey)
      mutt_unget_event(lastkey, 0);
    for (; keyslen; keyslen--)
      mutt_unget_event(keys[keyslen - 1], 0);
    return km_dokey(MENU_GENERIC);
  }
  if (menu != MENU_EDITOR)
  {
    /* probably a good idea to flush input here so we can abort macros */
    mutt_flushinp();
  }
  return OP_NULL;
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_dokey()

int km_dokey

(

enum MenuType

menu

)

Determine what a keypress should do.

Parameters

menu	Menu ID, e.g. MENU_EDITOR

Return values

>0	Function to execute
OP_NULL	No function bound to key sequence
-1	Error occurred while reading input
-2	A timeout or sigwinch occurred

Definition at line 658 of file keymap.c.

{
  struct KeyEvent tmp;
  struct Keymap *map = STAILQ_FIRST(&Keymaps[menu]);
  int pos = 0;
  int n = 0;
 
  if (!map && (menu != MENU_EDITOR))
    return retry_generic(menu, NULL, 0, 0);
 
  while (true)
  {
    int i = (C_Timeout > 0) ? C_Timeout : 60;
#ifdef USE_IMAP
    /* keepalive may need to run more frequently than `$timeout` allows */
    if (C_ImapKeepalive)
    {
      if (C_ImapKeepalive >= i)
        imap_keepalive();
      else
      {
        while (C_ImapKeepalive && (C_ImapKeepalive < i))
        {
          mutt_getch_timeout(C_ImapKeepalive * 1000);
          tmp = mutt_getch();
          mutt_getch_timeout(-1);
          /* If a timeout was not received, or the window was resized, exit the
           * loop now.  Otherwise, continue to loop until reaching a total of
           * $timeout seconds.  */
          if ((tmp.ch != -2) || SigWinch)
            goto gotkey;
#ifdef USE_INOTIFY
          if (MonitorFilesChanged)
            goto gotkey;
#endif
          i -= C_ImapKeepalive;
          imap_keepalive();
        }
      }
    }
#endif
 
    mutt_getch_timeout(i * 1000);
    tmp = mutt_getch();
    mutt_getch_timeout(-1);
 
#ifdef USE_IMAP
  gotkey:
#endif
    /* hide timeouts, but not window resizes, from the line editor. */
    if ((menu == MENU_EDITOR) && (tmp.ch == -2) && !SigWinch)
      continue;
 
    LastKey = tmp.ch;
    if (LastKey < 0)
      return LastKey;
 
    /* do we have an op already? */
    if (tmp.op)
    {
      const char *func = NULL;
      const struct Binding *bindings = NULL;
 
      /* is this a valid op for this menu? */
      if ((bindings = km_get_table(menu)) && (func = mutt_get_func(bindings, tmp.op)))
        return tmp.op;
 
      if ((menu == MENU_EDITOR) && mutt_get_func(OpEditor, tmp.op))
        return tmp.op;
 
      if ((menu != MENU_EDITOR) && (menu != MENU_PAGER))
      {
        /* check generic menu */
        bindings = OpGeneric;
        func = mutt_get_func(bindings, tmp.op);
        if (func)
          return tmp.op;
      }
 
      /* Sigh. Valid function but not in this context.
       * Find the literal string and push it back */
      for (i = 0; Menus[i].name; i++)
      {
        bindings = km_get_table(Menus[i].value);
        if (bindings)
        {
          func = mutt_get_func(bindings, tmp.op);
          if (func)
          {
            mutt_unget_event('>', 0);
            mutt_unget_string(func);
            mutt_unget_event('<', 0);
            break;
          }
        }
      }
      /* continue to chew */
      if (func)
        continue;
    }
 
    if (!map)
      return tmp.op;
 
    /* Nope. Business as usual */
    while (LastKey > map->keys[pos])
    {
      if ((pos > map->eq) || !STAILQ_NEXT(map, entries))
        return retry_generic(menu, map->keys, pos, LastKey);
      map = STAILQ_NEXT(map, entries);
    }
 
    if (LastKey != map->keys[pos])
      return retry_generic(menu, map->keys, pos, LastKey);
 
    if (++pos == map->len)
    {
      if (map->op != OP_MACRO)
        return map->op;
 
      /* OptIgnoreMacroEvents turns off processing the MacroEvents buffer
       * in mutt_getch().  Generating new macro events during that time would
       * result in undesired behavior once the option is turned off.
       *
       * Originally this returned -1, however that results in an unbuffered
       * username or password prompt being aborted.  Returning OP_NULL allows
       * mutt_enter_string_full() to display the keybinding pressed instead.
       *
       * It may be unexpected for a macro's keybinding to be returned,
       * but less so than aborting the prompt.  */
      if (OptIgnoreMacroEvents)
      {
        return OP_NULL;
      }
 
      if (n++ == 10)
      {
        mutt_flushinp();
        mutt_error(_("Macro loop detected"));
        return -1;
      }
 
      generic_tokenize_push_string(map->macro, mutt_push_macro_event);
      map = STAILQ_FIRST(&Keymaps[menu]);
      pos = 0;
    }
  }
 
  /* not reached */
}

Here is the call graph for this function:

Here is the caller graph for this function:

create_bindings()

static void create_bindings ( const struct Binding *  map, enum MenuType  menu  )

static

Attach a set of keybindings to a Menu.

Parameters

map	Key bindings
menu	Menu id, e.g. MENU_PAGER

Definition at line 814 of file keymap.c.

{
  STAILQ_INIT(&Keymaps[menu]);
 
  for (int i = 0; map[i].name; i++)
    if (map[i].seq)
      km_bindkey(map[i].seq, menu, map[i].op);
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_keyname()

static const char* km_keyname ( int  c )

static

Get the human name for a key.

Parameters

c

Key code

Return values

ptr	Name of the key

Note

This returns a pointer to a static buffer.

Definition at line 830 of file keymap.c.

{
  static char buf[35];
 
  const char *p = mutt_map_get_name(c, KeyNames);
  if (p)
    return p;
 
  if ((c < 256) && (c > -128) && iscntrl((unsigned char) c))
  {
    if (c < 0)
      c += 256;
 
    if (c < 128)
    {
      buf[0] = '^';
      buf[1] = (c + '@') & 0x7f;
      buf[2] = '\0';
    }
    else
      snprintf(buf, sizeof(buf), "\\%d%d%d", c >> 6, (c >> 3) & 7, c & 7);
  }
  else if ((c >= KEY_F0) && (c < KEY_F(256))) /* this maximum is just a guess */
    sprintf(buf, "<F%d>", c - KEY_F0);
  else if (IsPrint(c))
    snprintf(buf, sizeof(buf), "%c", (unsigned char) c);
  else
    snprintf(buf, sizeof(buf), "\\x%hx", (unsigned short) c);
  return buf;
}

Here is the call graph for this function:

Here is the caller graph for this function:

mutt_init_abort_key()

void mutt_init_abort_key

(

void

)

Parse the abort_key config string.

Parse the string into $abort_key and put the keycode into AbortKey.

Definition at line 866 of file keymap.c.

{
  keycode_t buf[2];
  size_t len = parsekeys(C_AbortKey, buf, mutt_array_size(buf));
  if (len == 0)
  {
    mutt_error(_("Abort key is not set, defaulting to Ctrl-G"));
    AbortKey = ctrl('G');
    return;
  }
  if (len > 1)
  {
    mutt_warning(
        _("Specified abort key sequence (%s) will be truncated to first key"), C_AbortKey);
  }
  AbortKey = buf[0];
}

Here is the call graph for this function:

Here is the caller graph for this function:

mutt_abort_key_config_observer()

int mutt_abort_key_config_observer

(

struct NotifyCallback *

nc

)

Listen for abort_key config changes - Implements observer_t.

Definition at line 887 of file keymap.c.

{
  if (!nc->event_data)
    return -1;
  if (nc->event_type != NT_CONFIG)
    return 0;
 
  struct EventConfig *ec = nc->event_data;
 
  if (!mutt_str_equal(ec->name, "abort_key"))
    return 0;
 
  mutt_init_abort_key();
  return 0;
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_expand_key()

int km_expand_key	(	char *	s,
		size_t	len,
		struct Keymap *	map
	)

Get the key string bound to a Keymap.

Parameters

s	Buffer for the key string
len	Length of buffer
map	Keybinding map

Return values

1	Success
0	Error

Definition at line 911 of file keymap.c.

{
  if (!map)
    return 0;
 
  int p = 0;
 
  while (true)
  {
    mutt_str_copy(s, km_keyname(map->keys[p]), len);
    const size_t l = mutt_str_len(s);
    len -= l;
 
    if ((++p >= map->len) || !len)
      return 1;
 
    s += l;
  }
 
  /* not reached */
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_find_func()

struct Keymap* km_find_func	(	enum MenuType	menu,
		int	func
	)

Find a function's mapping in a Menu.

Parameters

menu	Menu id, e.g. MENU_PAGER
func	Function, e.g. OP_DELETE

Return values

ptr	Keymap for the function

Definition at line 939 of file keymap.c.

{
  struct Keymap *np = NULL;
  STAILQ_FOREACH(np, &Keymaps[menu], entries)
  {
    if (np->op == func)
      break;
  }
  return np;
}

Here is the caller graph for this function:

init_extended_keys()

void init_extended_keys

(

void

)

Initialise map of ncurses extended keys.

Determine the keycodes for ncurses extended keys and fill in the KeyNames array.

This function must be called after initscr(), or tigetstr() returns -1. This creates a bit of a chicken-and-egg problem because km_init() is called prior to start_curses(). This means that the default keybindings can't include any of the extended keys because they won't be defined until later.

Definition at line 981 of file keymap.c.

{
#ifdef NCURSES_VERSION
  use_extended_names(true);
 
  for (int j = 0; KeyNames[j].name; j++)
  {
    if (KeyNames[j].value == -1)
    {
      const char *keyname = find_ext_name(KeyNames[j].name);
 
      if (keyname)
      {
        char *s = tigetstr((char *) keyname);
        if (s && ((long) (s) != -1))
        {
          int code = key_defined(s);
          if (code > 0)
            KeyNames[j].value = code;
        }
      }
    }
  }
#endif
}

Here is the caller graph for this function:

km_init()

void km_init

(

void

)

Initialise all the menu keybindings.

Definition at line 1010 of file keymap.c.

{
  memset(Keymaps, 0, sizeof(struct KeymapList) * MENU_MAX);
 
  create_bindings(OpAttach, MENU_ATTACH);
  create_bindings(OpBrowser, MENU_FOLDER);
  create_bindings(OpCompose, MENU_COMPOSE);
  create_bindings(OpMain, MENU_MAIN);
  create_bindings(OpPager, MENU_PAGER);
  create_bindings(OpPost, MENU_POSTPONE);
  create_bindings(OpQuery, MENU_QUERY);
  create_bindings(OpAlias, MENU_ALIAS);
 
  if (WithCrypto & APPLICATION_PGP)
    create_bindings(OpPgp, MENU_PGP);
 
  if (WithCrypto & APPLICATION_SMIME)
    create_bindings(OpSmime, MENU_SMIME);
 
#ifdef CRYPT_BACKEND_GPGME
  create_bindings(OpPgp, MENU_KEY_SELECT_PGP);
  create_bindings(OpSmime, MENU_KEY_SELECT_SMIME);
#endif
 
#ifdef MIXMASTER
  create_bindings(OpMix, MENU_MIX);
 
  km_bindkey("<space>", MENU_MIX, OP_GENERIC_SELECT_ENTRY);
  km_bindkey("h", MENU_MIX, OP_MIX_CHAIN_PREV);
  km_bindkey("l", MENU_MIX, OP_MIX_CHAIN_NEXT);
#endif
 
#ifdef USE_AUTOCRYPT
  create_bindings(OpAutocryptAcct, MENU_AUTOCRYPT_ACCT);
#endif
 
  /* bindings for the line editor */
  create_bindings(OpEditor, MENU_EDITOR);
 
  km_bindkey("<up>", MENU_EDITOR, OP_EDITOR_HISTORY_UP);
  km_bindkey("<down>", MENU_EDITOR, OP_EDITOR_HISTORY_DOWN);
  km_bindkey("<left>", MENU_EDITOR, OP_EDITOR_BACKWARD_CHAR);
  km_bindkey("<right>", MENU_EDITOR, OP_EDITOR_FORWARD_CHAR);
  km_bindkey("<home>", MENU_EDITOR, OP_EDITOR_BOL);
  km_bindkey("<end>", MENU_EDITOR, OP_EDITOR_EOL);
  km_bindkey("<backspace>", MENU_EDITOR, OP_EDITOR_BACKSPACE);
  km_bindkey("<delete>", MENU_EDITOR, OP_EDITOR_DELETE_CHAR);
  km_bindkey("\177", MENU_EDITOR, OP_EDITOR_BACKSPACE);
 
  /* generic menu keymap */
  create_bindings(OpGeneric, MENU_GENERIC);
 
  km_bindkey("<home>", MENU_GENERIC, OP_FIRST_ENTRY);
  km_bindkey("<end>", MENU_GENERIC, OP_LAST_ENTRY);
  km_bindkey("<pagedown>", MENU_GENERIC, OP_NEXT_PAGE);
  km_bindkey("<pageup>", MENU_GENERIC, OP_PREV_PAGE);
  km_bindkey("<right>", MENU_GENERIC, OP_NEXT_PAGE);
  km_bindkey("<left>", MENU_GENERIC, OP_PREV_PAGE);
  km_bindkey("<up>", MENU_GENERIC, OP_PREV_ENTRY);
  km_bindkey("<down>", MENU_GENERIC, OP_NEXT_ENTRY);
  km_bindkey("1", MENU_GENERIC, OP_JUMP);
  km_bindkey("2", MENU_GENERIC, OP_JUMP);
  km_bindkey("3", MENU_GENERIC, OP_JUMP);
  km_bindkey("4", MENU_GENERIC, OP_JUMP);
  km_bindkey("5", MENU_GENERIC, OP_JUMP);
  km_bindkey("6", MENU_GENERIC, OP_JUMP);
  km_bindkey("7", MENU_GENERIC, OP_JUMP);
  km_bindkey("8", MENU_GENERIC, OP_JUMP);
  km_bindkey("9", MENU_GENERIC, OP_JUMP);
 
  km_bindkey("<return>", MENU_GENERIC, OP_GENERIC_SELECT_ENTRY);
  km_bindkey("<enter>", MENU_GENERIC, OP_GENERIC_SELECT_ENTRY);
 
  /* Miscellaneous extra bindings */
 
  km_bindkey(" ", MENU_MAIN, OP_DISPLAY_MESSAGE);
  km_bindkey("<up>", MENU_MAIN, OP_MAIN_PREV_UNDELETED);
  km_bindkey("<down>", MENU_MAIN, OP_MAIN_NEXT_UNDELETED);
  km_bindkey("J", MENU_MAIN, OP_NEXT_ENTRY);
  km_bindkey("K", MENU_MAIN, OP_PREV_ENTRY);
  km_bindkey("x", MENU_MAIN, OP_EXIT);
 
  km_bindkey("<return>", MENU_MAIN, OP_DISPLAY_MESSAGE);
  km_bindkey("<enter>", MENU_MAIN, OP_DISPLAY_MESSAGE);
 
  km_bindkey("x", MENU_PAGER, OP_EXIT);
  km_bindkey("i", MENU_PAGER, OP_EXIT);
  km_bindkey("<backspace>", MENU_PAGER, OP_PREV_LINE);
  km_bindkey("<pagedown>", MENU_PAGER, OP_NEXT_PAGE);
  km_bindkey("<pageup>", MENU_PAGER, OP_PREV_PAGE);
  km_bindkey("<up>", MENU_PAGER, OP_MAIN_PREV_UNDELETED);
  km_bindkey("<right>", MENU_PAGER, OP_MAIN_NEXT_UNDELETED);
  km_bindkey("<down>", MENU_PAGER, OP_MAIN_NEXT_UNDELETED);
  km_bindkey("<left>", MENU_PAGER, OP_MAIN_PREV_UNDELETED);
  km_bindkey("<home>", MENU_PAGER, OP_PAGER_TOP);
  km_bindkey("<end>", MENU_PAGER, OP_PAGER_BOTTOM);
  km_bindkey("1", MENU_PAGER, OP_JUMP);
  km_bindkey("2", MENU_PAGER, OP_JUMP);
  km_bindkey("3", MENU_PAGER, OP_JUMP);
  km_bindkey("4", MENU_PAGER, OP_JUMP);
  km_bindkey("5", MENU_PAGER, OP_JUMP);
  km_bindkey("6", MENU_PAGER, OP_JUMP);
  km_bindkey("7", MENU_PAGER, OP_JUMP);
  km_bindkey("8", MENU_PAGER, OP_JUMP);
  km_bindkey("9", MENU_PAGER, OP_JUMP);
 
  km_bindkey("<return>", MENU_PAGER, OP_NEXT_LINE);
  km_bindkey("<enter>", MENU_PAGER, OP_NEXT_LINE);
 
  km_bindkey("<return>", MENU_ALIAS, OP_GENERIC_SELECT_ENTRY);
  km_bindkey("<enter>", MENU_ALIAS, OP_GENERIC_SELECT_ENTRY);
  km_bindkey("<space>", MENU_ALIAS, OP_TAG);
 
  km_bindkey("<return>", MENU_ATTACH, OP_VIEW_ATTACH);
  km_bindkey("<enter>", MENU_ATTACH, OP_VIEW_ATTACH);
  km_bindkey("<return>", MENU_COMPOSE, OP_VIEW_ATTACH);
  km_bindkey("<enter>", MENU_COMPOSE, OP_VIEW_ATTACH);
 
  /* edit-to (default "t") hides generic tag-entry in Compose menu
   * This will bind tag-entry to  "T" in the Compose menu */
  km_bindkey("T", MENU_COMPOSE, OP_TAG);
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_error_key()

void km_error_key

(

enum MenuType

menu

)

Handle an unbound key sequence.

Parameters

menu	Menu id, e.g. MENU_PAGER

Definition at line 1137 of file keymap.c.

{
  char buf[128];
  int p, op;
 
  struct Keymap *key = km_find_func(menu, OP_HELP);
  if (!key && (menu != MENU_EDITOR) && (menu != MENU_PAGER))
    key = km_find_func(MENU_GENERIC, OP_HELP);
  if (!key)
  {
    mutt_error(_("Key is not bound"));
    return;
  }
 
  /* Make sure the key is really the help key in this menu.
   *
   * OP_END_COND is used as a barrier to ensure nothing extra
   * is left in the unget buffer.
   *
   * Note that km_expand_key() + tokenize_unget_string() should
   * not be used here: control sequences are expanded to a form
   * (e.g. "^H") not recognized by km_dokey(). */
  mutt_unget_event(0, OP_END_COND);
  p = key->len;
  while (p--)
    mutt_unget_event(key->keys[p], 0);
 
  /* Note, e.g. for the index menu:
   *   bind generic ?   noop
   *   bind generic ,a  help
   *   bind index   ,ab quit
   * The index keybinding shadows the generic binding.
   * OP_END_COND will be read and returned as the op.
   *
   *   bind generic ?   noop
   *   bind generic dq  help
   *   bind index   d   delete-message
   * OP_DELETE will be returned as the op, leaving "q" + OP_END_COND
   * in the unget buffer.
   */
  op = km_dokey(menu);
  if (op != OP_END_COND)
    mutt_flush_unget_to_endcond();
  if (op != OP_HELP)
  {
    mutt_error(_("Key is not bound"));
    return;
  }
 
  km_expand_key(buf, sizeof(buf), key);
  mutt_error(_("Key is not bound.  Press '%s' for help."), buf);
}

Here is the call graph for this function:

Here is the caller graph for this function:

mutt_parse_push()

enum CommandResult mutt_parse_push	(	struct Buffer *	buf,
		struct Buffer *	s,
		intptr_t	data,
		struct Buffer *	err
	)

Parse the 'push' command - Implements Command::parse()

Definition at line 1193 of file keymap.c.

{
  mutt_extract_token(buf, s, MUTT_TOKEN_CONDENSE);
  if (MoreArgs(s))
  {
    mutt_buffer_printf(err, _("%s: too many arguments"), "push");
    return MUTT_CMD_ERROR;
  }
 
  generic_tokenize_push_string(buf->data, mutt_push_macro_event);
  return MUTT_CMD_SUCCESS;
}

Here is the call graph for this function:

parse_keymap()

static char* parse_keymap ( enum MenuType *  menu, struct Buffer *  s, int  max_menus, int *  num_menus, struct Buffer *  err, bool  bind  )

static

Parse a user-config key binding.

Parameters

menu	Array for results
s	Buffer containing config string
max_menus	Total number of menus
num_menus	Number of menus this config applies to
err	Buffer for error messages
bind	If true 'bind', otherwise 'macro'

Return values

ptr	Key string for the binding

Expects to see: <menu-string>,<menu-string>,... <key-string>

Note

Caller needs to free the returned string

Definition at line 1221 of file keymap.c.

{
  struct Buffer buf;
  int i = 0;
  char *q = NULL;
 
  mutt_buffer_init(&buf);
 
  /* menu name */
  mutt_extract_token(&buf, s, MUTT_TOKEN_NO_FLAGS);
  char *p = buf.data;
  if (MoreArgs(s))
  {
    while (i < max_menus)
    {
      q = strchr(p, ',');
      if (q)
        *q = '\0';
 
      int val = mutt_map_get_value(p, Menus);
      if (val == -1)
      {
        mutt_buffer_printf(err, _("%s: no such menu"), p);
        goto error;
      }
      menu[i] = val;
      i++;
      if (q)
        p = q + 1;
      else
        break;
    }
    *num_menus = i;
    /* key sequence */
    mutt_extract_token(&buf, s, MUTT_TOKEN_NO_FLAGS);
 
    if (buf.data[0] == '\0')
    {
      mutt_buffer_printf(err, _("%s: null key sequence"), bind ? "bind" : "macro");
    }
    else if (MoreArgs(s))
      return buf.data;
  }
  else
  {
    mutt_buffer_printf(err, _("%s: too few arguments"), bind ? "bind" : "macro");
  }
error:
  FREE(&buf.data);
  return NULL;
}

Here is the call graph for this function:

Here is the caller graph for this function:

try_bind()

static enum CommandResult try_bind ( char *  key, enum MenuType  menu, char *  func, const struct Binding *  bindings, struct Buffer *  err  )

static

Try to make a key binding.

Parameters

key	Key name
menu	Menu id, e.g. MENU_PAGER
func	Function name
bindings	Key bindings table
err	Buffer for error message

Return values

CommandResult

Result e.g. MUTT_CMD_SUCCESS

Definition at line 1283 of file keymap.c.

{
  for (int i = 0; bindings[i].name; i++)
  {
    if (mutt_str_equal(func, bindings[i].name))
    {
      return km_bindkey_err(key, menu, bindings[i].op, err);
    }
  }
  if (err)
  {
    mutt_buffer_printf(err, _("Function '%s' not available for menu '%s'"),
                       func, mutt_map_get_name(menu, Menus));
  }
  return MUTT_CMD_ERROR; /* Couldn't find an existing function with this name */
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_get_table()

const struct Binding* km_get_table

(

enum MenuType

menu

)

Lookup a menu's keybindings.

Parameters

menu	Menu id, e.g. MENU_EDITOR

Return values

ptr	Array of keybindings

Definition at line 1306 of file keymap.c.

{
  switch (menu)
  {
    case MENU_ALIAS:
      return OpAlias;
    case MENU_ATTACH:
      return OpAttach;
#ifdef USE_AUTOCRYPT
    case MENU_AUTOCRYPT_ACCT:
      return OpAutocryptAcct;
#endif
    case MENU_COMPOSE:
      return OpCompose;
    case MENU_EDITOR:
      return OpEditor;
    case MENU_FOLDER:
      return OpBrowser;
    case MENU_GENERIC:
      return OpGeneric;
#ifdef CRYPT_BACKEND_GPGME
    case MENU_KEY_SELECT_PGP:
      return OpPgp;
    case MENU_KEY_SELECT_SMIME:
      return OpSmime;
#endif
    case MENU_MAIN:
      return OpMain;
#ifdef MIXMASTER
    case MENU_MIX:
      return OpMix;
#endif
    case MENU_PAGER:
      return OpPager;
    case MENU_PGP:
      return (WithCrypto & APPLICATION_PGP) ? OpPgp : NULL;
    case MENU_POSTPONE:
      return OpPost;
    case MENU_QUERY:
      return OpQuery;
    default:
      return NULL;
  }
}

Here is the caller graph for this function:

mutt_parse_bind()

enum CommandResult mutt_parse_bind	(	struct Buffer *	buf,
		struct Buffer *	s,
		intptr_t	data,
		struct Buffer *	err
	)

Parse the 'bind' command - Implements Command::parse()

bind menu-name <key_sequence> function-name

Definition at line 1356 of file keymap.c.

{
  const struct Binding *bindings = NULL;
  enum MenuType menu[sizeof(Menus) / sizeof(struct Mapping) - 1];
  int num_menus = 0;
  enum CommandResult rc = MUTT_CMD_SUCCESS;
 
  char *key = parse_keymap(menu, s, mutt_array_size(menu), &num_menus, err, true);
  if (!key)
    return MUTT_CMD_ERROR;
 
  /* function to execute */
  mutt_extract_token(buf, s, MUTT_TOKEN_NO_FLAGS);
  if (MoreArgs(s))
  {
    mutt_buffer_printf(err, _("%s: too many arguments"), "bind");
    rc = MUTT_CMD_ERROR;
  }
  else if (mutt_istr_equal("noop", buf->data))
  {
    for (int i = 0; i < num_menus; i++)
    {
      km_bindkey(key, menu[i], OP_NULL); /* the 'unbind' command */
      bindings = km_get_table(menu[i]);
      if (bindings)
      {
        int op = get_op(OpGeneric, buf->data, mutt_str_len(buf->data));
        struct EventBinding ev_bind = { menu[i], key, op };
        notify_send(NeoMutt->notify, NT_BINDING, NT_BINDING_DELETED, &ev_bind);
      }
    }
  }
  else
  {
    for (int i = 0; i < num_menus; i++)
    {
      /* The pager and editor menus don't use the generic map,
       * however for other menus try generic first. */
      if ((menu[i] != MENU_PAGER) && (menu[i] != MENU_EDITOR) && (menu[i] != MENU_GENERIC))
      {
        rc = try_bind(key, menu[i], buf->data, OpGeneric, err);
        if (rc == MUTT_CMD_SUCCESS)
        {
          int op = get_op(OpGeneric, buf->data, mutt_str_len(buf->data));
          struct EventBinding ev_bind = { menu[i], key, op };
          notify_send(NeoMutt->notify, NT_BINDING, NT_BINDING_NEW, &ev_bind);
          continue;
        }
        if (rc == MUTT_CMD_WARNING)
          break;
      }
 
      /* Clear any error message, we're going to try again */
      err->data[0] = '\0';
      bindings = km_get_table(menu[i]);
      if (bindings)
      {
        rc = try_bind(key, menu[i], buf->data, bindings, err);
        if (rc == MUTT_CMD_SUCCESS)
        {
          int op = get_op(bindings, buf->data, mutt_str_len(buf->data));
          struct EventBinding ev_bind = { menu[i], key, op };
          notify_send(NeoMutt->notify, NT_BINDING, NT_BINDING_NEW, &ev_bind);
          continue;
        }
      }
    }
  }
  FREE(&key);
  return rc;
}

Here is the call graph for this function:

parse_menu()

static void* parse_menu ( bool *  menu, char *  s, struct Buffer *  err  )

static

Parse menu-names into an array.

Parameters

menu	Array for results
s	String containing menu-names
err	Buffer for error messages

Expects to see: <menu-string>[,<menu-string>]

Definition at line 1437 of file keymap.c.

{
  char *menu_names_dup = mutt_str_dup(s);
  char *marker = menu_names_dup;
  char *menu_name = NULL;
 
  while ((menu_name = strsep(&marker, ",")))
  {
    int value = mutt_map_get_value(menu_name, Menus);
    if (value == -1)
    {
      mutt_buffer_printf(err, _("%s: no such menu"), menu_name);
      break;
    }
    else
      menu[value] = true;
  }
 
  FREE(&menu_names_dup);
  return NULL;
}

Here is the call graph for this function:

Here is the caller graph for this function:

km_unbind_all()

static void km_unbind_all ( struct KeymapList *  km_list, unsigned long  mode  )

static

Free all the keys in the supplied Keymap.

Parameters

km_list	Keymap mapping
mode	Undo bind or macro, e.g. MUTT_UNBIND, MUTT_UNMACRO

Iterate through Keymap and free keys defined either by "macro" or "bind".

Definition at line 1466 of file keymap.c.

{
  struct Keymap *np = NULL, *tmp = NULL;
 
  STAILQ_FOREACH_SAFE(np, km_list, entries, tmp)
  {
    if (((mode & MUTT_UNBIND) && !np->macro) || ((mode & MUTT_UNMACRO) && np->macro))
    {
      STAILQ_REMOVE(km_list, np, Keymap, entries);
      mutt_keymap_free(&np);
    }
  }
}

Here is the call graph for this function:

Here is the caller graph for this function:

mutt_parse_unbind()

enum CommandResult mutt_parse_unbind	(	struct Buffer *	buf,
		struct Buffer *	s,
		intptr_t	data,
		struct Buffer *	err
	)

Parse the 'unbind' command - Implements Command::parse()

Command unbinds:

• one binding in one menu-name
• one binding in all menu-names
• all bindings in all menu-names

unbind <menu-name[,...]|*> [<key_sequence>]

Definition at line 1490 of file keymap.c.

{
  bool menu[MENU_MAX] = { 0 };
  bool all_keys = false;
  char *key = NULL;
 
  mutt_extract_token(buf, s, MUTT_TOKEN_NO_FLAGS);
  if (mutt_str_equal(buf->data, "*"))
  {
    for (enum MenuType i = 0; i < MENU_MAX; i++)
      menu[i] = true;
  }
  else
    parse_menu(menu, buf->data, err);
 
  if (MoreArgs(s))
  {
    mutt_extract_token(buf, s, MUTT_TOKEN_NO_FLAGS);
    key = buf->data;
  }
  else
    all_keys = true;
 
  if (MoreArgs(s))
  {
    const char *cmd = (data & MUTT_UNMACRO) ? "unmacro" : "unbind";
 
    mutt_buffer_printf(err, _("%s: too many arguments"), cmd);
    return MUTT_CMD_ERROR;
  }
 
  for (enum MenuType i = 0; i < MENU_MAX; i++)
  {
    if (!menu[i])
      continue;
    if (all_keys)
    {
      km_unbind_all(&Keymaps[i], data);
      km_bindkey("<enter>", MENU_GENERIC, OP_GENERIC_SELECT_ENTRY);
      km_bindkey("<return>", MENU_GENERIC, OP_GENERIC_SELECT_ENTRY);
      km_bindkey("<enter>", MENU_MAIN, OP_DISPLAY_MESSAGE);
      km_bindkey("<return>", MENU_MAIN, OP_DISPLAY_MESSAGE);
      km_bindkey("<backspace>", MENU_EDITOR, OP_EDITOR_BACKSPACE);
      km_bindkey("\177", MENU_EDITOR, OP_EDITOR_BACKSPACE);
      km_bindkey(":", MENU_GENERIC, OP_ENTER_COMMAND);
      km_bindkey(":", MENU_PAGER, OP_ENTER_COMMAND);
      if (i != MENU_EDITOR)
      {
        km_bindkey("?", i, OP_HELP);
        km_bindkey("q", i, OP_EXIT);
      }
      struct EventBinding ev_bind = { i, NULL, OP_NULL };
      notify_send(NeoMutt->notify, NT_BINDING,
                  (data & MUTT_UNMACRO) ? NT_MACRO_DELETE_ALL : NT_BINDING_DELETE_ALL,
                  &ev_bind);
    }
    else
    {
      km_bindkey(key, i, OP_NULL);
      struct EventBinding ev_bind = { i, key, OP_NULL };
      notify_send(NeoMutt->notify, NT_BINDING,
                  (data & MUTT_UNMACRO) ? NT_MACRO_DELETED : NT_BINDING_DELETED, &ev_bind);
    }
  }
 
  return MUTT_CMD_SUCCESS;
}

Here is the call graph for this function:

mutt_parse_macro()

enum CommandResult mutt_parse_macro	(	struct Buffer *	buf,
		struct Buffer *	s,
		intptr_t	data,
		struct Buffer *	err
	)

Parse the 'macro' command - Implements Command::parse()

macro <menu> <key> <macro> <description>

Definition at line 1564 of file keymap.c.

{
  enum MenuType menu[sizeof(Menus) / sizeof(struct Mapping) - 1];
  int num_menus = 0;
  enum CommandResult rc = MUTT_CMD_ERROR;
 
  char *key = parse_keymap(menu, s, mutt_array_size(menu), &num_menus, err, false);
  if (!key)
    return MUTT_CMD_ERROR;
 
  mutt_extract_token(buf, s, MUTT_TOKEN_CONDENSE);
  /* make sure the macro sequence is not an empty string */
  if (buf->data[0] == '\0')
  {
    mutt_buffer_strcpy(err, _("macro: empty key sequence"));
  }
  else
  {
    if (MoreArgs(s))
    {
      char *seq = mutt_str_dup(buf->data);
      mutt_extract_token(buf, s, MUTT_TOKEN_CONDENSE);
 
      if (MoreArgs(s))
      {
        mutt_buffer_printf(err, _("%s: too many arguments"), "macro");
      }
      else
      {
        for (int i = 0; i < num_menus; i++)
        {
          rc = km_bind(key, menu[i], OP_MACRO, seq, buf->data);
          if (rc == MUTT_CMD_SUCCESS)
          {
            struct EventBinding ev_bind = { menu[i], key, OP_MACRO };
            notify_send(NeoMutt->notify, NT_BINDING, NT_MACRO_NEW, &ev_bind);
            continue;
          }
        }
      }
 
      FREE(&seq);
    }
    else
    {
      for (int i = 0; i < num_menus; i++)
      {
        rc = km_bind(key, menu[i], OP_MACRO, buf->data, NULL);
        if (rc == MUTT_CMD_SUCCESS)
        {
          struct EventBinding ev_bind = { menu[i], key, OP_MACRO };
          notify_send(NeoMutt->notify, NT_BINDING, NT_MACRO_NEW, &ev_bind);
          continue;
        }
      }
    }
  }
  FREE(&key);
  return rc;
}

Here is the call graph for this function:

mutt_parse_exec()

enum CommandResult mutt_parse_exec	(	struct Buffer *	buf,
		struct Buffer *	s,
		intptr_t	data,
		struct Buffer *	err
	)

Parse the 'exec' command - Implements Command::parse()

Definition at line 1629 of file keymap.c.

{
  int ops[128];
  int nops = 0;
  const struct Binding *bindings = NULL;
  char *function = NULL;
 
  if (!MoreArgs(s))
  {
    mutt_buffer_strcpy(err, _("exec: no arguments"));
    return MUTT_CMD_ERROR;
  }
 
  do
  {
    mutt_extract_token(buf, s, MUTT_TOKEN_NO_FLAGS);
    function = buf->data;
 
    bindings = km_get_table(CurrentMenu);
    if (!bindings && (CurrentMenu != MENU_PAGER))
      bindings = OpGeneric;
 
    ops[nops] = get_op(bindings, function, mutt_str_len(function));
    if ((ops[nops] == OP_NULL) && (CurrentMenu != MENU_PAGER))
      ops[nops] = get_op(OpGeneric, function, mutt_str_len(function));
 
    if (ops[nops] == OP_NULL)
    {
      mutt_flushinp();
      mutt_error(_("%s: no such function"), function);
      return MUTT_CMD_ERROR;
    }
    nops++;
  } while (MoreArgs(s) && nops < mutt_array_size(ops));
 
  while (nops)
    mutt_push_macro_event(0, ops[--nops]);
 
  return MUTT_CMD_SUCCESS;
}

Here is the call graph for this function:

mutt_what_key()

void mutt_what_key

(

void

)

Ask the user to press a key.

Displays the octal value back to the user.

Definition at line 1676 of file keymap.c.

{
  int ch;
 
  mutt_window_mvprintw(MessageWindow, 0, 0, _("Enter keys (%s to abort): "),
                       km_keyname(AbortKey));
  do
  {
    ch = getch();
    if ((ch != ERR) && (ch != AbortKey))
    {
      mutt_message(_("Char = %s, Octal = %o, Decimal = %d"), km_keyname(ch), ch, ch);
    }
  } while (ch != ERR && ch != AbortKey);
 
  mutt_flushinp();
  mutt_clear_error();
}

Here is the call graph for this function:

Here is the caller graph for this function:

mutt_keys_free()

void mutt_keys_free

(

void

)

Free the key maps.

Definition at line 1698 of file keymap.c.

{
  for (int i = 0; i < MENU_MAX; i++)
  {
    mutt_keymaplist_free(&Keymaps[i]);
  }
}

Here is the call graph for this function:

Here is the caller graph for this function:

Variable Documentation

Menus

const struct Mapping Menus[]

Initial value:

= {
  { "alias", MENU_ALIAS },
  { "attach", MENU_ATTACH },
  { "browser", MENU_FOLDER },
  { "compose", MENU_COMPOSE },
  { "editor", MENU_EDITOR },
  { "index", MENU_MAIN },
  { "pager", MENU_PAGER },
  { "postpone", MENU_POSTPONE },
  { "pgp", MENU_PGP },
  { "smime", MENU_SMIME },
 
  { "key_select_pgp", MENU_KEY_SELECT_PGP },
  { "key_select_smime", MENU_KEY_SELECT_SMIME },
 
 
  { "mix", MENU_MIX },
 
  { "query", MENU_QUERY },
  { "generic", MENU_GENERIC },
  { NULL, 0 },
}

Menu name lookup table.

Definition at line 61 of file keymap.c.

KeyNames

struct Mapping KeyNames[]

static

Key name lookup table.

Definition at line 87 of file keymap.c.

LastKey

int LastKey

contains the last key the user pressed

Last real key pressed, recorded by dokey()

Definition at line 146 of file keymap.c.

AbortKey

keycode_t AbortKey

code of key to abort prompts, normally Ctrl-G

key to abort edits etc, normally Ctrl-G

Definition at line 147 of file keymap.c.

Keymaps

struct KeymapList Keymaps[MENU_MAX]

Array of Keymap keybindings, one for each Menu.

Definition at line 149 of file keymap.c.