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|
/* $OpenBSD: key.c,v 1.7 2003/06/02 20:18:40 millert Exp $ */
/* $NetBSD: key.c,v 1.2 1997/01/11 06:47:58 lukem Exp $ */
/*-
* Copyright (c) 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Christos Zoulas of Cornell University.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#if !defined(lint) && !defined(SCCSID)
#if 0
static char sccsid[] = "@(#)key.c 8.1 (Berkeley) 6/4/93";
#else
static const char rcsid[] = "$OpenBSD: key.c,v 1.7 2003/06/02 20:18:40 millert Exp $";
#endif
#endif /* not lint && not SCCSID */
/*
* key.c: This module contains the procedures for maintaining
* the extended-key map.
*
* An extended-key (key) is a sequence of keystrokes introduced
* with an sequence introducer and consisting of an arbitrary
* number of characters. This module maintains a map (the el->el_key.map)
* to convert these extended-key sequences into input strs
* (XK_STR), editor functions (XK_CMD), or unix commands (XK_EXE).
*
* Warning:
* If key is a substr of some other keys, then the longer
* keys are lost!! That is, if the keys "abcd" and "abcef"
* are in el->el_key.map, adding the key "abc" will cause the first two
* definitions to be lost.
*
* Restrictions:
* -------------
* 1) It is not possible to have one key that is a
* substr of another.
*/
#include "sys.h"
#include <string.h>
#include <stdlib.h>
#include "el.h"
/*
* The Nodes of the el->el_key.map. The el->el_key.map is a linked list
* of these node elements
*/
struct key_node_t {
char ch; /* single character of key */
int type; /* node type */
key_value_t val; /* command code or pointer to str, */
/* if this is a leaf */
struct key_node_t *next; /* ptr to next char of this key */
struct key_node_t *sibling; /* ptr to another key with same prefix */
};
private int node_trav(EditLine *, key_node_t *, char *,
key_value_t *);
private int node__try(key_node_t *, char *, key_value_t *, int);
private key_node_t *node__get(int);
private void node__put(key_node_t *);
private int node__delete(key_node_t **, char *);
private int node_lookup (EditLine *, char *, key_node_t *, int);
private int node_enum(EditLine *, key_node_t *, int);
private int key__decode_char(char *, int, int);
#define KEY_BUFSIZ EL_BUFSIZ
/* key_init():
* Initialize the key maps
*/
protected int
key_init(el)
EditLine *el;
{
el->el_key.buf = (char *) el_malloc(KEY_BUFSIZ);
el->el_key.map = NULL;
key_reset(el);
return 0;
}
/* key_end():
* Free the key maps
*/
protected void
key_end(el)
EditLine *el;
{
el_free((ptr_t) el->el_key.buf);
el->el_key.buf = NULL;
/* XXX: provide a function to clear the keys */
el->el_key.map = NULL;
}
/* key_map_cmd():
* Associate cmd with a key value
*/
protected key_value_t *
key_map_cmd(el, cmd)
EditLine *el;
int cmd;
{
el->el_key.val.cmd = (el_action_t) cmd;
return &el->el_key.val;
}
/* key_map_str():
* Associate str with a key value
*/
protected key_value_t *
key_map_str(el, str)
EditLine *el;
char *str;
{
el->el_key.val.str = str;
return &el->el_key.val;
}
/* key_reset():
* Takes all nodes on el->el_key.map and puts them on free list. Then
* initializes el->el_key.map with arrow keys
* [Always bind the ansi arrow keys?]
*/
protected void
key_reset(el)
EditLine *el;
{
node__put(el->el_key.map);
el->el_key.map = NULL;
return;
}
/* key_get():
* Calls the recursive function with entry point el->el_key.map
* Looks up *ch in map and then reads characters until a
* complete match is found or a mismatch occurs. Returns the
* type of the match found (XK_STR, XK_CMD, or XK_EXE).
* Returns NULL in val.str and XK_STR for no match.
* The last character read is returned in *ch.
*/
protected int
key_get(el, ch, val)
EditLine *el;
char *ch;
key_value_t *val;
{
return node_trav(el, el->el_key.map, ch, val);
}
/* key_add():
* Adds key to the el->el_key.map and associates the value in val with it.
* If key is already is in el->el_key.map, the new code is applied to the
* existing key. Ntype specifies if code is a command, an
* out str or a unix command.
*/
protected void
key_add(el, key, val, ntype)
EditLine *el;
char *key;
key_value_t *val;
int ntype;
{
if (key[0] == '\0') {
(void)fprintf(el->el_errfile,
"key_add: Null extended-key not allowed.\n");
return;
}
if (ntype == XK_CMD && val->cmd == ED_SEQUENCE_LEAD_IN) {
(void)fprintf(el->el_errfile,
"key_add: sequence-lead-in command not allowed\n");
return;
}
if (el->el_key.map == NULL)
/* tree is initially empty. Set up new node to match key[0] */
el->el_key.map = node__get(key[0]); /* it is properly initialized */
/* Now recurse through el->el_key.map */
(void)node__try(el->el_key.map, key, val, ntype);
return;
}
/* key_clear():
*
*/
protected void
key_clear(el, map, in)
EditLine *el;
el_action_t *map;
char *in;
{
if ((map[(unsigned char) *in] == ED_SEQUENCE_LEAD_IN) &&
((map == el->el_map.key &&
el->el_map.alt[(unsigned char) *in] != ED_SEQUENCE_LEAD_IN) ||
(map == el->el_map.alt &&
el->el_map.key[(unsigned char) *in] != ED_SEQUENCE_LEAD_IN)))
(void)key_delete(el, in);
}
/* key_delete():
* Delete the key and all longer keys staring with key, if
* they exists.
*/
protected int
key_delete(el, key)
EditLine *el;
char *key;
{
if (key[0] == '\0') {
(void)fprintf(el->el_errfile,
"key_delete: Null extended-key not allowed.\n");
return -1;
}
if (el->el_key.map == NULL)
return 0;
(void)node__delete(&el->el_key.map, key);
return 0;
}
/* key_print():
* Print the binding associated with key key.
* Print entire el->el_key.map if null
*/
protected void
key_print(el, key)
EditLine *el;
char *key;
{
/* do nothing if el->el_key.map is empty and null key specified */
if (el->el_key.map == NULL && *key == 0)
return;
el->el_key.buf[0] = '"';
if (node_lookup(el, key, el->el_key.map, 1) <= -1)
/* key is not bound */
(void)fprintf(el->el_errfile, "Unbound extended key \"%s\"\n", key);
return;
}
/* node_trav():
* recursively traverses node in tree until match or mismatch is
* found. May read in more characters.
*/
private int
node_trav(el, ptr, ch, val)
EditLine *el;
key_node_t *ptr;
char *ch;
key_value_t *val;
{
if (ptr->ch == *ch) {
/* match found */
if (ptr->next) {
/* key not complete so get next char */
if (el_getc(el, ch) != 1) { /* if EOF or error */
val->cmd = ED_END_OF_FILE;
return XK_CMD;/* PWP: Pretend we just read an end-of-file */
}
return node_trav(el, ptr->next, ch, val);
}
else {
*val = ptr->val;
if (ptr->type != XK_CMD)
*ch = '\0';
return ptr->type;
}
}
else {
/* no match found here */
if (ptr->sibling) {
/* try next sibling */
return node_trav(el, ptr->sibling, ch, val);
}
else {
/* no next sibling -- mismatch */
val->str = NULL;
return XK_STR;
}
}
}
/* node__try():
* Find a node that matches *str or allocate a new one
*/
private int
node__try(ptr, str, val, ntype)
key_node_t *ptr;
char *str;
key_value_t *val;
int ntype;
{
if (ptr->ch != *str) {
key_node_t *xm;
for (xm = ptr; xm->sibling != NULL; xm = xm->sibling)
if (xm->sibling->ch == *str)
break;
if (xm->sibling == NULL)
xm->sibling = node__get(*str); /* setup new node */
ptr = xm->sibling;
}
if (*++str == '\0') {
/* we're there */
if (ptr->next != NULL) {
node__put(ptr->next); /* lose longer keys with this prefix */
ptr->next = NULL;
}
switch (ptr->type) {
case XK_CMD:
case XK_NOD:
break;
case XK_STR:
case XK_EXE:
if (ptr->val.str)
el_free((ptr_t) ptr->val.str);
break;
default:
abort();
break;
}
switch (ptr->type = ntype) {
case XK_CMD:
ptr->val = *val;
break;
case XK_STR:
case XK_EXE:
ptr->val.str = strdup(val->str);
break;
default:
abort();
break;
}
}
else {
/* still more chars to go */
if (ptr->next == NULL)
ptr->next = node__get(*str); /* setup new node */
(void)node__try(ptr->next, str, val, ntype);
}
return 0;
}
/* node__delete():
* Delete node that matches str
*/
private int
node__delete(inptr, str)
key_node_t **inptr;
char *str;
{
key_node_t *ptr;
key_node_t *prev_ptr = NULL;
ptr = *inptr;
if (ptr->ch != *str) {
key_node_t *xm;
for (xm = ptr; xm->sibling != NULL; xm = xm->sibling)
if (xm->sibling->ch == *str)
break;
if (xm->sibling == NULL)
return 0;
prev_ptr = xm;
ptr = xm->sibling;
}
if (*++str == '\0') {
/* we're there */
if (prev_ptr == NULL)
*inptr = ptr->sibling;
else
prev_ptr->sibling = ptr->sibling;
ptr->sibling = NULL;
node__put(ptr);
return 1;
}
else if (ptr->next != NULL && node__delete(&ptr->next, str) == 1) {
if (ptr->next != NULL)
return 0;
if (prev_ptr == NULL)
*inptr = ptr->sibling;
else
prev_ptr->sibling = ptr->sibling;
ptr->sibling = NULL;
node__put(ptr);
return 1;
}
else {
return 0;
}
}
/* node__put():
* Puts a tree of nodes onto free list using free(3).
*/
private void
node__put(ptr)
key_node_t *ptr;
{
if (ptr == NULL)
return;
if (ptr->next != NULL) {
node__put(ptr->next);
ptr->next = NULL;
}
node__put(ptr->sibling);
switch (ptr->type) {
case XK_CMD:
case XK_NOD:
break;
case XK_EXE:
case XK_STR:
if (ptr->val.str != NULL)
el_free((ptr_t) ptr->val.str);
break;
default:
abort();
break;
}
el_free((ptr_t) ptr);
}
/* node__get():
* Returns pointer to an key_node_t for ch.
*/
private key_node_t *
node__get(ch)
int ch;
{
key_node_t *ptr;
ptr = (key_node_t *) el_malloc((size_t) sizeof(key_node_t));
ptr->ch = ch;
ptr->type = XK_NOD;
ptr->val.str = NULL;
ptr->next = NULL;
ptr->sibling = NULL;
return ptr;
}
/* node_lookup():
* look for the str starting at node ptr.
* Print if last node
*/
private int
node_lookup(el, str, ptr, cnt)
EditLine *el;
char *str;
key_node_t *ptr;
int cnt;
{
int ncnt;
if (ptr == NULL)
return -1; /* cannot have null ptr */
if (*str == 0) {
/* no more chars in str. node_enum from here. */
(void)node_enum(el, ptr, cnt);
return 0;
}
else {
/* If match put this char into el->el_key.buf. Recurse */
if (ptr->ch == *str) {
/* match found */
ncnt = key__decode_char(el->el_key.buf, cnt,
(unsigned char) ptr->ch);
if (ptr->next != NULL)
/* not yet at leaf */
return node_lookup(el, str + 1, ptr->next, ncnt + 1);
else {
/* next node is null so key should be complete */
if (str[1] == 0) {
el->el_key.buf[ncnt + 1] = '"';
el->el_key.buf[ncnt + 2] = '\0';
key_kprint(el, el->el_key.buf, &ptr->val, ptr->type);
return 0;
}
else
return -1;/* mismatch -- str still has chars */
}
}
else {
/* no match found try sibling */
if (ptr->sibling)
return node_lookup(el, str, ptr->sibling, cnt);
else
return -1;
}
}
}
/* node_enum():
* Traverse the node printing the characters it is bound in buffer
*/
private int
node_enum(el, ptr, cnt)
EditLine *el;
key_node_t *ptr;
int cnt;
{
int ncnt;
if (cnt >= KEY_BUFSIZ - 5) { /* buffer too small */
el->el_key.buf[++cnt] = '"';
el->el_key.buf[++cnt] = '\0';
(void)fprintf(el->el_errfile,
"Some extended keys too long for internal print buffer");
(void)fprintf(el->el_errfile, " \"%s...\"\n", el->el_key.buf);
return 0;
}
if (ptr == NULL) {
#ifdef DEBUG_EDIT
(void)fprintf(el->el_errfile, "node_enum: BUG!! Null ptr passed\n!");
#endif
return -1;
}
/* put this char at end of str */
ncnt = key__decode_char(el->el_key.buf, cnt, (unsigned char) ptr->ch);
if (ptr->next == NULL) {
/* print this key and function */
el->el_key.buf[ncnt + 1] = '"';
el->el_key.buf[ncnt + 2] = '\0';
key_kprint(el, el->el_key.buf, &ptr->val, ptr->type);
}
else
(void)node_enum(el, ptr->next, ncnt + 1);
/* go to sibling if there is one */
if (ptr->sibling)
(void)node_enum(el, ptr->sibling, cnt);
return 0;
}
/* key_kprint():
* Print the specified key and its associated
* function specified by val
*/
protected void
key_kprint(el, key, val, ntype)
EditLine *el;
char *key;
key_value_t *val;
int ntype;
{
el_bindings_t *fp;
char unparsbuf[EL_BUFSIZ];
static char *fmt = "%-15s-> %s\n";
if (val != NULL)
switch (ntype) {
case XK_STR:
case XK_EXE:
(void)fprintf(el->el_errfile, fmt, key,
key__decode_str(val->str, unparsbuf,
ntype == XK_STR ? "\"\"" : "[]"));
break;
case XK_CMD:
for (fp = el->el_map.help; fp->name; fp++)
if (val->cmd == fp->func) {
(void)fprintf(el->el_errfile, fmt, key, fp->name);
break;
}
#ifdef DEBUG_KEY
if (fp->name == NULL)
(void)fprintf(el->el_errfile, "BUG! Command not found.\n");
#endif
break;
default:
abort();
break;
}
else
(void)fprintf(el->el_errfile, fmt, key, "no input");
}
/* key__decode_char():
* Put a printable form of char in buf.
*/
private int
key__decode_char(buf, cnt, ch)
char *buf;
int cnt, ch;
{
if (ch == 0) {
buf[cnt++] = '^';
buf[cnt] = '@';
return cnt;
}
if (iscntrl(ch)) {
buf[cnt++] = '^';
if (ch == '\177')
buf[cnt] = '?';
else
buf[cnt] = ch | 0100;
}
else if (ch == '^') {
buf[cnt++] = '\\';
buf[cnt] = '^';
}
else if (ch == '\\') {
buf[cnt++] = '\\';
buf[cnt] = '\\';
}
else if (ch == ' ' || (isprint(ch) && !isspace(ch))) {
buf[cnt] = ch;
}
else {
buf[cnt++] = '\\';
buf[cnt++] = ((ch >> 6) & 7) + '0';
buf[cnt++] = ((ch >> 3) & 7) + '0';
buf[cnt] = (ch & 7) + '0';
}
return cnt;
}
/* key__decode_str():
* Make a printable version of the ey
*/
protected char *
key__decode_str(str, buf, sep)
char *str;
char *buf;
char *sep;
{
char *b, *p;
b = buf;
if (sep[0] != '\0')
*b++ = sep[0];
if (*str == 0) {
*b++ = '^';
*b++ = '@';
if (sep[0] != '\0' && sep[1] != '\0')
*b++ = sep[1];
*b++ = 0;
return buf;
}
for (p = str; *p != 0; p++) {
if (iscntrl((unsigned char) *p)) {
*b++ = '^';
if (*p == '\177')
*b++ = '?';
else
*b++ = *p | 0100;
}
else if (*p == '^' || *p == '\\') {
*b++ = '\\';
*b++ = *p;
}
else if (*p == ' ' || (isprint((unsigned char) *p) &&
!isspace((unsigned char) *p))) {
*b++ = *p;
}
else {
*b++ = '\\';
*b++ = ((*p >> 6) & 7) + '0';
*b++ = ((*p >> 3) & 7) + '0';
*b++ = (*p & 7) + '0';
}
}
if (sep[0] != '\0' && sep[1] != '\0')
*b++ = sep[1];
*b++ = 0;
return buf; /* should check for overflow */
}
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