fish-shell/history.c
axel 45d2b89780 Use halloc in history as well as other minor cleanups in history.c
darcs-hash:20060908123455-ac50b-9a3aa6a186fc883621c120cd0964a05ed595f2a4.gz
2006-09-08 22:34:55 +10:00

721 lines
12 KiB
C

/** \file history.c
History functions, part of the user interface.
*/
#include "config.h"
#include <stdlib.h>
#include <stdio.h>
#include <wchar.h>
#include <errno.h>
#include <dirent.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include "fallback.h"
#include "util.h"
#include "wutil.h"
#include "history.h"
#include "common.h"
#include "reader.h"
#include "env.h"
#include "sanity.h"
#include "signal.h"
#include "halloc.h"
#include "halloc_util.h"
/*
The history is implemented using a linked list. Searches are done
using linear search.
*/
/**
A struct describing the state of the interactive history
list. Multiple states can be created. Use \c history_set_mode() to
change between history contexts.
*/
typedef struct
{
/**
Number of entries
*/
int count;
/**
Last history item
*/
ll_node_t *last;
/**
The last item loaded from file
*/
ll_node_t *last_loaded;
/**
Set to one if the file containing the saved history has been loaded
*/
int is_loaded;
}
history_data_t;
static ll_node_t /** Last item in history */ *history_last=0, /** Current search position*/ *history_current =0;
/**
We only try to save the part of the history that was written in
this session. This pointer keeps track of where the cutoff is.
The reason for wanting to do this is so that when two concurrent
fish sessions have exited, the latter one to exit won't push the
added history items of the prior session to the top of the history.
*/
static ll_node_t *last_loaded=0;
/**
past_end is a kludge. It is set when the current history item is
unset, i.e. a new entry is being typed.
*/
static int past_end =1;
/**
Items in history
*/
static int history_count=0;
/**
The name of the current history list. The name is used to switch
between history lists for different commands as sell as for
deciding the name of the file to save the history in.
*/
static wchar_t *mode_name;
/**
Hash table for storing all the history lists.
*/
static hash_table_t history_table;
/**
Flag, set to 1 once the history file has been loaded
*/
static int is_loaded=0;
static ll_node_t *unused = 0;
static ll_node_t *history_create_node()
{
ll_node_t *res;
if( !unused )
{
return halloc( global_context, sizeof( ll_node_t ) );
}
res = unused;
unused = unused->next;
return res;
}
static void history_free_node( ll_node_t *n )
{
n->next = unused;
unused = n;
}
/**
Load history from file
*/
static int history_load()
{
wchar_t *fn;
wchar_t *buff=0;
int buff_len=0;
FILE *in_stream;
hash_table_t used;
int res = 0;
if( !mode_name )
{
return -1;
}
is_loaded = 1;
signal_block();
hash_init2( &used,
&hash_wcs_func,
&hash_wcs_cmp,
4096 );
fn = wcsdupcat2( env_get(L"HOME"), L"/.", mode_name, L"_history", 0 );
in_stream = wfopen( fn, "r" );
if( in_stream != 0 )
{
while( !feof( in_stream ) )
{
int buff_read = fgetws2( &buff, &buff_len, in_stream );
if( buff_read == -1 )
{
debug( 1, L"The following non-fatal error occurred while reading command history from \'%ls\':", mode_name );
wperror( L"fgetws2" );
fclose( in_stream );
free( fn );
free( buff );
signal_unblock();
return -1;
}
/*
We do not call history_add here, since that would make
history_load() take quadratic time, and may be
unacceptably on slow systems with a long history file.
Use a hashtable to check for duplicates instead.
*/
if( wcslen(buff) && !hash_get( &used,
buff ) )
{
history_count++;
history_current = history_create_node();
history_current->data=wcsdup( buff );
hash_put( &used,
history_current->data,
L"" );
history_current->next=0;
history_current->prev = history_last;
if( history_last != 0 )
{
history_last->next = history_current;
}
history_last = history_current;
}
}
fclose( in_stream );
}
else
{
if( errno != ENOENT )
{
debug( 1, L"The following non-fatal error occurred while reading command history from \'%ls\':", mode_name );
wperror( L"fopen" );
res = -1;
}
}
hash_destroy( &used );
free( buff );
free( fn );
last_loaded = history_last;
signal_unblock();
return res;
}
void history_init()
{
hash_init( &history_table,
&hash_wcs_func,
&hash_wcs_cmp );
}
/**
Make sure the current history list is in the history_table.
*/
static void history_to_hash()
{
history_data_t *d;
if( !mode_name )
return;
d = (history_data_t *)hash_get( &history_table,
mode_name );
if( !d )
d = malloc( sizeof(history_data_t));
d->last=history_last;
d->last_loaded=last_loaded;
d->count=history_count;
d->is_loaded = is_loaded;
hash_put( &history_table,
mode_name,
d );
}
void history_set_mode( wchar_t *name )
{
history_data_t *curr;
if( mode_name )
{
/*
Move the current history to the hashtable
*/
history_to_hash();
}
/*
See if the new history already exists
*/
curr = (history_data_t *)hash_get( &history_table,
name );
if( curr )
{
/*
Yes. Restore it.
*/
mode_name = (wchar_t *)hash_get_key( &history_table,
name );
history_current = history_last = curr->last;
last_loaded = curr->last_loaded;
history_count = curr->count;
is_loaded = curr->is_loaded;
}
else
{
/*
Nope. Create a new history list.
*/
history_count=0;
history_last = history_current = last_loaded=0;
mode_name = wcsdup( name );
is_loaded = 0;
}
past_end=1;
}
/**
Print history node
*/
static void history_save_node( ll_node_t *n, FILE *out )
{
if( n==0 )
return;
history_save_node( n->prev, out );
fwprintf(out, L"%ls\n", (wchar_t *)(n->data) );
}
/**
Merge the process history with the history on file, write to
disc. The merging operation is done so that two concurrently
running shells wont erase each others history.
*/
static void history_save()
{
wchar_t *fn;
FILE *out_stream;
/* First we save this sessions history in local variables */
ll_node_t *real_pos = history_last, *real_first = last_loaded;
if( !is_loaded )
return;
if( !real_first )
{
real_first = history_current;
while( real_first->prev )
real_first = real_first->prev;
}
if( real_pos == real_first )
return;
/* Then we load the history from file into the global pointers */
history_last=history_current=last_loaded=0;
history_count=0;
past_end=1;
if( !history_load() )
{
if( real_pos != 0 )
{
/*
Rewind the session history to the first item which was
added in this session
*/
while( (real_pos->prev != 0) && (real_pos->prev != real_first) )
{
real_pos = real_pos->prev;
}
/* Free old history entries */
ll_node_t *kill_node_t = real_pos->prev;
while( kill_node_t != 0 )
{
ll_node_t *tmp = kill_node_t;
free( kill_node_t->data );
kill_node_t = kill_node_t->prev;
history_free_node( tmp );
}
/*
Add all the history entries from this session to the global
history, free the old version
*/
while( real_pos != 0 )
{
ll_node_t *next = real_pos->next;
history_add( (wchar_t *)real_pos->data );
free( real_pos->data );
history_free_node( real_pos );
real_pos = next;
}
}
/* Save the global history */
{
fn = wcsdupcat2( env_get(L"HOME"), L"/.", mode_name, L"_history", 0 );
out_stream = wfopen( fn, "w" );
if( out_stream )
{
history_save_node( history_last, out_stream );
if( fclose( out_stream ) )
{
debug( 1, L"The following non-fatal error occurred while saving command history to \'%ls\':", fn );
wperror( L"fopen" );
}
}
else
{
debug( 1, L"The following non-fatal error occurred while saving command history to \'%ls\':", fn );
wperror( L"fopen" );
}
free( fn );
}
}
}
/**
Save the specified mode to file
*/
static void history_destroy_mode( void *name, void *link )
{
mode_name = (wchar_t *)name;
history_data_t *d = (history_data_t *)link;
history_last = history_current = d->last;
last_loaded = d->last_loaded;
history_count = d->count;
past_end=1;
// fwprintf( stderr, L"Destroy history mode \'%ls\'\n", mode_name );
if( history_last )
{
history_save();
history_current = history_last;
while( history_current != 0 )
{
ll_node_t *tmp = history_current;
free( history_current->data );
history_current = history_current->prev;
history_free_node( tmp );
}
}
free( d );
free( mode_name );
}
void history_destroy()
{
/**
Make sure current mode is in table
*/
history_to_hash();
/**
Save all modes in table
*/
hash_foreach( &history_table,
&history_destroy_mode );
hash_destroy( &history_table );
}
/**
Internal search function
*/
static ll_node_t *history_find( ll_node_t *n, const wchar_t *s )
{
if( !is_loaded )
{
if( history_load() )
{
return 0;
}
}
if( n == 0 )
return 0;
if( wcscmp( s, (wchar_t *)n->data ) == 0 )
{
return n;
}
else
return history_find( n->prev, s );
}
void history_add( const wchar_t *str )
{
ll_node_t *old_node;
if( !is_loaded )
{
if( history_load() )
{
return;
}
}
if( wcslen( str ) == 0 )
return;
past_end=1;
old_node = history_find( history_last, str );
if( old_node == 0 )
{
history_count++;
history_current = history_create_node();
history_current->data=wcsdup( str );
}
else
{
if( old_node == last_loaded )
{
last_loaded = last_loaded->prev;
}
history_current = old_node;
if( old_node == history_last )
{
return;
}
if( old_node->prev != 0 )
old_node->prev->next = old_node->next;
if( old_node->next != 0 )
old_node->next->prev = old_node->prev;
}
history_current->next=0;
history_current->prev = history_last;
if( history_last != 0 )
{
history_last->next = history_current;
}
history_last = history_current;
}
/**
This function tests if the search string is a match for the given string
*/
static int history_test( const wchar_t *needle, const wchar_t *haystack )
{
/*
return wcsncmp( haystack, needle, wcslen(needle) )==0;
*/
return !!wcsstr( haystack, needle );
}
const wchar_t *history_prev_match( const wchar_t *str )
{
if( !is_loaded )
{
if( history_load() )
{
return 0;
}
}
if( history_current == 0 )
return str;
if( history_current->prev == 0 )
{
return str;
}
if( past_end )
past_end = 0;
else
history_current = history_current->prev;
if( history_test( str, history_current->data) )
return (wchar_t *)history_current->data;
else
return history_prev_match( str );
}
const wchar_t *history_next_match( const wchar_t *str)
{
if( !is_loaded )
{
if( history_load() )
{
return 0;
}
}
if( history_current == 0 )
return str;
if( history_current->next == 0 )
{
past_end = 1;
return str;
}
history_current = history_current->next;
if( history_test( str, history_current->data ) )
return (wchar_t *)history_current->data;
else
return history_next_match( str );
}
void history_reset()
{
history_current = history_last;
}
/**
Move to first history item
*/
void history_first()
{
if( is_loaded )
while( history_current->prev )
history_current = history_current->prev;
}
wchar_t *history_get( int idx )
{
ll_node_t *n;
int i;
if( !is_loaded )
{
if( history_load() )
{
return 0;
}
}
n = history_last;
if( idx<0)
{
debug( 1, L"Tried to access negative history index %d", idx );
return 0;
}
for( i=0; i<idx; i++ )
{
if( !n )
break;
n=n->prev;
}
return n?n->data:0;
}
void history_sanity_check()
{
return;
if( history_current != 0 )
{
int i;
int history_ok = 1;
int found_current = 0;
validate_pointer( history_last, L"History root", 1);
ll_node_t *tmp = history_last;
for( i=0; i<history_count; i++ )
{
found_current |= tmp == history_current;
if( tmp == 0 )
{
history_ok = 0;
debug( 1, L"History items missing" );
break;
}
if( (tmp->prev != 0) && (tmp->prev->next != tmp ) )
{
history_ok = 0;
debug( 1, L"History items order is inconsistent" );
break;
}
validate_pointer( tmp->data, L"History data", 1);
if( tmp->data == 0 )
{
history_ok = 0;
debug( 1, L"Empty history item" );
break;
}
validate_pointer( tmp->prev, L"History node", 1);
tmp = tmp->prev;
}
if( tmp != 0 )
{
history_ok = 0;
debug( 1, L"History list too long" );
}
if( (i!= history_count )|| (!found_current))
{
debug( 1, L"No history item selected" );
history_ok=0;
}
if( !history_ok )
{
sanity_lose();
}
}
}