/*
* Copyright (C) 2002 Ricardo Fernández Pascual
*
* 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, 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, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* $Id$
*/
#include <string.h>
#include <stdlib.h>
#include "ephy-autocompletion.h"
#include "ephy-marshal.h"
#include "ephy-debug.h"
/**
* Private data
*/
typedef enum {
GAS_NEEDS_REFINE,
GAS_NEEDS_FULL_UPDATE,
GAS_UPDATED
} EphyAutocompletionStatus;
typedef struct {
EphyAutocompletionMatch *array;
guint num_matches;
guint num_action_matches;
guint array_size;
} ACMatchArray;
#define ACMA_BASE_SIZE 10240
#define EPHY_AUTOCOMPLETION_GET_PRIVATE(object)(G_TYPE_INSTANCE_GET_PRIVATE ((object), EPHY_TYPE_AUTOCOMPLETION, EphyAutocompletionPrivate))
struct _EphyAutocompletionPrivate {
GSList *sources;
guint nkeys;
gchar **keys;
guint *key_lengths;
gchar **prefixes;
guint *prefix_lengths;
ACMatchArray matches;
EphyAutocompletionStatus status;
gboolean sorted;
gboolean changed;
gboolean sort_alpha;
};
/**
* Private functions, only availble from this file
*/
static void ephy_autocompletion_class_init (EphyAutocompletionClass *klass);
static void ephy_autocompletion_init (EphyAutocompletion *e);
static void ephy_autocompletion_finalize_impl (GObject *o);
static void ephy_autocompletion_reset (EphyAutocompletion *ac);
static void ephy_autocompletion_update_matches (EphyAutocompletion *ac);
static void ephy_autocompletion_update_matches_full (EphyAutocompletion *ac);
static gboolean ephy_autocompletion_sort_by_score (EphyAutocompletion *ac);
static void ephy_autocompletion_data_changed_cb (EphyAutocompletionSource *s,
EphyAutocompletion *ac);
static void acma_init (ACMatchArray *a);
static void acma_destroy (ACMatchArray *a);
static inline void acma_append (ACMatchArray *a,
EphyAutocompletionMatch *m,
gboolean action);
static void acma_grow (ACMatchArray *a);
static gpointer g_object_class;
/**
* Signals enums and ids
*/
enum EphyAutocompletionSignalsEnum {
EPHY_AUTOCOMPLETION_SOURCES_CHANGED,
EPHY_AUTOCOMPLETION_LAST_SIGNAL
};
static gint EphyAutocompletionSignals[EPHY_AUTOCOMPLETION_LAST_SIGNAL];
GType
ephy_autocompletion_get_type (void)
{
static GType ephy_autocompletion_type = 0;
if (ephy_autocompletion_type == 0)
{
static const GTypeInfo our_info =
{
sizeof (EphyAutocompletionClass),
NULL,
NULL,
(GClassInitFunc) ephy_autocompletion_class_init,
NULL,
NULL,
sizeof (EphyAutocompletion),
0,
(GInstanceInitFunc) ephy_autocompletion_init
};
ephy_autocompletion_type = g_type_register_static (G_TYPE_OBJECT,
"EphyAutocompletion",
&our_info, 0);
}
return ephy_autocompletion_type;
}
static void
ephy_autocompletion_class_init (EphyAutocompletionClass *klass)
{
GObjectClass *object_class = G_OBJECT_CLASS (klass);
g_object_class = g_type_class_peek_parent (klass);
object_class->finalize = ephy_autocompletion_finalize_impl;
EphyAutocompletionSignals[EPHY_AUTOCOMPLETION_SOURCES_CHANGED] = g_signal_new (
"sources-changed", G_OBJECT_CLASS_TYPE (klass),
G_SIGNAL_RUN_FIRST | G_SIGNAL_RUN_LAST | G_SIGNAL_RUN_CLEANUP,
G_STRUCT_OFFSET (EphyAutocompletionClass, sources_changed),
NULL, NULL,
ephy_marshal_VOID__VOID,
G_TYPE_NONE, 0);
g_type_class_add_private (object_class, sizeof (EphyAutocompletionPrivate));
}
static void
ephy_autocompletion_init (EphyAutocompletion *ac)
{
EphyAutocompletionPrivate *p = EPHY_AUTOCOMPLETION_GET_PRIVATE (ac);
ac->priv = p;
p->sources = NULL;
acma_init (&p->matches);
p->status = GAS_NEEDS_FULL_UPDATE;
p->nkeys = 1;
p->keys = g_new0 (gchar *, 2);
p->keys[0] = g_strdup ("");
p->key_lengths = g_new0 (guint, 2);
p->key_lengths[0] = 0;
p->prefixes = g_new0 (gchar *, 2);
p->prefixes[0] = g_strdup ("");
p->prefix_lengths = g_new0 (guint, 2);
p->prefix_lengths[0] = 0;
p->sort_alpha = TRUE;
}
static void
ephy_autocompletion_finalize_impl (GObject *o)
{
EphyAutocompletion *ac = EPHY_AUTOCOMPLETION (o);
EphyAutocompletionPrivate *p = ac->priv;
GSList *li;
ephy_autocompletion_reset (ac);
for (li = p->sources; li; li = li->next)
{
g_signal_handlers_disconnect_by_func (li->data,
ephy_autocompletion_data_changed_cb, ac);
g_object_unref (li->data);
}
g_slist_free (p->sources);
g_strfreev (p->keys);
g_free (p->key_lengths);
g_strfreev (p->prefixes);
g_free (p->prefix_lengths);
G_OBJECT_CLASS (g_object_class)->finalize (o);
}
static void
ephy_autocompletion_reset (EphyAutocompletion *ac)
{
EphyAutocompletionPrivate *p = ac->priv;
START_PROFILER ("Resetting autocompletion")
p->status = GAS_NEEDS_FULL_UPDATE;
STOP_PROFILER ("Resetting autocompletion")
}
EphyAutocompletion *
ephy_autocompletion_new (void)
{
EphyAutocompletion *ret = g_object_new (EPHY_TYPE_AUTOCOMPLETION, NULL);
return ret;
}
void
ephy_autocompletion_add_source (EphyAutocompletion *ac,
EphyAutocompletionSource *s)
{
EphyAutocompletionPrivate *p = ac->priv;
g_object_ref (G_OBJECT (s));
p->sources = g_slist_prepend (p->sources, s);
ephy_autocompletion_reset (ac);
g_signal_connect (s, "data-changed", G_CALLBACK (ephy_autocompletion_data_changed_cb), ac);
g_signal_emit (ac, EphyAutocompletionSignals[EPHY_AUTOCOMPLETION_SOURCES_CHANGED], 0);
}
void
ephy_autocompletion_set_key (EphyAutocompletion *ac,
const gchar *key)
{
EphyAutocompletionPrivate *p = ac->priv;
guint i;
guint keylen = strlen (key);
if (strcmp (key, p->keys[0]))
{
GSList *li;
for (li = p->sources; li; li = li->next)
{
ephy_autocompletion_source_set_basic_key
(EPHY_AUTOCOMPLETION_SOURCE (li->data), key);
}
}
LOG ("Set key %s, old key %s", key, p->keys[0])
if (keylen >= p->key_lengths[0]
&& !strncmp (p->keys[0], key, p->key_lengths[0]))
{
if (!strcmp (key, p->keys[0]))
{
return;
}
if (p->status != GAS_NEEDS_FULL_UPDATE)
{
p->status = GAS_NEEDS_REFINE;
}
}
else
{
p->status = GAS_NEEDS_FULL_UPDATE;
}
for (i = 0; p->prefixes[i]; ++i)
{
g_free (p->keys[i]);
p->keys[i] = g_strconcat (p->prefixes[i], key, NULL);
p->key_lengths[i] = keylen + p->prefix_lengths[i];
}
}
const EphyAutocompletionMatch *
ephy_autocompletion_get_matches (EphyAutocompletion *ac)
{
ephy_autocompletion_update_matches (ac);
return ac->priv->matches.array;
}
const EphyAutocompletionMatch *
ephy_autocompletion_get_matches_sorted_by_score (EphyAutocompletion *ac,
gboolean *changed)
{
*changed = ephy_autocompletion_sort_by_score (ac);
return ac->priv->matches.array;
}
guint
ephy_autocompletion_get_num_matches (EphyAutocompletion *ac)
{
ephy_autocompletion_update_matches (ac);
return ac->priv->matches.num_matches;
}
guint
ephy_autocompletion_get_num_action_matches (EphyAutocompletion *ac)
{
return ac->priv->matches.num_matches -
ac->priv->matches.num_action_matches;
}
static void
ephy_autocompletion_refine_matches (EphyAutocompletion *ac)
{
EphyAutocompletionPrivate *p = ac->priv;
ACMatchArray oldmatches = p->matches;
ACMatchArray newmatches;
guint i;
gchar *key0 = p->keys[0];
guint key0l = p->key_lengths[0];
START_PROFILER ("Refine matches")
acma_init (&newmatches);
p->changed = FALSE;
for (i = 0; i < oldmatches.num_matches; i++)
{
EphyAutocompletionMatch *mi = &oldmatches.array[i];
if (mi->is_action ||
(mi->match && mi->substring && g_strrstr (mi->match, p->keys[0])) ||
(mi->title && mi->substring && g_strrstr (mi->title, p->keys[0])) ||
!strncmp (key0, mi->title + mi->offset, key0l))
{
acma_append (&newmatches, mi, mi->is_action);
}
else
{
p->changed = TRUE;
}
}
acma_destroy (&oldmatches);
p->matches = newmatches;
STOP_PROFILER ("Refine matches")
}
static void
ephy_autocompletion_update_matches (EphyAutocompletion *ac)
{
EphyAutocompletionPrivate *p = ac->priv;
if (p->status == GAS_UPDATED)
{
return;
}
if (p->status == GAS_NEEDS_FULL_UPDATE)
{
ephy_autocompletion_update_matches_full (ac);
}
if (p->status == GAS_NEEDS_REFINE)
{
ephy_autocompletion_refine_matches (ac);
}
p->status = GAS_UPDATED;
}
static void
ephy_autocompletion_update_matches_full_item (EphyAutocompletionSource *source,
const char *item,
const char *title,
const char *target,
gboolean is_action,
gboolean substring,
guint32 score,
EphyAutocompletionPrivate *p)
{
if (substring)
{
if ((item && g_strrstr (item, p->keys[0])) ||
(title && g_strrstr (title, p->keys[0])))
{
EphyAutocompletionMatch m;
m.match = item;
m.title = title;
m.target = target;
m.is_action = is_action;
m.substring = substring;
m.offset = 0;
m.score = score;
acma_append (&p->matches, &m, is_action);
}
}
else if (is_action)
{
EphyAutocompletionMatch m;
m.match = item;
m.title = title;
m.target = target;
m.is_action = is_action;
m.substring = substring;
m.offset = 0;
m.score = score;
acma_append (&p->matches, &m, is_action);
}
else
{
guint i;
for (i = 0; p->keys[i]; ++i)
{
if (!strncmp (item, p->keys[i], p->key_lengths[i]))
{
EphyAutocompletionMatch m;
m.match = item;
m.title = title;
m.target = target;
m.is_action = is_action;
m.substring = substring;
m.offset = p->prefix_lengths[i];
m.score = score;
acma_append (&p->matches, &m, is_action);
}
}
}
}
static void
ephy_autocompletion_update_matches_full (EphyAutocompletion *ac)
{
EphyAutocompletionPrivate *p = ac->priv;
GSList *li;
START_PROFILER ("Update full")
acma_destroy (&p->matches);
for (li = p->sources; li; li = li->next)
{
EphyAutocompletionSource *s = EPHY_AUTOCOMPLETION_SOURCE (li->data);
g_assert (s);
ephy_autocompletion_source_foreach (s, p->keys[0],
(EphyAutocompletionSourceForeachFunc)
ephy_autocompletion_update_matches_full_item,
p);
}
STOP_PROFILER ("Update full")
p->sorted = FALSE;
p->changed = TRUE;
LOG ("AC: %d matches, fully updated", p->matches.num_matches);
}
static gint
ephy_autocompletion_compare_scores (EphyAutocompletionMatch *a, EphyAutocompletionMatch *b)
{
/* higher scores first */
return b->score - a->score;
}
static gint
ephy_autocompletion_compare_scores_and_alpha (EphyAutocompletionMatch *a, EphyAutocompletionMatch *b)
{
if (a->score == b->score)
{
return strcmp (a->title, b->title);
}
else
{
/* higher scores first */
return b->score - a->score;
}
}
static gboolean
ephy_autocompletion_sort_by_score (EphyAutocompletion *ac)
{
EphyAutocompletionPrivate *p = ac->priv;
gint (*comparer) (EphyAutocompletionMatch *m1, EphyAutocompletionMatch *m2);
if (p->sort_alpha)
{
comparer = ephy_autocompletion_compare_scores_and_alpha;
}
else
{
comparer = ephy_autocompletion_compare_scores;
}
ephy_autocompletion_update_matches (ac);
if (p->changed == FALSE) return FALSE;
START_PROFILER ("Sorting")
if (p->matches.num_matches > 0)
{
qsort (p->matches.array, p->matches.num_matches,
sizeof (EphyAutocompletionMatch),
(void *) comparer);
}
p->sorted = TRUE;
STOP_PROFILER ("Sorting")
return TRUE;
}
static void
ephy_autocompletion_data_changed_cb (EphyAutocompletionSource *s,
EphyAutocompletion *ac)
{
LOG ("Data changed, resetting");
ephy_autocompletion_reset (ac);
g_signal_emit (ac, EphyAutocompletionSignals[EPHY_AUTOCOMPLETION_SOURCES_CHANGED], 0);
}
void
ephy_autocompletion_set_prefixes (EphyAutocompletion *ac,
const gchar **prefixes)
{
EphyAutocompletionPrivate *p = ac->priv;
guint nprefixes = 0;
gchar *oldkey = g_strdup (p->keys[0]);
guint i;
/* count prefixes */
while (prefixes[nprefixes])
{
++nprefixes;
}
nprefixes--;
g_strfreev (p->keys);
g_free (p->key_lengths);
g_strfreev (p->prefixes);
g_free (p->prefix_lengths);
p->prefixes = g_new0 (gchar *, nprefixes + 2);
p->prefix_lengths = g_new0 (guint, nprefixes + 2);
p->keys = g_new0 (gchar *, nprefixes + 2);
p->key_lengths = g_new0 (guint, nprefixes + 2);
p->prefixes[0] = g_strdup ("");
p->prefix_lengths[0] = 0;
p->keys[0] = oldkey;
p->key_lengths[0] = strlen (p->keys[0]);
for (i = 0; i < nprefixes; ++i)
{
p->prefixes[i + 1] = g_strdup (prefixes[i]);
p->prefix_lengths[i + 1] = strlen (prefixes[i]);
p->keys[i + 1] = g_strconcat (p->prefixes[i + 1], p->keys[0], NULL);
p->key_lengths[i + 1] = p->prefix_lengths[i + 1] + p->key_lengths[0];
}
p->nkeys = nprefixes;
}
/* ACMatchArray */
static void
acma_init (ACMatchArray *a)
{
a->array = NULL;
a->array_size = 0;
a->num_matches = 0;
}
/**
* Does not free the struct itself, only its contents
*/
static void
acma_destroy (ACMatchArray *a)
{
g_free (a->array);
a->array = NULL;
a->array_size = 0;
a->num_matches = 0;
a->num_action_matches = 0;
}
static inline void
acma_append (ACMatchArray *a,
EphyAutocompletionMatch *m,
gboolean action)
{
if (a->array_size == a->num_matches)
{
acma_grow (a);
}
a->array[a->num_matches] = *m;
a->num_matches++;
if (action) a->num_action_matches++;
}
static void
acma_grow (ACMatchArray *a)
{
gint new_size;
EphyAutocompletionMatch *new_array;
new_size = a->array_size + ACMA_BASE_SIZE;
new_array = g_renew (EphyAutocompletionMatch, a->array, new_size);
a->array_size = new_size;
a->array = new_array;
}