netsurf/amiga/search.c
Chris Young f543cbbf4c First attempt at Amiga text search function based on RISC OS code.
Needs some improvements:
- add case sensitive, show all options
- add search history
- use AmigaOS pattern matching

svn path=/trunk/netsurf/; revision=5902
2008-12-13 23:16:50 +00:00

796 lines
19 KiB
C
Executable File
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/*
* Copyright 2004 John M Bell <jmb202@ecs.soton.ac.uk>
* Copyright 2005 Adrian Lees <adrianl@users.sourceforge.net>
* Copyright 2008 Chris Young <chris@unsatisfactorysoftware.co.uk>
*
* This file is part of NetSurf, http://www.netsurf-browser.org/
*
* NetSurf 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; version 2 of the License.
*
* NetSurf 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/>.
*/
/** \file
* Free text search (implementation)
*/
#include "utils/config.h"
#include <ctype.h>
#include <string.h>
#include "content/content.h"
#include "desktop/browser.h"
#include "desktop/gui.h"
#include "desktop/selection.h"
#include "render/box.h"
#include "render/html.h"
#include "utils/log.h"
#include "utils/messages.h"
#include "utils/utils.h"
#include "amiga/search.h"
#include "amiga/object.h"
#include <proto/intuition.h>
#include <proto/exec.h>
#include <proto/window.h>
#include <proto/layout.h>
#include <proto/string.h>
#include <proto/button.h>
#include <proto/label.h>
#include <classes/window.h>
#include <gadgets/layout.h>
#include <gadgets/string.h>
#include <gadgets/button.h>
#include <images/label.h>
#include <reaction/reaction_macros.h>
#ifndef NOF_ELEMENTS
#define NOF_ELEMENTS(array) (sizeof(array)/sizeof(*(array)))
#endif
struct list_entry {
unsigned start_idx; /* start position of match */
unsigned end_idx; /* end of match */
struct box *start_box; /* used only for html contents */
struct box *end_box;
struct selection *sel;
struct list_entry *prev;
struct list_entry *next;
};
struct gui_window *search_current_window = NULL;
static char *search_string = NULL;
static struct list_entry search_head = { 0, 0, NULL, NULL, NULL, NULL, NULL };
static struct list_entry *search_found = &search_head;
static struct list_entry *search_current = NULL;
static struct content *search_content = NULL;
static bool search_prev_case_sens = false;
static struct find_window *fwin = NULL;
#define RECENT_SEARCHES 8
bool search_insert;
static char *recent_search[RECENT_SEARCHES];
static void start_search(bool forwards,char *search_string);
static void do_search(char *string, int string_len, bool case_sens,
bool forwards);
static const char *find_pattern(const char *string, int s_len,
const char *pattern, int p_len, bool case_sens, int *m_len);
static bool find_occurrences_html(const char *pattern, int p_len,
struct box *cur, bool case_sens);
static bool find_occurrences_text(const char *pattern, int p_len,
struct content *c, bool case_sens);
static struct list_entry *add_entry(unsigned start_idx, unsigned end_idx);
static void free_matches(void);
static void show_all(bool all);
static void show_status(bool found);
/**
* Begins/continues the search process
* Note that this may be called many times for a single search.
*
* \param forwards search forwards from start/current position
*/
void start_search(bool forwards,char *string)
{
int string_len;
int i = 0;
string_len = strlen(string);
for(i = 0; i < string_len; i++)
if (string[i] != '#' && string[i] != '*') break;
if (i >= string_len) {
free_matches();
show_status(true);
RefreshSetGadgetAttrs(fwin->gadgets[GID_PREV],fwin->win,NULL,
GA_Disabled,TRUE,
TAG_DONE);
RefreshSetGadgetAttrs(fwin->gadgets[GID_NEXT],fwin->win,NULL,
GA_Disabled,TRUE,
TAG_DONE);
gui_window_set_scroll(search_current_window, 0, 0);
return;
}
do_search(string, string_len,
false, // case sensitivity
forwards);
}
/**
* Ends the search process, invalidating all global state and
* freeing the list of found boxes
*
* \param w the search window handle (not used)
*/
void ami_gui_search_end(void)
{
search_current_window = 0;
if (search_string) {
//ro_gui_search_add_recent(search_string);
free(search_string);
}
search_string = 0;
free_matches();
search_current = 0;
search_content = 0;
search_prev_case_sens = false;
}
/**
* Release the memory used by the list of matches,
* deleting selection objects too
*/
void free_matches(void)
{
struct list_entry *a = search_found->next;
struct list_entry *b;
/* empty the list before clearing and deleting the
selections because the the clearing updates the
screen immediately, causing nested accesses to the list */
search_found->prev = 0;
search_found->next = 0;
for (; a; a = b) {
b = a->next;
if (a->sel) {
selection_clear(a->sel, true);
selection_destroy(a->sel);
}
free(a);
}
}
/**
* Search for a string in the box tree
*
* \param string the string to search for
* \param string_len length of search string
* \param case_sens whether to perform a case sensitive search
* \param forwards direction to search in
*/
void do_search(char *string, int string_len, bool case_sens, bool forwards)
{
struct rect bounds;
struct content *c;
struct box *box;
bool new = false;
if (!search_current_window)
return;
c = search_current_window->shared->bw->current_content;
/* only handle html contents */
if ((!c) || (c->type != CONTENT_HTML &&
c->type != CONTENT_TEXTPLAIN))
return;
box = c->data.html.layout;
if (!box)
return;
// LOG(("do_search '%s' - '%s' (%p, %p) %p (%d, %d) %d",
// search_string, string, search_content, c, search_found->next,
// search_prev_case_sens, case_sens, forwards));
/* check if we need to start a new search or continue an old one */
if (!search_string || c != search_content || !search_found->next ||
search_prev_case_sens != case_sens ||
(case_sens && strcmp(string, search_string) != 0) ||
(!case_sens && strcasecmp(string, search_string) != 0)) {
bool res;
if (search_string)
free(search_string);
search_current = 0;
free_matches();
search_string = malloc(string_len + 1);
if (search_string) {
memcpy(search_string, string, string_len);
search_string[string_len] = '\0';
}
// xhourglass_on();
if (c->type == CONTENT_HTML)
res = find_occurrences_html(string, string_len,
box, case_sens);
else {
assert(c->type == CONTENT_TEXTPLAIN);
res = find_occurrences_text(string, string_len,
c, case_sens);
}
if (!res) {
free_matches();
//xhourglass_off();
return;
}
//xhourglass_off();
new = true;
search_content = c;
search_prev_case_sens = case_sens;
}
// LOG(("%d %p %p (%p, %p)", new, search_found->next, search_current, search_current->prev, search_current->next));
if (new) {
/* new search, beginning at the top of the page */
search_current = search_found->next;
}
else if (search_current) {
/* continued search in the direction specified */
if (forwards) {
if (search_current->next)
search_current = search_current->next;
}
else {
if (search_current->prev)
search_current = search_current->prev;
}
}
show_status(search_current != NULL);
show_all(false);
RefreshSetGadgetAttrs(fwin->gadgets[GID_PREV],fwin->win,NULL,
GA_Disabled,(!search_current || !search_current->prev),
TAG_DONE);
RefreshSetGadgetAttrs(fwin->gadgets[GID_NEXT],fwin->win,NULL,
GA_Disabled,(!search_current || !search_current->next),
TAG_DONE);
if (!search_current)
return;
switch (c->type) {
case CONTENT_HTML:
/* get box position and jump to it */
box_coords(search_current->start_box,
&bounds.x0, &bounds.y0);
/* \todo: move x0 in by correct idx */
box_coords(search_current->end_box,
&bounds.x1, &bounds.y1);
/* \todo: move x1 in by correct idx */
bounds.x1 += search_current->end_box->width;
bounds.y1 += search_current->end_box->height;
break;
default:
assert(c->type == CONTENT_TEXTPLAIN);
textplain_coords_from_range(c,
search_current->start_idx,
search_current->end_idx, &bounds);
break;
}
gui_window_scroll_visible(search_current_window,
bounds.x0, bounds.y0, bounds.x1, bounds.y1);
}
/**
* Find the first occurrence of 'match' in 'string' and return its index
*
* /param string the string to be searched (unterminated)
* /param s_len length of the string to be searched
* /param pattern the pattern for which we are searching (unterminated)
* /param p_len length of pattern
* /param case_sens true iff case sensitive match required
* /param m_len accepts length of match in bytes
* /return pointer to first match, NULL if none
*/
const char *find_pattern(const char *string, int s_len, const char *pattern,
int p_len, bool case_sens, int *m_len)
{
struct { const char *ss, *s, *p; bool first; } context[16];
const char *ep = pattern + p_len;
const char *es = string + s_len;
const char *p = pattern - 1; /* a virtual '*' before the pattern */
const char *ss = string;
const char *s = string;
bool first = true;
int top = 0;
while (p < ep) {
bool matches;
if (p < pattern || *p == '*') {
char ch;
/* skip any further asterisks; one is the same as many */
do p++; while (p < ep && *p == '*');
/* if we're at the end of the pattern, yes, it matches */
if (p >= ep) break;
/* anything matches a # so continue matching from
here, and stack a context that will try to match
the wildcard against the next character */
ch = *p;
if (ch != '#') {
/* scan forwards until we find a match for this char */
if (!case_sens) ch = toupper(ch);
while (s < es) {
if (case_sens) {
if (*s == ch) break;
} else if (toupper(*s) == ch)
break;
s++;
}
}
if (s < es) {
/* remember where we are in case the match fails;
we can then resume */
if (top < (int)NOF_ELEMENTS(context)) {
context[top].ss = ss;
context[top].s = s + 1;
context[top].p = p - 1; /* ptr to last asterisk */
context[top].first = first;
top++;
}
if (first) {
ss = s; /* remember first non-'*' char */
first = false;
}
matches = true;
}
else
matches = false;
}
else if (s < es) {
char ch = *p;
if (ch == '#')
matches = true;
else {
if (case_sens)
matches = (*s == ch);
else
matches = (toupper(*s) == toupper(ch));
}
if (matches && first) {
ss = s; /* remember first non-'*' char */
first = false;
}
}
else
matches = false;
if (matches) {
p++; s++;
}
else {
/* doesn't match, resume with stacked context if we have one */
if (--top < 0) return NULL; /* no match, give up */
ss = context[top].ss;
s = context[top].s;
p = context[top].p;
first = context[top].first;
}
}
/* end of pattern reached */
*m_len = max(s - ss, 1);
return ss;
}
/**
* Finds all occurrences of a given string in the html box tree
*
* \param pattern the string pattern to search for
* \param p_len pattern length
* \param cur pointer to the current box
* \param case_sens whether to perform a case sensitive search
* \return true on success, false on memory allocation failure
*/
bool find_occurrences_html(const char *pattern, int p_len, struct box *cur,
bool case_sens)
{
struct box *a;
/* ignore this box, if there's no visible text */
if (!cur->object && cur->text) {
const char *text = cur->text;
unsigned length = cur->length;
while (length > 0) {
struct list_entry *entry;
unsigned match_length;
unsigned match_offset;
const char *new_text;
const char *pos = find_pattern(text, length,
pattern, p_len, case_sens,
&match_length);
if (!pos) break;
/* found string in box => add to list */
match_offset = pos - cur->text;
entry = add_entry(cur->byte_offset + match_offset,
cur->byte_offset +
match_offset +
match_length);
if (!entry)
return false;
entry->start_box = cur;
entry->end_box = cur;
new_text = pos + match_length;
length -= (new_text - text);
text = new_text;
}
}
/* and recurse */
for (a = cur->children; a; a = a->next) {
if (!find_occurrences_html(pattern, p_len, a, case_sens))
return false;
}
return true;
}
/**
* Finds all occurrences of a given string in a textplain content
*
* \param pattern the string pattern to search for
* \param p_len pattern length
* \param c the content to be searched
* \param case_sens wheteher to perform a case sensitive search
* \return true on success, false on memory allocation failure
*/
bool find_occurrences_text(const char *pattern, int p_len,
struct content *c, bool case_sens)
{
int nlines = textplain_line_count(c);
int line;
for(line = 0; line < nlines; line++) {
size_t offset, length;
const char *text = textplain_get_line(c, line,
&offset, &length);
if (text) {
while (length > 0) {
struct list_entry *entry;
unsigned match_length;
size_t start_idx;
const char *new_text;
const char *pos = find_pattern(text, length,
pattern, p_len, case_sens,
&match_length);
if (!pos) break;
/* found string in line => add to list */
start_idx = offset + (pos - text);
entry = add_entry(start_idx, start_idx +
match_length);
if (!entry)
return false;
new_text = pos + match_length;
offset += (new_text - text);
length -= (new_text - text);
text = new_text;
}
}
}
return true;
}
/**
* Add a new entry to the list of matches
*
* \param start_idx offset of match start within textual representation
* \param end_idx offset of match end
* \return pointer to added entry, NULL iff failed
*/
struct list_entry *add_entry(unsigned start_idx, unsigned end_idx)
{
struct list_entry *entry;
/* found string in box => add to list */
entry = calloc(1, sizeof(*entry));
if (!entry) {
warn_user("NoMemory", 0);
return NULL;
}
entry->start_idx = start_idx;
entry->end_idx = end_idx;
entry->sel = NULL;
entry->next = 0;
entry->prev = search_found->prev;
if (!search_found->prev)
search_found->next = entry;
else
search_found->prev->next = entry;
search_found->prev = entry;
return entry;
}
/**
* Determines whether any portion of the given text box should be
* selected because it matches the current search string.
*
* \param g gui window
<EFBFBD>* \param start_offset byte offset within text of string to be checked
* \param end_offset byte offset within text
* \param start_idx byte offset within string of highlight start
* \param end_idx byte offset of highlight end
* \return true iff part of the box should be highlighted
*/
bool gui_search_term_highlighted(struct gui_window *g,
unsigned start_offset, unsigned end_offset,
unsigned *start_idx, unsigned *end_idx)
{
if (g == search_current_window) {
struct list_entry *a;
for(a = search_found->next; a; a = a->next)
if (a->sel && selection_defined(a->sel) &&
selection_highlighted(a->sel,
start_offset, end_offset,
start_idx, end_idx))
return true;
}
return false;
}
/**
* Specifies whether all matches or just the current match should
* be highlighted in the search text.
*/
void show_all(bool all)
{
struct list_entry *a;
for (a = search_found->next; a; a = a->next) {
bool add = true;
if (!all && a != search_current) {
add = false;
if (a->sel) {
selection_clear(a->sel, true);
selection_destroy(a->sel);
a->sel = NULL;
}
}
if (add && !a->sel) {
a->sel = selection_create(search_current_window->shared->bw);
if (a->sel) {
struct content *c = search_current_window->shared->bw->current_content;
switch (c->type) {
case CONTENT_HTML:
selection_init(a->sel,
c->data.html.layout);
break;
default:
assert(c->type ==
CONTENT_TEXTPLAIN);
selection_init(a->sel, NULL);
break;
}
selection_set_start(a->sel, a->start_idx);
selection_set_end(a->sel, a->end_idx);
}
}
}
}
/**
* Change the displayed search status.
*
* \param found search pattern matched in text
*/
void show_status(bool found)
{
/*
ro_gui_set_icon_string(dialog_search, ICON_SEARCH_STATUS,
found ? "" : messages_get("NotFound"), true);
*/
}
void ami_search_open(struct gui_window *gwin)
{
struct content *c = gwin->shared->bw->current_content;
/* only handle html/textplain contents */
if ((!c) || (c->type != CONTENT_HTML &&
c->type != CONTENT_TEXTPLAIN))
return;
search_current_window = gwin;
search_insert = true;
if(fwin)
{
ami_gui_search_end();
fwin->gwin->shared->searchwin = NULL;
fwin->gwin = gwin;
gwin->shared->searchwin = fwin;
WindowToFront(fwin->win);
ActivateWindow(fwin->win);
return;
}
fwin = AllocVec(sizeof(struct find_window),MEMF_PRIVATE | MEMF_CLEAR);
fwin->objects[OID_MAIN] = WindowObject,
WA_ScreenTitle,nsscreentitle,
WA_Title,messages_get("FindTextNS"),
WA_Activate, TRUE,
WA_DepthGadget, TRUE,
WA_DragBar, TRUE,
WA_CloseGadget, TRUE,
WA_SizeGadget, TRUE,
WA_CustomScreen,scrn,
WINDOW_SharedPort,sport,
WINDOW_UserData,fwin,
WINDOW_IconifyGadget, FALSE,
WINDOW_LockHeight,TRUE,
WINDOW_Position, WPOS_CENTERSCREEN,
WINDOW_ParentGroup, fwin->gadgets[GID_MAIN] = VGroupObject,
LAYOUT_AddChild, fwin->gadgets[GID_SEARCHSTRING] = StringObject,
GA_ID,GID_SEARCHSTRING,
GA_TabCycle,TRUE,
GA_RelVerify,TRUE,
StringEnd,
/*
CHILD_Label, LabelObject,
LABEL_Text,messages_get("searchstring"),
LabelEnd,
*/
CHILD_WeightedHeight,0,
LAYOUT_AddChild, HGroupObject,
LAYOUT_AddChild, fwin->gadgets[GID_PREV] = ButtonObject,
GA_ID,GID_PREV,
GA_RelVerify,TRUE,
GA_Text,messages_get("Prev"),
GA_TabCycle,TRUE,
GA_Disabled,TRUE,
ButtonEnd,
CHILD_WeightedHeight,0,
LAYOUT_AddChild, fwin->gadgets[GID_NEXT] = ButtonObject,
GA_ID,GID_NEXT,
GA_RelVerify,TRUE,
GA_Text,messages_get("Next"),
GA_TabCycle,TRUE,
GA_Disabled,TRUE,
ButtonEnd,
LayoutEnd,
CHILD_WeightedHeight,0,
EndGroup,
EndWindow;
fwin->win = (struct Window *)RA_OpenWindow(fwin->objects[OID_MAIN]);
fwin->gwin = gwin;
fwin->node = AddObject(window_list,AMINS_FINDWINDOW);
fwin->node->objstruct = fwin;
gwin->shared->searchwin = fwin;
}
void ami_search_close(void)
{
ami_gui_search_end();
fwin->gwin->shared->searchwin = NULL;
DisposeObject(fwin->objects[OID_MAIN]);
DelObject(fwin->node);
fwin=NULL;
}
BOOL ami_search_event(void)
{
/* return TRUE if window destroyed */
ULONG class,result,relevent = 0;
ULONG column;
uint16 code;
char *text;
while((result = RA_HandleInput(fwin->objects[OID_MAIN],&code)) != WMHI_LASTMSG)
{
switch(result & WMHI_CLASSMASK) // class
{
case WMHI_GADGETUP:
switch(result & WMHI_GADGETMASK)
{
case GID_NEXT:
search_insert = true;
GetAttr(STRINGA_TextVal,fwin->gadgets[GID_SEARCHSTRING],(ULONG *)&text);
start_search(true,text);
break;
case GID_PREV:
search_insert = true;
GetAttr(STRINGA_TextVal,fwin->gadgets[GID_SEARCHSTRING],(ULONG *)&text);
start_search(false,text);
break;
case GID_SEARCHSTRING:
RefreshSetGadgetAttrs(fwin->gadgets[GID_PREV],fwin->win,NULL,
GA_Disabled,FALSE,
TAG_DONE);
RefreshSetGadgetAttrs(fwin->gadgets[GID_NEXT],fwin->win,NULL,
GA_Disabled,FALSE,
TAG_DONE);
break;
}
break;
case WMHI_CLOSEWINDOW:
ami_search_close();
return TRUE;
break;
}
}
return FALSE;
}