gecko-dev/lib/layout/laymap.c

1011 строки
18 KiB
C
Исходник Обычный вид История

1998-03-28 05:44:41 +03:00
/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "NPL"); you may not use this file except in
* compliance with the NPL. You may obtain a copy of the NPL at
* http://www.mozilla.org/NPL/
*
* Software distributed under the NPL is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
* for the specific language governing rights and limitations under the
* NPL.
*
* The Initial Developer of this code under the NPL is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All Rights
* Reserved.
*/
#include "xp.h"
#include "pa_parse.h"
#include "layout.h"
#include "laylayer.h"
extern Bool lo_is_location_in_poly(int32 x, int32 y,
int32 *coords, int32 coord_cnt);
/* #ifndef NO_TAB_NAVIGATION */
extern Bool lo_find_location_in_poly(int32 *xx, int32 *yy,
int32 *coords, int32 coord_cnt);
/* NO_TAB_NAVIGATION */
/*
* This function parses a list of numbers (coordinates).
* The numbers can have any integer value, and it is a comma separated list.
* (optionally, whitespace can replace commas as separators in the list)
*/
int32 *
lo_parse_coord_list(char *str, int32 *value_cnt, Bool must_be_odd)
{
char *tptr;
char *n_str;
int32 i, cnt, acnt;
int32 *value_list;
/*
* Nothing in an empty list
*/
*value_cnt = 0;
if ((str == NULL)||(*str == '\0'))
{
return((int32 *)NULL);
}
/*
* Skip beginning whitespace, all whitespace is empty list.
*/
n_str = str;
while (XP_IS_SPACE(*n_str))
{
n_str++;
}
if (*n_str == '\0')
{
return((int32 *)NULL);
}
/*
* Make a pass where any two numbers separated by just whitespace
* are given a comma separator. Count entries while passing.
*/
cnt = 0;
while (*n_str != '\0')
{
Bool has_comma;
/*
* Skip to a separator
*/
tptr = n_str;
while ((!XP_IS_SPACE(*tptr))&&(*tptr != ',')&&(*tptr != '\0'))
{
tptr++;
}
n_str = tptr;
/*
* If no more entries, break out here
*/
if (*n_str == '\0')
{
break;
}
/*
* Skip to the end of the separator, noting if we have a
* comma.
*/
has_comma = FALSE;
while ((XP_IS_SPACE(*tptr))||(*tptr == ','))
{
if (*tptr == ',')
{
if (has_comma == FALSE)
{
has_comma = TRUE;
}
else
{
break;
}
}
tptr++;
}
/*
* If this was trailing whitespace we skipped, we are done.
*/
if ((*tptr == '\0')&&(has_comma == FALSE))
{
break;
}
/*
* Else if the separator is all whitespace, and this is not the
* end of the string, add a comma to the separator.
*/
else if (has_comma == FALSE)
{
*n_str = ',';
}
/*
* count the entry skipped.
*/
cnt++;
n_str = tptr;
}
/*
* count the last entry in the list.
*/
cnt++;
/*
* For polygons, we need a fake empty coord at the
* end of the list of x,y pairs.
*/
if ((must_be_odd != FALSE)&&((cnt & 0x01) == 0))
{
acnt = cnt + 1;
}
else
{
acnt = cnt;
}
*value_cnt = acnt;
/*
* Allocate space for the coordinate array.
*/
value_list = (int32 *)XP_ALLOC(acnt * sizeof(int32));
if (value_list == NULL)
{
return((int32 *)NULL);
}
/*
* Second pass to copy integer values into list.
*/
tptr = str;
for (i=0; i<cnt; i++)
{
char *ptr;
ptr = strchr(tptr, ',');
if (ptr != NULL)
{
*ptr = '\0';
}
/*
* Strip whitespace in front of number because I don't
* trust atoi to do it on all platforms.
*/
while (XP_IS_SPACE(*tptr))
{
tptr++;
}
if (*tptr == '\0')
{
value_list[i] = 0;
}
else
{
value_list[i] = (int32)XP_ATOI(tptr);
}
if (ptr != NULL)
{
*ptr = ',';
tptr = (char *)(ptr + 1);
}
}
return(value_list);
}
/*
* The beginning of a usemap MAP record.
* Allocate the structure and initialize it. It will be filled
* by later AREA tags.
*/
void
lo_BeginMap(MWContext *context, lo_DocState *state, PA_Tag *tag)
{
PA_Block buff;
char *str;
lo_MapRec *map;
map = XP_NEW(lo_MapRec);
if (map == NULL)
{
state->top_state->out_of_memory = TRUE;
return;
}
map->name = NULL;
map->areas = NULL;
map->areas_last = NULL;
map->next = NULL;
buff = lo_FetchParamValue(context, tag, PARAM_NAME);
if (buff != NULL)
{
char *name;
PA_LOCK(str, char *, buff);
if (str != NULL)
{
int32 len;
len = lo_StripTextWhitespace(str, XP_STRLEN(str));
}
name = (char *)XP_ALLOC(XP_STRLEN(str) + 1);
if (name == NULL)
{
map->name = NULL;
}
else
{
XP_STRCPY(name, str);
map->name = name;
}
PA_UNLOCK(buff);
PA_FREE(buff);
}
else
{
map->name = NULL;
}
if (map->name == NULL)
{
XP_DELETE(map);
return;
}
state->top_state->current_map = map;
}
/*
* Look through the list of finished maps to find one with
* a matching name. If found, remove it.
*/
static lo_MapRec *
lo_remove_named_map(MWContext *context, lo_DocState *state, char *map_name)
{
lo_MapRec *prev_map;
lo_MapRec *map_list;
if (map_name == NULL)
{
return(NULL);
}
prev_map = NULL;
map_list = state->top_state->map_list;
while (map_list != NULL)
{
/*
* Found a map with a matching name, return it.
*/
if (XP_STRCMP(map_name, map_list->name) == 0)
{
break;
}
prev_map = map_list;
map_list = map_list->next;
}
/*
* No map by that name found.
*/
if (map_list == NULL)
{
return(NULL);
}
/*
* If no prev_map, our match is the head of the map_list.
*/
if (prev_map == NULL)
{
state->top_state->map_list = map_list->next;
}
else
{
prev_map->next = map_list->next;
}
map_list->next = NULL;
return(map_list);
}
/*
* This map is done, add it to the map list.
*/
void
lo_EndMap(MWContext *context, lo_DocState *state, lo_MapRec *map)
{
lo_MapRec *old_map;
if (map == NULL)
{
return;
}
old_map = lo_remove_named_map(context, state, map->name);
if (old_map != NULL)
{
(void)lo_FreeMap(old_map);
}
map->next = state->top_state->map_list;
state->top_state->map_list = map;
}
lo_MapRec *
lo_FreeMap(lo_MapRec *map)
{
lo_MapRec *next;
if (map->areas != NULL)
{
lo_MapAreaRec *tmp_area;
lo_MapAreaRec *areas;
areas = map->areas;
while (areas != NULL)
{
tmp_area = areas;
areas = areas->next;
if (tmp_area->alt != NULL)
{
PA_FREE(tmp_area->alt);
}
if (tmp_area->coords != NULL)
{
XP_FREE(tmp_area->coords);
}
XP_DELETE(tmp_area);
}
}
if (map->name != NULL)
{
XP_FREE(map->name);
}
next = map->next;
XP_DELETE(map);
return next;
}
/*
* This is an AREA tag. Create the structure, fill it in based on the
* attributes passed, and add it to the map record for the current
* MAP tag.
*/
void
lo_BeginMapArea(MWContext *context, lo_DocState *state, PA_Tag *tag)
{
PA_Block buff;
char *str;
lo_MapRec *map;
lo_MapAreaRec *area;
lo_DocLists *doc_lists;
doc_lists = lo_GetCurrentDocLists(state);
/*
* Get the current map, if there is none, error out.
*/
map = state->top_state->current_map;
if (map == NULL)
{
return;
}
area = XP_NEW(lo_MapAreaRec);
if (area == NULL)
{
state->top_state->out_of_memory = TRUE;
return;
}
area->type = AREA_SHAPE_RECT;
area->coords = NULL;
area->coord_cnt = 0;
area->anchor = NULL;
area->alt = NULL;
area->alt_len = 0;
area->next = NULL;
buff = lo_FetchParamValue(context, tag, PARAM_SHAPE);
if (buff != NULL)
{
PA_LOCK(str, char *, buff);
if (pa_TagEqual(S_AREA_SHAPE_RECT, str))
{
area->type = AREA_SHAPE_RECT;
}
else if (pa_TagEqual(S_AREA_SHAPE_CIRCLE, str))
{
area->type = AREA_SHAPE_CIRCLE;
}
else if (pa_TagEqual(S_AREA_SHAPE_POLY, str))
{
area->type = AREA_SHAPE_POLY;
}
else if (pa_TagEqual(S_AREA_SHAPE_POLYGON, str))
{
area->type = AREA_SHAPE_POLY;
}
else if (pa_TagEqual(S_AREA_SHAPE_DEFAULT, str))
{
area->type = AREA_SHAPE_DEFAULT;
}
else
{
area->type = AREA_SHAPE_UNKNOWN;
}
PA_UNLOCK(buff);
PA_FREE(buff);
}
/*
* Get the alt parameter, and store the resulting
* text, and its length.
*/
buff = lo_FetchParamValue(context, tag, PARAM_ALT);
if (buff != NULL)
{
PA_LOCK(str, char *, buff);
area->alt_len = XP_STRLEN(str);
area->alt_len = (int16)lo_StripTextNewlines(str,
(int32)area->alt_len);
PA_UNLOCK(buff);
}
area->alt = buff;
/*
* Parse the comma separated coordinate list into an
* array of integers.
*/
buff = lo_FetchParamValue(context, tag, PARAM_COORDS);
if (buff != NULL)
{
int32 cnt;
Bool must_be_odd;
must_be_odd = FALSE;
if (area->type == AREA_SHAPE_POLY)
{
must_be_odd = TRUE;
}
PA_LOCK(str, char *, buff);
area->coords = lo_parse_coord_list(str, &cnt, must_be_odd);
if (area->coords != NULL)
{
area->coord_cnt = cnt;
}
PA_UNLOCK(buff);
PA_FREE(buff);
}
/*
* Get the HREF, and if one exists, get the TARGET to go along
* with it.
*/
buff = lo_FetchParamValue(context, tag, PARAM_HREF);
if (buff != NULL)
{
char *target;
PA_Block targ_buff;
PA_Block href_buff;
LO_AnchorData *anchor;
anchor = NULL;
PA_LOCK(str, char *, buff);
if (str != NULL)
{
int32 len;
len = lo_StripTextWhitespace(str, XP_STRLEN(str));
}
str = NET_MakeAbsoluteURL(state->top_state->base_url, str);
if (str == NULL)
{
href_buff = NULL;
}
else
{
href_buff = PA_ALLOC(XP_STRLEN(str) + 1);
if (href_buff != NULL)
{
char *full_url;
PA_LOCK(full_url, char *, href_buff);
XP_STRCPY(full_url, str);
PA_UNLOCK(href_buff);
}
else
{
state->top_state->out_of_memory = TRUE;
}
XP_FREE(str);
}
PA_UNLOCK(buff);
PA_FREE(buff);
if (href_buff != NULL)
{
targ_buff = lo_FetchParamValue(context, tag, PARAM_TARGET);
if (targ_buff != NULL)
{
int32 len;
PA_LOCK(target, char *, targ_buff);
len = lo_StripTextWhitespace(target,
XP_STRLEN(target));
if ((*target == '\0')||
(lo_IsValidTarget(target) == FALSE))
{
PA_UNLOCK(targ_buff);
PA_FREE(targ_buff);
targ_buff = NULL;
}
else
{
PA_UNLOCK(targ_buff);
}
}
/*
* If there was no target use the default one.
* (default provided by BASE tag)
*/
if ((targ_buff == NULL)&&
(state->top_state->base_target != NULL))
{
targ_buff = PA_ALLOC(XP_STRLEN(
state->top_state->base_target) + 1);
if (targ_buff != NULL)
{
char *targ;
PA_LOCK(targ, char *, targ_buff);
XP_STRCPY(targ,
state->top_state->base_target);
PA_UNLOCK(targ_buff);
}
else
{
state->top_state->out_of_memory = TRUE;
}
}
anchor = lo_NewAnchor(state, href_buff, targ_buff);
if (anchor == NULL)
{
PA_FREE(href_buff);
if (targ_buff != NULL)
{
PA_FREE(targ_buff);
}
}
/*
* If the AREA tag has an ALT attribute,
* stick that text into the anchor data.
*/
else if (area->alt != NULL)
{
PA_Block alt_buff;
char *alt_text;
PA_LOCK(alt_text, char *, area->alt);
alt_buff = PA_ALLOC(area->alt_len + 1);
if (alt_buff != NULL)
{
char *new_alt;
PA_LOCK(new_alt, char *, alt_buff);
XP_STRCPY(new_alt, alt_text);
PA_UNLOCK(alt_buff);
}
PA_UNLOCK(area->alt);
anchor->alt = alt_buff;
}
}
/* If SUPPRESS attribute is present, suppress visual feedback (dashed rectangle)
when link is selected */
buff = lo_FetchParamValue(context, tag, PARAM_SUPPRESS);
if (buff && !XP_STRCASECMP((char*)buff, "true"))
{
anchor->flags |= ANCHOR_SUPPRESS_FEEDBACK;
}
/*
* Add this url's block to the list
* of all allocated urls so we can free
* it later.
*/
lo_AddToUrlList(context, state, anchor);
if (state->top_state->out_of_memory != FALSE)
{
return;
}
area->anchor = anchor;
/*
* If there are event handlers, reflect this
* tag into Mocha as a link.
*/
lo_ReflectLink(context, state, tag, anchor,
lo_CurrentLayerId(state),
doc_lists->url_list_len - 1);
}
/*
* Add this are to the end of the area list in this
* map record.
*/
if (map->areas_last == NULL)
{
map->areas = area;
map->areas_last = area;
}
else
{
map->areas_last->next = area;
map->areas_last = area;
}
}
/*
* Look through the list of finished maps to find one with
* a matching name.
*/
lo_MapRec *
lo_FindNamedMap(MWContext *context, lo_DocState *state, char *map_name)
{
lo_MapRec *map_list;
if (map_name == NULL)
{
return(NULL);
}
map_list = state->top_state->map_list;
while (map_list != NULL)
{
/*
* Found a map with a matching name, return it.
*/
if (XP_STRCMP(map_name, map_list->name) == 0)
{
break;
}
map_list = map_list->next;
}
return(map_list);
}
/*
* Check if a point is in a rectable specified by upper-left and
* lower-right corners.
*/
static Bool
lo_is_location_in_rect(int32 x, int32 y, int32 *coords)
{
int32 x1, y1, x2, y2;
x1 = coords[0];
y1 = coords[1];
x2 = coords[2];
y2 = coords[3];
if ((x1 > x2)||(y1 > y2))
{
return(FALSE);
}
if ((x >= x1)&&(x <= x2)&&(y >= y1)&&(y <= y2))
{
return(TRUE);
}
else
{
return(FALSE);
}
}
/*
* Check if a point is within the radius of a circle specified
* by center and radius.
*/
static Bool
lo_is_location_in_circle(int32 x, int32 y, int32 *coords)
{
int32 x1, y1, radius;
int32 dx, dy, dist;
x1 = coords[0];
y1 = coords[1];
radius = coords[2];
if (radius < 0)
{
return(FALSE);
}
dx = x1 - x;
dy = y1 - y;
dist = (dx * dx) + (dy * dy);
if (dist <= (radius * radius))
{
return(TRUE);
}
else
{
return(FALSE);
}
}
/*
* Check if the passed point is withing the area described in
* the area structure.
*/
static Bool
lo_is_location_in_area(lo_MapAreaRec *area, int32 x, int32 y)
{
Bool ret_val;
if (area == NULL)
{
return(FALSE);
}
ret_val = FALSE;
switch(area->type)
{
case AREA_SHAPE_RECT:
if (area->coord_cnt < 4)
{
ret_val = FALSE;
}
else
{
ret_val = lo_is_location_in_rect(x, y,
area->coords);
}
break;
case AREA_SHAPE_CIRCLE:
if (area->coord_cnt < 3)
{
ret_val = FALSE;
}
else
{
ret_val = lo_is_location_in_circle(x, y,
area->coords);
}
break;
case AREA_SHAPE_POLY:
if (area->coord_cnt < 6)
{
ret_val = FALSE;
}
else
{
ret_val = lo_is_location_in_poly(x, y,
area->coords, area->coord_cnt);
}
break;
case AREA_SHAPE_DEFAULT:
ret_val = TRUE;
break;
case AREA_SHAPE_UNKNOWN:
default:
break;
}
return(ret_val);
}
/*
* Given an x,y location and a map, return the anchor data for the
* usemap. Return NULL for areas not described or with no specified href.
*/
LO_AnchorData *
lo_MapXYToAnchorData(MWContext *context, lo_DocState *state,
lo_MapRec *map, int32 x, int32 y)
{
lo_MapAreaRec *areas;
if (map == NULL)
{
return(NULL);
}
areas = map->areas;
while (areas != NULL)
{
/*
* If we found a containing area, return its anchor data.
*/
if (lo_is_location_in_area(areas, x, y) != FALSE)
{
break;
}
areas = areas->next;
}
if (areas != NULL)
{
return(areas->anchor);
}
else
{
return(NULL);
}
}
/*
* Public function for front ends to get the usemap anchor data
* for an image, based on the x,y of the user in the image.
*/
LO_AnchorData *
LO_MapXYToAreaAnchor(MWContext *context, LO_ImageStruct *image,
int32 x, int32 y)
{
int32 doc_id;
lo_TopState *top_state;
lo_DocState *state;
LO_AnchorData *anchor;
lo_MapRec *map;
/*
* Get the unique document ID, and retreive this
* documents layout state.
*/
doc_id = XP_DOCID(context);
top_state = lo_FetchTopState(doc_id);
if ((top_state == NULL)||(top_state->doc_state == NULL))
{
return(NULL);
}
state = top_state->doc_state;
/*
* If this is not really a USEMAP image, leave now.
*/
if (image->image_attr->usemap_name == NULL)
{
return(NULL);
}
/*
* If we havn't looked up and stored the map
* pointer for this image before, do that now,
* otherwise use the stored map pointer.
*/
if (image->image_attr->usemap_ptr == NULL)
{
map = lo_FindNamedMap(context, state,
image->image_attr->usemap_name);
image->image_attr->usemap_ptr = (void *)map;
}
else
{
map = (lo_MapRec *)image->image_attr->usemap_ptr;
}
anchor = lo_MapXYToAnchorData(context, state, map, x, y);
return(anchor);
}
/* #ifndef NO_TAB_NAVIGATION */
/*
see LO_MapXYToAreaAnchor() above for accessing the map structure.
if currentAreaIndex <= 0 , return the first area.
*/
lo_MapAreaRec *
LO_getTabableMapArea(MWContext *context, LO_ImageStruct *image, int32 wantedIndex )
{
lo_MapRec *map;
lo_MapAreaRec *areas;
LO_AnchorData *tempData;
if( image == NULL || image->type != LO_IMAGE )
return( NULL );
/* We don't need the Anchor, but make sure we look up and store the map pointer.*/
tempData = LO_MapXYToAreaAnchor( context, image, 0, 0);
if (image->image_attr->usemap_name == NULL) /* not really a USEMAP image. */
return(NULL);
map = (lo_MapRec *)image->image_attr->usemap_ptr;
if (map == NULL)
return(NULL);
/* TODO if wantedIndex == -2, return the last tabable area */
if( wantedIndex <= 0 )
wantedIndex = 1;
areas = map->areas;
while (areas != NULL )
{
if( areas->anchor != NULL ) { /* only tabable areas are counted */
if( wantedIndex == 1 )
return( areas ); /* got it */
else
wantedIndex--;
}
areas = areas->next;
}
return( NULL );
}
Bool
LO_findApointInArea( lo_MapAreaRec *pArea, int32 *xx, int32 *yy )
{
if ( pArea == NULL)
return(FALSE);
switch( pArea->type )
{
case AREA_SHAPE_RECT:
if (pArea->coord_cnt >= 4)
{ /* the center of the rect */
*xx = ( pArea->coords[0] + pArea->coords[2] ) / 2;
*yy = ( pArea->coords[1] + pArea->coords[3] ) / 2;
return( TRUE );
}
break;
case AREA_SHAPE_CIRCLE:
if ( pArea->coord_cnt >= 3)
{ /* the center of the rect */
*xx = pArea->coords[0];
*yy = pArea->coords[1];
return( TRUE );
}
break;
case AREA_SHAPE_POLY:
if (pArea->coord_cnt >= 6)
{
return( lo_find_location_in_poly(xx, yy, pArea->coords, pArea->coord_cnt) );
}
break;
case AREA_SHAPE_DEFAULT:
/* TODO ?????? */
break;
case AREA_SHAPE_UNKNOWN:
default:
break;
}
return( FALSE );
}
/* NO_TAB_NAVIGATION */