netsurf/riscos/save_draw.c
James Bursa 27a6af1739 [project @ 2004-06-02 21:43:07 by bursa]
Reflow back if xosfile_save_stamped() fails.

svn path=/import/netsurf/; revision=925
2004-06-02 21:43:07 +00:00

748 lines
20 KiB
C

/*
* This file is part of NetSurf, http://netsurf.sourceforge.net/
* Licensed under the GNU General Public License,
* http://www.opensource.org/licenses/gpl-license
* Copyright 2004 John M Bell <jmb202@ecs.soton.ac.uk>
*/
#include <assert.h>
#include <math.h>
#include <stdbool.h>
#include <string.h>
#include "oslib/drawfile.h"
#include "oslib/jpeg.h"
#include "oslib/osfile.h"
#include "netsurf/utils/config.h"
#include "netsurf/content/content.h"
#include "netsurf/css/css.h"
#include "netsurf/desktop/gui.h"
#include "netsurf/render/form.h"
#include "netsurf/render/layout.h"
#include "netsurf/riscos/save_draw.h"
#include "netsurf/utils/log.h"
#include "netsurf/utils/utils.h"
#ifdef WITH_DRAW_EXPORT
/* in browser units = OS/2 = draw/512 */
#define A4PAGEWIDTH (744)
#define A4PAGEHEIGHT (1052)
static bool add_font_table(int **d, unsigned int *length,
struct content *content);
static bool add_options(int **d, unsigned int *length);
static bool add_box(int **d, unsigned int *length, struct box *box,
unsigned long cbc, long x, long y);
static bool add_graphic(int **d, unsigned int *length,
struct content *content, struct box *box,
unsigned long cbc, long x, long y);
static bool add_rect(int **d, unsigned int *length, struct box *box,
unsigned long cbc, long x, long y, bool bg);
static bool add_line(int **d, unsigned int *length, struct box *box,
unsigned long cbc, long x, long y);
static bool add_circle(int **d, unsigned int *length, struct box *box,
unsigned long cbc, long x, long y);
/**
* Export a content as a Drawfile.
*
* \param c content to export
* \param path path to save Drawfile as
* \return true on success, false on error and error reported
*/
bool save_as_draw(struct content *c, char *path)
{
struct box *box;
int current_width;
unsigned long bc;
int *d;
unsigned int length;
drawfile_diagram *diagram;
os_error *error;
if (c->type != CONTENT_HTML) {
return false;
}
box = c->data.html.layout->children;
current_width = c->available_width;
bc = 0xffffff;
d = calloc(40, sizeof(char));
if (!d) {
warn_user("NoMemory", 0);
return false;
}
length = 40;
diagram = (drawfile_diagram *) d;
memcpy(diagram->tag, "Draw", 4);
diagram->major_version = 201;
diagram->minor_version = 0;
memcpy(diagram->source, "NetSurf ", 12);
/* recalculate box widths for an A4 page */
if (!layout_document(box, A4PAGEWIDTH, c->data.html.box_pool))
goto no_memory;
diagram->bbox.x0 = 0;
diagram->bbox.y0 = 0;
diagram->bbox.x1 = A4PAGEWIDTH*512;
diagram->bbox.y1 = A4PAGEHEIGHT*512;
if (!add_font_table(&d, &length, c))
goto no_memory;
if (!add_options(&d, &length))
goto no_memory;
if (c->data.html.background_colour != TRANSPARENT) {
bc = c->data.html.background_colour;
if (!add_rect(&d, &length, box, bc<<8, 0,
A4PAGEHEIGHT*512, true))
goto no_memory;
}
/* right, traverse the tree and grab the contents */
if (!add_box(&d, &length, box, bc, 0, A4PAGEHEIGHT*512))
goto no_memory;
error = xosfile_save_stamped(path, osfile_TYPE_DRAW, (char *) d,
(char *) d + length);
free(d);
if (error) {
LOG(("xosfile_save_stamped: 0x%x: %s",
error->errnum, error->errmess));
warn_user("SaveError", error->errmess);
/* attempt to reflow back on failure */
layout_document(box, current_width, c->data.html.box_pool);
return false;
}
/* reset layout to current window width */
if (!layout_document(box, current_width, c->data.html.box_pool))
warn_user("NoMemory", 0);
return true;
no_memory:
free(d);
/* attempt to reflow back on failure */
layout_document(box, current_width, c->data.html.box_pool);
warn_user("NoMemory", 0);
return false;
}
/**
* add font table
*/
bool add_font_table(int **d, unsigned int *length,
struct content *content)
{
int *d2;
unsigned int length0 = *length;
unsigned int i;
unsigned int padding;
int handle = 0;
int ftlen = 0;
const char *name;
drawfile_object *dro;
drawfile_font_table *ft;
d2 = realloc(*d, *length += 8);
if (!d2)
return false;
*d = d2;
dro = (drawfile_object *) (*d + length0 / sizeof *d);
ft = &dro->data.font_table;
dro->type = drawfile_TYPE_FONT_TABLE;
do {
name = enumerate_fonts(content->data.html.fonts, &handle);
if (handle == -1 && name == 0)
break;
/* at this point, handle is always (font_table entry + 1) */
d2 = realloc(*d, *length += 1 + strlen(name) + 1);
if (!d2)
return false;
*d = d2;
dro = (drawfile_object *) (*d + length0 / sizeof *d);
ft = &dro->data.font_table;
((char *) ft)[ftlen] = handle;
strcpy(((char *) ft) + ftlen + 1, name);
ftlen += 1 + strlen(name) + 1;
} while (handle != -1);
/* word align end of list */
padding = (ftlen + 3) / 4 * 4 - ftlen;
d2 = realloc(*d, *length + padding);
if (!d2)
return false;
*d = d2;
dro = (drawfile_object *) (*d + length0 / sizeof *d);
ft = &dro->data.font_table;
for (i = 0; i != padding; i++)
((char *) *d)[*length + i] = 0;
*length += padding;
ftlen += padding;
dro->size = 8 + ftlen;
return true;
}
/**
* add options object
*/
bool add_options(int **d, unsigned int *length)
{
int *d2;
unsigned int length0 = *length;
drawfile_object *dro;
drawfile_options *dfo;
d2 = realloc(*d, *length += 8 + 80);
if (!d2)
return false;
*d = d2;
dro = (drawfile_object *) (*d + length0 / sizeof *d);
dfo = &dro->data.options;
dro->type = drawfile_TYPE_OPTIONS;
dro->size = 8 + 80;
dfo->bbox.x0 = dfo->bbox.y0 = dfo->bbox.x1 = dfo->bbox.y1 = 0;
dfo->paper_size = 0x500; /* A4 */
dfo->paper_options = (drawfile_paper_options)0;
dfo->grid_spacing = 1;
dfo->grid_division = 2;
dfo->isometric = false;
dfo->auto_adjust = false;
dfo->show = false;
dfo->lock = false;
dfo->cm = true;
dfo->zoom_mul = 1;
dfo->zoom_div = 1;
dfo->zoom_lock = false;
dfo->toolbox = true;
dfo->entry_mode = drawfile_ENTRY_MODE_SELECT;
dfo->undo_size = 5000;
return true;
}
/**
* Traverses box tree, adding objects to the diagram as it goes.
*/
bool add_box(int **d, unsigned int *length, struct box *box,
unsigned long cbc, long x, long y)
{
int *d2;
unsigned int length0 = *length;
struct box *c;
int width, height, colour;
unsigned int i;
drawfile_object *dro;
drawfile_text *dt;
x += box->x * 512;
y -= box->y * 512;
width = (box->padding[LEFT] + box->width + box->padding[RIGHT]) * 2;
height = (box->padding[TOP] + box->height + box->padding[BOTTOM]) * 2;
if (box->style && box->style->visibility == CSS_VISIBILITY_HIDDEN) {
for (c = box->children; c; c = c->next) {
if (!add_box(d, length, c, cbc, x, y))
return false;
}
return true;
}
if (box->style != 0 && box->style->background_color != TRANSPARENT) {
cbc = box->style->background_color;
if (!add_rect(d, length, box, cbc<<8, x, y, false))
return false;
}
if (box->object) {
switch (box->object->type) {
case CONTENT_JPEG:
#ifdef WITH_PNG
case CONTENT_PNG:
#endif
case CONTENT_GIF:
#ifdef WITH_SPRITE
case CONTENT_SPRITE:
#endif
return add_graphic(d, length, box->object,
box, cbc, x, y);
case CONTENT_HTML:
c = box->object->data.html.layout->children;
return add_box(d, length, c, cbc, x, y);
default:
break;
}
} else if (box->gadget && box->gadget->type == GADGET_CHECKBOX) {
return add_rect(d, length, box, 0xDEDEDE00, x, y, false);
} else if (box->gadget && box->gadget->type == GADGET_RADIO) {
return add_circle(d, length, box, 0xDEDEDE00, x, y);
} else if (box->text && box->font) {
if (box->length == 0) {
return true;
}
/* text-decoration */
colour = box->style->color;
colour = ((((colour >> 16) + (cbc >> 16)) / 2) << 16)
| (((((colour >> 8) & 0xff) +
((cbc >> 8) & 0xff)) / 2) << 8)
| ((((colour & 0xff) + (cbc & 0xff)) / 2) << 0);
if (box->style->text_decoration & CSS_TEXT_DECORATION_UNDERLINE || (box->parent->parent->style->text_decoration & CSS_TEXT_DECORATION_UNDERLINE && box->parent->parent->type == BOX_BLOCK)) {
if (!add_line(d, length, box, (unsigned)colour<<8,
x, (int)(y+(box->height*0.1*512))))
return false;
}
if (box->style->text_decoration & CSS_TEXT_DECORATION_OVERLINE || (box->parent->parent->style->text_decoration & CSS_TEXT_DECORATION_OVERLINE && box->parent->parent->type == BOX_BLOCK)) {
if (!add_line(d, length, box, (unsigned)colour<<8,
x, (int)(y+(box->height*0.9*512))))
return false;
}
if (box->style->text_decoration & CSS_TEXT_DECORATION_LINE_THROUGH || (box->parent->parent->style->text_decoration & CSS_TEXT_DECORATION_LINE_THROUGH && box->parent->parent->type == BOX_BLOCK)) {
if (!add_line(d, length, box, (unsigned)colour<<8,
x, (int)(y+(box->height*0.4*512))))
return false;
}
/* normal text */
length0 = *length;
d2 = realloc(*d, *length += 8 + 44 +
(box->length + 1 + 3) / 4 * 4);
if (!d2)
return false;
*d = d2;
dro = (drawfile_object *) (*d + length0 / sizeof *d);
dt = &dro->data.text;
dro->type = drawfile_TYPE_TEXT;
dro->size = 8 + 44 + (box->length + 1 + 3) / 4 * 4;
dt->bbox.x0 = x;
dt->bbox.y0 = y-(box->height*1.5*512);
dt->bbox.x1 = x+(box->width*512);
dt->bbox.y1 = y;
dt->fill = box->style->color<<8;
dt->bg_hint = cbc<<8;
dt->style.font_index = box->font->id + 1;
dt->style.reserved[0] = 0;
dt->style.reserved[1] = 0;
dt->style.reserved[2] = 0;
dt->xsize = box->font->size*40;
dt->ysize = box->font->size*40;
dt->base.x = x;
dt->base.y = y-(box->height*512)+1536;
strncpy(dt->text, box->text, box->length);
dt->text[box->length] = 0;
for (i = box->length + 1; i % 4; i++)
dt->text[i] = 0;
return true;
} else {
for (c = box->children; c != 0; c = c->next) {
if (c->type != BOX_FLOAT_LEFT && c->type != BOX_FLOAT_RIGHT)
if (!add_box(d, length, c, cbc, x, y))
return false;
}
for (c = box->float_children; c != 0; c = c->next_float) {
if (!add_box(d, length, c, cbc, x, y))
return false;
}
}
return true;
}
/**
* Add images to the drawfile. Uses add_jpeg as a helper.
*/
bool add_graphic(int **d, unsigned int *length,
struct content *content, struct box *box,
unsigned long cbc, long x, long y) {
int *d2;
unsigned int length0 = *length;
int sprite_length = 0;
drawfile_object *dro;
drawfile_sprite *ds;
/* cast-tastic... */
switch (content->type) {
case CONTENT_JPEG:
sprite_length = ((osspriteop_header*)((char*)content->data.jpeg.sprite_area+content->data.jpeg.sprite_area->first))->size;
break;
#ifdef WITH_PNG
case CONTENT_PNG:
sprite_length = ((osspriteop_header*)((char*)content->data.png.sprite_area+content->data.png.sprite_area->first))->size;
break;
#endif
case CONTENT_GIF:
sprite_length = content->data.gif.gif->frame_image->size;
break;
#ifdef WITH_SPRITE
case CONTENT_SPRITE:
sprite_length = ((osspriteop_header*)((char*)content->data.sprite.data+(((osspriteop_area*)content->data.sprite.data)->first)))->size;
break;
#endif
default:
assert(0);
}
d2 = realloc(*d, *length += 8 + 16 + sprite_length);
if (!d2)
return false;
*d = d2;
dro = (drawfile_object *) (*d + length0 / sizeof *d);
ds = &dro->data.sprite;
dro->type = drawfile_TYPE_SPRITE;
dro->size = 8 + 16 + sprite_length;
ds->bbox.x0 = x;
ds->bbox.y0 = y-((box->padding[TOP] + box->height + box->padding[BOTTOM])*512);
ds->bbox.x1 = x+((box->padding[LEFT] + box->width + box->padding[RIGHT])*512);
ds->bbox.y1 = y;
switch (content->type) {
case CONTENT_JPEG:
memcpy((char*)ds+16, (char*)content->data.jpeg.sprite_area+content->data.jpeg.sprite_area->first,
(unsigned)sprite_length);
break;
#ifdef WITH_PNG
case CONTENT_PNG:
memcpy((char*)ds+16, (char*)content->data.png.sprite_area+content->data.png.sprite_area->first,
(unsigned)sprite_length);
break;
#endif
case CONTENT_GIF:
memcpy((char*)ds+16, (char*)content->data.gif.gif->frame_image,
(unsigned)sprite_length);
break;
#ifdef WITH_SPRITE
case CONTENT_SPRITE:
memcpy((char*)ds+16, (char*)content->data.sprite.data+((osspriteop_area*)content->data.sprite.data)->first,
(unsigned)sprite_length);
break;
#endif
default:
assert(0);
}
return true;
}
/**
* Add a filled, borderless rectangle to the diagram
* Set bg to true to produce the background rectangle.
*/
bool add_rect(int **d, unsigned int *length, struct box *box,
unsigned long cbc, long x, long y, bool bg) {
int *d2;
unsigned int length0 = *length;
drawfile_object *dro;
drawfile_path *dp;
draw_path_element *dpe;
d2 = realloc(*d, *length += 8 + 96);
if (!d2)
return false;
*d = d2;
dro = (drawfile_object *) (*d + length0 / sizeof *d);
dp = &dro->data.path;
dro->type = drawfile_TYPE_PATH;
dro->size = 8 + 96;
if (bg) {
dp->bbox.x0 = 0;
dp->bbox.y0 = 0;
dp->bbox.x1 = A4PAGEWIDTH*512;
dp->bbox.y1 = A4PAGEHEIGHT*512;
} else {
dp->bbox.x0 = x;
dp->bbox.y0 = y-((box->padding[TOP] + box->height + box->padding[BOTTOM])*512);
dp->bbox.x1 = x+((box->padding[LEFT] + box->width + box->padding[RIGHT])*512);
dp->bbox.y1 = y;
}
dp->fill = cbc;
dp->outline = cbc;
dp->width = 0;
dp->style.flags = 0;
/**
* X<------X
* | ^
* | |
* v |
* -->X------>X
*/
/* bottom left */
dpe = (draw_path_element *) (((int *) &dp->path) + 0 / sizeof (int));
dpe->tag = draw_MOVE_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.move_to.x = dp->bbox.x0;
dpe->data.move_to.y = dp->bbox.y0;
/* bottom right */
dpe = (draw_path_element *) (((int *) &dp->path) + 12 / sizeof (int));
dpe->tag = draw_LINE_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.line_to.x = dp->bbox.x1;
dpe->data.line_to.y = dp->bbox.y0;
/* top right */
dpe = (draw_path_element *) (((int *) &dp->path) + 24 / sizeof (int));
dpe->tag = draw_LINE_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.line_to.x = dp->bbox.x1;
dpe->data.line_to.y = dp->bbox.y1;
/* top left */
dpe = (draw_path_element *) (((int *) &dp->path) + 36 / sizeof (int));
dpe->tag = draw_LINE_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.line_to.x = dp->bbox.x0;
dpe->data.line_to.y = dp->bbox.y1;
/* bottom left */
dpe = (draw_path_element *) (((int *) &dp->path) + 48 / sizeof (int));
dpe->tag = draw_LINE_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.line_to.x = dp->bbox.x0;
dpe->data.line_to.y = dp->bbox.y0;
/* end */
dpe = (draw_path_element *) (((int *) &dp->path) + 60 / sizeof (int));
dpe->tag = draw_END_PATH;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
return true;
}
/**
* add a line to the diagram
*/
bool add_line(int **d, unsigned int *length, struct box *box,
unsigned long cbc, long x, long y) {
int *d2;
unsigned int length0 = *length;
drawfile_object *dro;
drawfile_path *dp;
draw_path_element *dpe;
d2 = realloc(*d, *length += 8 + 60);
if (!d2)
return false;
*d = d2;
dro = (drawfile_object *) (*d + length0 / sizeof *d);
dp = &dro->data.path;
dro->type = drawfile_TYPE_PATH;
dro->size = 8 + 60;
dp->bbox.x0 = x;
dp->bbox.y0 = y-((box->padding[TOP] + box->height + box->padding[BOTTOM])*512);
dp->bbox.x1 = x+((box->padding[LEFT] + box->width + box->padding[RIGHT])*512);
dp->bbox.y1 = y;
dp->fill = cbc;
dp->outline = cbc;
dp->width = 0;
dp->style.flags = 0;
dp->style.reserved = 0;
dp->style.cap_width = 0;
dp->style.cap_length = 0;
/* left end */
dpe = (draw_path_element *) (((int *) &dp->path) + 0 / sizeof (int));
dpe->tag = draw_MOVE_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.move_to.x = dp->bbox.x0;
dpe->data.move_to.y = dp->bbox.y0;
/* right end */
dpe = (draw_path_element *) (((int *) &dp->path) + 12 / sizeof (int));
dpe->tag = draw_LINE_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.line_to.x = dp->bbox.x1;
dpe->data.line_to.y = dp->bbox.y0;
/* end */
dpe = (draw_path_element *) (((int *) &dp->path) + 24 / sizeof (int));
dpe->tag = draw_END_PATH;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
return true;
}
/**
* add a circle to the diagram.
*/
bool add_circle(int **d, unsigned int *length, struct box *box,
unsigned long cbc, long x, long y) {
int *d2;
unsigned int length0 = *length;
double radius = 0, kappa;
double cx, cy;
drawfile_object *dro;
drawfile_path *dp;
draw_path_element *dpe;
d2 = realloc(*d, *length += 8 + 160);
if (!d2)
return false;
*d = d2;
dro = (drawfile_object *) (*d + length0 / sizeof *d);
dp = &dro->data.path;
dro->type = drawfile_TYPE_PATH;
dro->size = 8 + 160;
dp->bbox.x0 = x;
dp->bbox.y0 = y-((box->padding[TOP] + box->height + box->padding[BOTTOM])*512);
dp->bbox.x1 = x+((box->padding[LEFT] + box->width + box->padding[RIGHT])*512);
dp->bbox.y1 = y;
cx = ((dp->bbox.x1-dp->bbox.x0)/2.0);
cy = ((dp->bbox.y1-dp->bbox.y0)/2.0);
if (cx == cy) {
radius = cx; /* box is square */
}
else if (cx > cy) {
radius = cy;
dp->bbox.x1 -= (cx-cy); /* reduce box width */
}
else if (cy > cx) {
radius = cx;
dp->bbox.y0 += (cy-cx); /* reduce box height */
}
kappa = radius * ((4.0/3.0)*(sqrt(2.0)-1.0)); /* ~= 0.5522847498 */
dp->fill = cbc;
dp->outline = cbc;
dp->width = 0;
dp->style.flags = drawfile_PATH_ROUND;
/*
* Z b Y
*
* a X c
*
* V d W
*
* V = (x0,y0)
* W = (x1,y0)
* Y = (x1,y1)
* Z = (x0,y1)
*
* X = centre of circle (x0+cx, y0+cx)
*
* The points a,b,c,d are where the circle intersects
* the bounding box. at these points, the bounding box is
* tangental to the circle.
*/
/* start at a */
dpe = (draw_path_element *) (((int *) &dp->path) + 0 / sizeof (int));
dpe->tag = draw_MOVE_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.move_to.x = (dp->bbox.x0+cx)-radius;
dpe->data.move_to.y = (dp->bbox.y0+cy);
/* point1->point2 : (point1)(ctrl1)(ctrl2)(point2) */
/* a->b : (x-r, y)(x-r, y+k)(x-k, y+r)(x, y+r) */
dpe = (draw_path_element *) (((int *) &dp->path) + 12 / sizeof (int));
dpe->tag = draw_BEZIER_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.bezier_to[0].x = (dp->bbox.x0+cx)-radius;
dpe->data.bezier_to[0].y = (dp->bbox.y0+cy)+kappa;
dpe->data.bezier_to[1].x = (dp->bbox.x0+cx)-kappa;
dpe->data.bezier_to[1].y = (dp->bbox.y0+cy)+radius;
dpe->data.bezier_to[2].x = (dp->bbox.x0+cx);
dpe->data.bezier_to[2].y = (dp->bbox.y0+cy)+radius;
/* b->c : (x, y+r)(x+k, y+r)(x+r, y+k)(x+r, y)*/
dpe = (draw_path_element *) (((int *) &dp->path) + 40 / sizeof (int));
dpe->tag = draw_BEZIER_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.bezier_to[0].x = (dp->bbox.x0+cx)+kappa;
dpe->data.bezier_to[0].y = (dp->bbox.y0+cy)+radius;
dpe->data.bezier_to[1].x = (dp->bbox.x0+cx)+radius;
dpe->data.bezier_to[1].y = (dp->bbox.y0+cy)+kappa;
dpe->data.bezier_to[2].x = (dp->bbox.x0+cx)+radius;
dpe->data.bezier_to[2].y = (dp->bbox.y0+cy);
/* c->d : (x+r, y)(x+r, y-k)(x+k, y-r)(x, y-r) */
dpe = (draw_path_element *) (((int *) &dp->path) + 68 / sizeof (int));
dpe->tag = draw_BEZIER_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.bezier_to[0].x = (dp->bbox.x0+cx)+radius;
dpe->data.bezier_to[0].y = (dp->bbox.y0+cy)-kappa;
dpe->data.bezier_to[1].x = (dp->bbox.x0+cx)+kappa;
dpe->data.bezier_to[1].y = (dp->bbox.y0+cy)-radius;
dpe->data.bezier_to[2].x = (dp->bbox.x0+cx);
dpe->data.bezier_to[2].y = (dp->bbox.y0+cy)-radius;
/* d->a : (x, y-r)(x-k, y-r)(x-r, y-k)(x-r, y)*/
dpe = (draw_path_element *) (((int *) &dp->path) + 96 / sizeof (int));
dpe->tag = draw_BEZIER_TO;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
dpe->data.bezier_to[0].x = (dp->bbox.x0+cx)-kappa;
dpe->data.bezier_to[0].y = (dp->bbox.y0+cy)-radius;
dpe->data.bezier_to[1].x = (dp->bbox.x0+cx)-radius;
dpe->data.bezier_to[1].y = (dp->bbox.y0+cy)-kappa;
dpe->data.bezier_to[2].x = (dp->bbox.x0+cx)-radius;
dpe->data.bezier_to[2].y = (dp->bbox.y0+cy);
/* end */
dpe = (draw_path_element *) (((int *) &dp->path) + 124 / sizeof (int));
dpe->tag = draw_END_PATH;
dpe->reserved[0] = dpe->reserved[1] = dpe->reserved[2] = 0;
return true;
}
#endif