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/**
* @file
* @brief Bitmap image belonging to an SVG drawing
*//*
* Authors:
* Krzysztof Kosiński <tweenk.pl@gmail.com>
*
* Copyright (C) 2011 Authors
* Released under GNU GPL, read the file 'COPYING' for more information
*/
#include "display/cairo-utils.h"
#include "display/drawing.h"
#include "display/drawing-context.h"
#include "display/drawing-image.h"
#include "preferences.h"
#include "style.h"
namespace Inkscape {
DrawingImage::DrawingImage(Drawing &drawing)
: DrawingItem(drawing)
, _pixbuf(NULL)
, _surface(NULL)
, _style(NULL)
{}
DrawingImage::~DrawingImage()
{
if (_style)
sp_style_unref(_style);
if (_pixbuf) {
cairo_surface_destroy(_surface);
g_object_unref(_pixbuf);
}
}
void
DrawingImage::setARGB32Pixbuf(GdkPixbuf *pb)
{
// when done in this order, it won't break if pb == image->pixbuf and the refcount is 1
if (pb != NULL) {
g_object_ref (pb);
}
if (_pixbuf != NULL) {
g_object_unref(_pixbuf);
cairo_surface_destroy(_surface);
}
_pixbuf = pb;
_surface = pb ? ink_cairo_surface_create_for_argb32_pixbuf(pb) : NULL;
_markForUpdate(STATE_ALL, false);
}
void
DrawingImage::setStyle(SPStyle *style)
{
_setStyleCommon(_style, style);
}
void
DrawingImage::setScale(double sx, double sy)
{
_scale = Geom::Scale(sx, sy);
_markForUpdate(STATE_ALL, false);
}
void
DrawingImage::setOrigin(Geom::Point const &o)
{
_origin = o;
_markForUpdate(STATE_ALL, false);
}
void
DrawingImage::setClipbox(Geom::Rect const &box)
{
_clipbox = box;
_markForUpdate(STATE_ALL, false);
}
Geom::Rect
DrawingImage::bounds() const
{
if (!_pixbuf) return _clipbox;
double pw = gdk_pixbuf_get_width(_pixbuf);
double ph = gdk_pixbuf_get_height(_pixbuf);
double vw = pw * _scale[Geom::X];
double vh = ph * _scale[Geom::Y];
Geom::Point wh(vw, vh);
Geom::Rect view(_origin, _origin+wh);
Geom::OptRect res = _clipbox & view;
Geom::Rect ret = res ? *res : _clipbox;
return ret;
}
unsigned
DrawingImage::_updateItem(Geom::IntRect const &, UpdateContext const &, unsigned, unsigned)
{
_markForRendering();
// Calculate bbox
if (_pixbuf) {
Geom::Rect r = bounds() * _ctm;
_bbox = r.roundOutwards();
} else {
_bbox = Geom::OptIntRect();
}
return STATE_ALL;
}
unsigned
DrawingImage::_renderItem(DrawingContext &ct, Geom::IntRect const &area, unsigned flags, DrawingItem *stop_at)
{
bool outline = _drawing.outline();
if (!outline) {
if (!_pixbuf) return RENDER_OK;
Inkscape::DrawingContext::Save save(ct);
ct.transform(_ctm);
ct.newPath();
ct.rectangle(_clipbox);
ct.clip();
ct.translate(_origin);
ct.scale(_scale);
ct.setSource(_surface, 0, 0);
cairo_matrix_t tt;
Geom::Affine total;
cairo_get_matrix(ct.raw(), &tt);
ink_matrix_to_2geom(total, tt);
if (total.expansionX() > 1.0 || total.expansionY() > 1.0) {
cairo_pattern_t *p = cairo_get_source(ct.raw());
cairo_pattern_set_filter(p, CAIRO_FILTER_NEAREST);
}
//ct.paint(_opacity);
ct.paint();
} else { // outline; draw a rect instead
Inkscape::Preferences *prefs = Inkscape::Preferences::get();
guint32 rgba = prefs->getInt("/options/wireframecolors/images", 0xff0000ff);
{ Inkscape::DrawingContext::Save save(ct);
ct.transform(_ctm);
ct.newPath();
Geom::Rect r = bounds();
Geom::Point c00 = r.corner(0);
Geom::Point c01 = r.corner(3);
Geom::Point c11 = r.corner(2);
Geom::Point c10 = r.corner(1);
ct.moveTo(c00);
// the box
ct.lineTo(c10);
ct.lineTo(c11);
ct.lineTo(c01);
ct.lineTo(c00);
// the diagonals
ct.lineTo(c11);
ct.moveTo(c10);
ct.lineTo(c01);
}
ct.setLineWidth(0.5);
ct.setSource(rgba);
ct.stroke();
}
return RENDER_OK;
}
/** Calculates the closest distance from p to the segment a1-a2*/
static double
distance_to_segment (Geom::Point const &p, Geom::Point const &a1, Geom::Point const &a2)
{
// calculate sides of the triangle and their squares
double d1 = Geom::L2(p - a1);
double d1_2 = d1 * d1;
double d2 = Geom::L2(p - a2);
double d2_2 = d2 * d2;
double a = Geom::L2(a1 - a2);
double a_2 = a * a;
// if one of the angles at the base is > 90, return the corresponding side
if (d1_2 + a_2 <= d2_2) return d1;
if (d2_2 + a_2 <= d1_2) return d2;
// otherwise calculate the height to the base
double peri = (a + d1 + d2)/2;
return (2*sqrt(peri * (peri - a) * (peri - d1) * (peri - d2))/a);
}
DrawingItem *
DrawingImage::_pickItem(Geom::Point const &p, double delta, unsigned /*sticky*/)
{
if (!_pixbuf) return NULL;
bool outline = _drawing.outline();
if (outline) {
Geom::Rect r = bounds();
Geom::Point c00 = r.corner(0);
Geom::Point c01 = r.corner(3);
Geom::Point c11 = r.corner(2);
Geom::Point c10 = r.corner(1);
// frame
if (distance_to_segment (p, c00, c10) < delta) return this;
if (distance_to_segment (p, c10, c11) < delta) return this;
if (distance_to_segment (p, c11, c01) < delta) return this;
if (distance_to_segment (p, c01, c00) < delta) return this;
// diagonals
if (distance_to_segment (p, c00, c11) < delta) return this;
if (distance_to_segment (p, c10, c01) < delta) return this;
return NULL;
} else {
unsigned char *const pixels = gdk_pixbuf_get_pixels(_pixbuf);
int width = gdk_pixbuf_get_width(_pixbuf);
int height = gdk_pixbuf_get_height(_pixbuf);
int rowstride = gdk_pixbuf_get_rowstride(_pixbuf);
Geom::Point tp = p * _ctm.inverse();
Geom::Rect r = bounds();
if (!r.contains(tp))
return NULL;
double vw = width * _scale[Geom::X];
double vh = height * _scale[Geom::Y];
int ix = floor((tp[Geom::X] - _origin[Geom::X]) / vw * width);
int iy = floor((tp[Geom::Y] - _origin[Geom::Y]) / vh * height);
if ((ix < 0) || (iy < 0) || (ix >= width) || (iy >= height))
return NULL;
unsigned char *pix_ptr = pixels + iy * rowstride + ix * 4;
// pick if the image is less than 99% transparent
float alpha = (pix_ptr[3] / 255.0f) * _opacity;
return alpha > 0.01 ? this : NULL;
}
}
} // end namespace Inkscape
/*
Local Variables:
mode:c++
c-file-style:"stroustrup"
c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +))
indent-tabs-mode:nil
fill-column:99
End:
*/
// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:fileencoding=utf-8:textwidth=99 :
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