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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Simple non-transformed rectangle, usable for rubberband
*
* Author:
* Lauris Kaplinski <lauris@ximian.com>
* bulia byak <buliabyak@users.sf.net>
* Carl Hetherington <inkscape@carlh.net>
* Jon A. Cruz <jon@joncruz.org>
* Tavmjong Bah <tavmjong@free.fr>
*
* Copyright (C) 1999-2001 Lauris Kaplinski
* Copyright (C) 2000-2001 Ximian, Inc.
* Copyright (C) 2017 Tavmjong Bah
*
* Released under GNU GPL v2+, read the file 'COPYING' for more information.
*
*/
#include "inkscape.h"
#include "sodipodi-ctrlrect.h"
#include "sp-canvas-util.h"
#include "display/cairo-utils.h"
#include "display/sp-canvas.h"
#include <2geom/transforms.h>
/*
* Currently we do not have point method, as it should always be painted
* during some transformation, which takes care of events...
*
* Corner coords can be in any order - i.e. x1 < x0 is allowed
*/
static void sp_ctrlrect_destroy(SPCanvasItem *object);
static void sp_ctrlrect_update(SPCanvasItem *item, Geom::Affine const &affine, unsigned int flags);
static void sp_ctrlrect_render(SPCanvasItem *item, SPCanvasBuf *buf);
G_DEFINE_TYPE(CtrlRect, sp_ctrlrect, SP_TYPE_CANVAS_ITEM);
static void sp_ctrlrect_class_init(CtrlRectClass *c)
{
SPCanvasItemClass *item_class = SP_CANVAS_ITEM_CLASS(c);
item_class->destroy = sp_ctrlrect_destroy;
item_class->update = sp_ctrlrect_update;
item_class->render = sp_ctrlrect_render;
}
static void sp_ctrlrect_init(CtrlRect *cr)
{
cr->init();
}
static void sp_ctrlrect_destroy(SPCanvasItem *object)
{
if (SP_CANVAS_ITEM_CLASS(sp_ctrlrect_parent_class)->destroy) {
(* SP_CANVAS_ITEM_CLASS(sp_ctrlrect_parent_class)->destroy)(object);
}
}
static void sp_ctrlrect_render(SPCanvasItem *item, SPCanvasBuf *buf)
{
SP_CTRLRECT(item)->render(buf);
}
static void sp_ctrlrect_update(SPCanvasItem *item, Geom::Affine const &affine, unsigned int flags)
{
SP_CTRLRECT(item)->update(affine, flags);
}
void CtrlRect::init()
{
_has_fill = false;
_dashed = false;
_checkerboard = false;
_shadow_width = 0;
_area = Geom::OptIntRect();
_rect = Geom::Rect(Geom::Point(0,0),Geom::Point(0,0));
_border_color = 0x000000ff;
_fill_color = 0xffffffff;
_shadow_color = 0x000000ff;
_inverted = false;
}
void CtrlRect::render(SPCanvasBuf *buf)
{
using Geom::X;
using Geom::Y;
if (!_area) {
return;
}
Geom::IntRect area = *_area; // _area already includes space for shadow.
if ( area.intersects(buf->rect) )
{
cairo_save(buf->ct);
cairo_translate(buf->ct, -buf->rect.left(), -buf->rect.top());
// Get canvas rotation (scale is isotropic).
double rotation = atan2( _affine[1], _affine[0] );
// Are we axis aligned?
double mod_rot = fmod(rotation * M_2_PI, 1);
bool axis_aligned = Geom::are_near( mod_rot, 0 ) || Geom::are_near( mod_rot, 1.0 );
// Get the points we need transformed to window coordinates.
Geom::Point rect_transformed[4];
for (unsigned i = 0; i < 4; ++i) {
rect_transformed[i] = _rect.corner(i) * _affine;
}
if(_inverted) {
cairo_set_operator(buf->ct, CAIRO_OPERATOR_DIFFERENCE);
}
// Draw shadow first. Shadow extends under rectangle to reduce aliasing effects.
if (_shadow_width > 0 && !_dashed) {
Geom::Point const * corners = rect_transformed;
double shadowydir = _affine.det() > 0 ? -1 : 1;
// is the desktop y-axis downwards?
if (SP_ACTIVE_DESKTOP && SP_ACTIVE_DESKTOP->is_yaxisdown()) {
++corners; // need corners 1/2/3 instead of 0/1/2
shadowydir *= -1;
}
// Offset by half stroke width (_shadow_width is in window coordinates).
// Need to handle change in handedness with flips.
Geom::Point shadow( _shadow_width/2.0, shadowydir * _shadow_width/2.0 );
shadow *= Geom::Rotate( rotation );
if (axis_aligned) {
// Snap to pixel grid (add 0.5 to center on pixel).
cairo_move_to( buf->ct,
floor(corners[0][X] + shadow[X]+0.5) + 0.5,
floor(corners[0][Y] + shadow[Y]+0.5) + 0.5 );
cairo_line_to( buf->ct,
floor(corners[1][X] + shadow[X]+0.5) + 0.5,
floor(corners[1][Y] + shadow[Y]+0.5) + 0.5 );
cairo_line_to( buf->ct,
floor(corners[2][X] + shadow[X]+0.5) + 0.5,
floor(corners[2][Y] + shadow[Y]+0.5) + 0.5 );
} else {
cairo_move_to( buf->ct,
corners[0][X] + shadow[X],
corners[0][Y] + shadow[Y] );
cairo_line_to( buf->ct,
corners[1][X] + shadow[X],
corners[1][Y] + shadow[Y] );
cairo_line_to( buf->ct,
corners[2][X] + shadow[X],
corners[2][Y] + shadow[Y] );
}
ink_cairo_set_source_rgba32( buf->ct, _shadow_color );
cairo_set_line_width( buf->ct, _shadow_width + 1 );
cairo_stroke( buf->ct );
}
// Setup rectangle path
if (axis_aligned) {
// Snap to pixel grid
Geom::Rect outline( _rect.min() * _affine, _rect.max() * _affine);
cairo_rectangle (buf->ct,
floor(outline.min()[X])+0.5,
floor(outline.min()[Y])+0.5,
floor(outline.max()[X]) - floor(outline.min()[X]),
floor(outline.max()[Y]) - floor(outline.min()[Y]));
} else {
// Angled
cairo_move_to( buf->ct, rect_transformed[0][X], rect_transformed[0][Y] );
cairo_line_to( buf->ct, rect_transformed[1][X], rect_transformed[1][Y] );
cairo_line_to( buf->ct, rect_transformed[2][X], rect_transformed[2][Y] );
cairo_line_to( buf->ct, rect_transformed[3][X], rect_transformed[3][Y] );
cairo_close_path( buf->ct );
}
// This doesn't seem to be used anywhere. If it is, then we should
// probably rotate the coordinate system and fill using a cairo_rectangle().
if (_checkerboard) {
cairo_pattern_t *cb = ink_cairo_pattern_create_checkerboard();
cairo_set_source(buf->ct, cb);
cairo_pattern_destroy(cb);
cairo_fill_preserve(buf->ct);
}
if (_has_fill) {
ink_cairo_set_source_rgba32(buf->ct, _fill_color);
cairo_fill_preserve(buf->ct);
}
// Set up stroke.
ink_cairo_set_source_rgba32(buf->ct, _border_color);
cairo_set_line_width(buf->ct, 1);
static double const dashes[2] = {4.0, 4.0};
if (_dashed) cairo_set_dash(buf->ct, dashes, 2, 0);
// Stroke rectangle.
cairo_stroke_preserve(buf->ct);
// Highlight the border by drawing it in _shadow_color.
if (_shadow_width == 1 && _dashed) {
ink_cairo_set_source_rgba32(buf->ct, _shadow_color);
cairo_set_dash(buf->ct, dashes, 2, 4); // Dash offset by dash length.
cairo_stroke_preserve(buf->ct);
}
cairo_new_path(buf->ct); // Clear path or get weird artifacts.
cairo_restore(buf->ct);
}
}
void CtrlRect::update(Geom::Affine const &affine, unsigned int flags)
{
using Geom::X;
using Geom::Y;
if ((SP_CANVAS_ITEM_CLASS(sp_ctrlrect_parent_class))->update) {
(SP_CANVAS_ITEM_CLASS(sp_ctrlrect_parent_class))->update(this, affine, flags);
}
// Note: There is no harm if 'area' is too large other than a possible small slow down in
// rendering speed.
// Calculate an axis-aligned bounding box that include all of transformed _rect.
Geom::Rect bbox = _rect;
bbox *= affine;
// Enlarge bbox by twice shadow size (to allow for shadow on any side with a 45deg rotation).
bbox.expandBy( 2.0 *_shadow_width );
// Generate an integer rectangle that includes bbox.
Geom::OptIntRect _area_old = _area;
_area = bbox.roundOutwards();
// std::cout << " _rect: " << _rect << std::endl;
// std::cout << " bbox: " << bbox << std::endl;
// std::cout << " area: " << *_area << std::endl;
if (_area) {
Geom::IntRect area = *_area;
// Windows glitches sometimes in cairo, possibly due to the way the surface is cleared.
// Increasing '_area' won't work as the box must be drawn 'inside' the updated area.
sp_canvas_update_bbox(this, area.left(), area.top(), area.right() + 1, area.bottom() + 1);
} else {
std::cerr << "CtrlRect::update: No area!!" << std::endl;
}
// At rendering stage, we need to know affine:
_affine = affine;
}
void CtrlRect::setColor(guint32 b, bool h, guint f)
{
_border_color = b;
_has_fill = h;
_fill_color = f;
_requestUpdate();
}
void CtrlRect::setShadow(int s, guint c)
{
_shadow_width = s;
_shadow_color = c;
_requestUpdate();
}
void CtrlRect::setInvert(bool invert) {
_inverted = invert;
_requestUpdate();
}
void CtrlRect::setRectangle(Geom::Rect const &r)
{
_rect = r;
_requestUpdate();
}
void CtrlRect::setDashed(bool d)
{
_dashed = d;
_requestUpdate();
}
void CtrlRect::setCheckerboard(bool d)
{
_checkerboard = d;
_requestUpdate();
}
void CtrlRect::_requestUpdate()
{
sp_canvas_item_request_update(SP_CANVAS_ITEM(this));
}
/*
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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