sp-item-transform.cpp revision acf6a9462fe97ec8c19cc905d164b1b437cb0b05
#define __SP_ITEM_TRANSFORM_C__
/*
* Transforming single items
*
* Authors:
* Lauris Kaplinski <lauris@kaplinski.com>
* Frank Felfe <innerspace@iname.com>
* bulia byak <buliabyak@gmail.com>
*
* Copyright (C) 1999-2005 authors
*
* Released under GNU GPL, read the file 'COPYING' for more information
*/
#include <libnr/nr-matrix-ops.h>
#include "libnr/nr-matrix-rotate-ops.h"
#include "libnr/nr-matrix-scale-ops.h"
#include "libnr/nr-matrix-translate-ops.h"
#include "sp-item.h"
static NR::translate inverse(NR::translate const m)
{
/* TODO: Move this to nr-matrix-fns.h or the like. */
return NR::translate(-m[0], -m[1]);
}
void
sp_item_rotate_rel(SPItem *item, NR::rotate const &rotation)
{
NR::Point center = item->getCenter();
NR::translate const s(item->getCenter());
NR::Matrix affine = NR::Matrix(inverse(s)) * NR::Matrix(rotation) * NR::Matrix(s);
// Rotate item.
sp_item_set_i2d_affine(item, sp_item_i2d_affine(item) * affine);
// Use each item's own transform writer, consistent with sp_selection_apply_affine()
sp_item_write_transform(item, SP_OBJECT_REPR(item), item->transform);
// Restore the center position (it's changed because the bbox center changed)
if (item->isCenterSet()) {
item->setCenter(center * affine);
}
}
void
sp_item_scale_rel (SPItem *item, NR::scale const &scale)
{
NR::Maybe<NR::Rect> bbox = sp_item_bbox_desktop(item);
if (bbox) {
NR::translate const s(bbox->midpoint()); // use getCenter?
sp_item_set_i2d_affine(item, sp_item_i2d_affine(item) * inverse(s) * scale * s);
sp_item_write_transform(item, SP_OBJECT_REPR(item), item->transform);
}
}
void
sp_item_skew_rel (SPItem *item, double skewX, double skewY)
{
NR::Point center = item->getCenter();
NR::translate const s(item->getCenter());
NR::Matrix const skew(1, skewY, skewX, 1, 0, 0);
NR::Matrix affine = NR::Matrix(inverse(s)) * skew * NR::Matrix(s);
sp_item_set_i2d_affine(item, sp_item_i2d_affine(item) * affine);
sp_item_write_transform(item, SP_OBJECT_REPR(item), item->transform);
// Restore the center position (it's changed because the bbox center changed)
if (item->isCenterSet()) {
item->setCenter(center * affine);
}
}
void sp_item_move_rel(SPItem *item, NR::translate const &tr)
{
sp_item_set_i2d_affine(item, sp_item_i2d_affine(item) * tr);
sp_item_write_transform(item, SP_OBJECT_REPR(item), item->transform);
}
/*
** Returns the matrix you need to apply to an object with given bbox and strokewidth to
scale/move it to the new box x0/y0/x1/y1. Takes into account the "scale stroke"
preference value passed to it. Has to solve a quadratic equation to make sure
the goal is met exactly and the stroke scaling is obeyed.
*/
NR::Matrix
get_scale_transform_with_stroke (NR::Rect &bbox_param, gdouble strokewidth, bool transform_stroke, gdouble x0, gdouble y0, gdouble x1, gdouble y1)
{
NR::Rect bbox (bbox_param);
NR::Matrix p2o = NR::Matrix (NR::translate (-bbox.min()));
NR::Matrix o2n = NR::Matrix (NR::translate (x0, y0));
NR::Matrix scale = NR::Matrix (NR::scale (1, 1)); // scale component
NR::Matrix unbudge = NR::Matrix (NR::translate (0, 0)); // move component to compensate for the drift caused by stroke width change
gdouble w0 = bbox.extent(NR::X);
gdouble h0 = bbox.extent(NR::Y);
gdouble w1 = x1 - x0;
gdouble h1 = y1 - y0;
gdouble r0 = strokewidth;
if (bbox.isEmpty()) {
NR::Matrix move = NR::Matrix(NR::translate(x0 - bbox.min()[NR::X], y0 - bbox.min()[NR::Y]));
return (move); // cannot scale from empty boxes at all, so only translate
}
NR::Matrix direct = NR::Matrix (NR::scale(w1 / w0, h1 / h0));
if (fabs(w0 - r0) < 1e-6 || fabs(h0 - r0) < 1e-6 || (!transform_stroke && (fabs(w1 - r0) < 1e-6 || fabs(h1 - r0) < 1e-6))) {
return (p2o * direct * o2n); // can't solve the equation: one of the dimensions is equal to stroke width, so return the straightforward scaler
}
gdouble ratio_x = (w1 - r0) / (w0 - r0);
gdouble ratio_y = (h1 - r0) / (h0 - r0);
NR::Matrix direct_constant_r = NR::Matrix (NR::scale(ratio_x, ratio_y));
if (transform_stroke && r0 != 0 && r0 != NR_HUGE) { // there's stroke, and we need to scale it
// These coefficients are obtained from the assumption that scaling applies to the
// non-stroked "shape proper" and that stroke scale is scaled by the expansion of that
// matrix
gdouble A = -(w0 *h0) + r0*(w0 + h0);
gdouble B = -(w1 + h1) * r0*r0;
gdouble C = w1 * h1 * r0*r0;
if (B*B - 4*A*C > 0) {
gdouble r1 = (-B - sqrt (B*B - 4*A*C))/(2*A);
//gdouble r2 = (-B + sqrt (B*B - 4*A*C))/(2*A);
//std::cout << "r0" << r0 << " r1" << r1 << " r2" << r2 << "\n";
gdouble scale_x = (w1 - r1)/(w0 - r0);
gdouble scale_y = (h1 - r1)/(h0 - r0);
scale *= NR::scale(scale_x, scale_y);
unbudge *= NR::translate (-0.5 * (r0 * scale_x - r1), -0.5 * (r0 * scale_y - r1));
} else {
scale *= direct;
}
} else {
if (r0 == 0 || r0 == NR_HUGE) { // no stroke to scale
scale *= direct;
} else {// nonscaling strokewidth
scale *= direct_constant_r;
unbudge *= NR::translate (0.5 * r0 * (1 - ratio_x), 0.5 * r0 * (1 - ratio_y));
}
}
return (p2o * scale * unbudge * o2n);
}
/*
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:
*/
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