lpe-copy_rotate.cpp revision b863a8ba029912c2f9d42f83b51249e1d823f152
/** \file
* LPE <copy_rotate> implementation
*/
/*
* Authors:
* Maximilian Albert <maximilian.albert@gmail.com>
* Johan Engelen <j.b.c.engelen@alumnus.utwente.nl>
* Jabiertxo Arraiza Cenoz <jabier.arraiza@marker.es>
* Copyright (C) Authors 2007-2012
*
* Released under GNU GPL, read the file 'COPYING' for more information
*/
#include <glibmm/i18n.h>
#include <gdk/gdk.h>
#include <2geom/path-intersection.h>
#include <2geom/sbasis-to-bezier.h>
#include "live_effects/lpe-copy_rotate.h"
#include <2geom/path.h>
#include <2geom/transforms.h>
#include <2geom/d2-sbasis.h>
#include <2geom/angle.h>
#include "knot-holder-entity.h"
#include "knotholder.h"
namespace Inkscape {
namespace LivePathEffect {
namespace CR {
class KnotHolderEntityStartingAngle : public LPEKnotHolderEntity {
public:
KnotHolderEntityStartingAngle(LPECopyRotate *effect) : LPEKnotHolderEntity(effect) {};
virtual void knot_set(Geom::Point const &p, Geom::Point const &origin, guint state);
virtual Geom::Point knot_get() const;
};
class KnotHolderEntityRotationAngle : public LPEKnotHolderEntity {
public:
KnotHolderEntityRotationAngle(LPECopyRotate *effect) : LPEKnotHolderEntity(effect) {};
virtual void knot_set(Geom::Point const &p, Geom::Point const &origin, guint state);
virtual Geom::Point knot_get() const;
};
} // namespace CR
LPECopyRotate::LPECopyRotate(LivePathEffectObject *lpeobject) :
Effect(lpeobject),
origin(_("Origin"), _("Origin of the rotation"), "origin", &wr, this, "Adjust the origin of the rotation"),
starting_angle(_("Starting:"), _("Angle of the first copy"), "starting_angle", &wr, this, 0.0),
rotation_angle(_("Rotation angle:"), _("Angle between two successive copies"), "rotation_angle", &wr, this, 30.0),
num_copies(_("Number of copies:"), _("Number of copies of the original path"), "num_copies", &wr, this, 5),
copiesTo360(_("360º Copies"), _("No rotation angle, fixed to 360º"), "copiesTo360", &wr, this, true),
kaleidoscope(_("kaleidoscope"), _("kaleidoscope"), "kaleidoscope", &wr, this, false),
dist_angle_handle(100.0)
{
show_orig_path = true;
_provides_knotholder_entities = true;
// register all your parameters here, so Inkscape knows which parameters this effect has:
registerParameter(&copiesTo360);
registerParameter(&kaleidoscope);
registerParameter(&starting_angle);
registerParameter(&rotation_angle);
registerParameter(&num_copies);
registerParameter(&origin);
num_copies.param_make_integer(true);
num_copies.param_set_range(0, 1000);
}
LPECopyRotate::~LPECopyRotate()
{
}
void
LPECopyRotate::doOnApply(SPLPEItem const* lpeitem)
{
using namespace Geom;
original_bbox(lpeitem);
A = Point(boundingbox_X.min(), boundingbox_Y.middle());
B = Point(boundingbox_X.middle(), boundingbox_Y.middle());
origin.param_setValue(A);
origin.param_update_default(A);
dist_angle_handle = L2(B - A);
dir = unit_vector(B - A);
}
void
LPECopyRotate::transform_multiply(Geom::Affine const& postmul, bool set)
{
if(kaleidoscope){
Geom::Coord angle = Geom::rad_to_deg(atan(-postmul[1]/postmul[0]));
angle += starting_angle;
starting_angle.param_set_value(angle);
}
// cycle through all parameters. Most parameters will not need transformation, but path and point params do.
for (std::vector<Parameter *>::iterator it = param_vector.begin(); it != param_vector.end(); ++it) {
Parameter * param = *it;
param->param_transform_multiply(postmul, set);
}
}
void
LPECopyRotate::doBeforeEffect (SPLPEItem const* lpeitem)
{
using namespace Geom;
original_bbox(lpeitem);
if(kaleidoscope || copiesTo360 ){
rotation_angle.param_set_value(360.0/(double)num_copies);
}
if(kaleidoscope){
num_copies.param_set_increments(2,2);
if((int)num_copies%2 !=0){
num_copies.param_set_value(num_copies+1);
}
} else {
num_copies.param_set_increments(1,1);
}
if(dist_angle_handle < 1.0){
dist_angle_handle = 1.0;
}
A = Point(boundingbox_X.min(), boundingbox_Y.middle());
B = Point(boundingbox_X.middle(), boundingbox_Y.middle());
dir = unit_vector(B - A);
// I first suspected the minus sign to be a bug in 2geom but it is
// likely due to SVG's choice of coordinate system orientation (max)
start_pos = origin + dir * Rotate(-deg_to_rad(starting_angle)) * dist_angle_handle;
rot_pos = origin + dir * Rotate(-deg_to_rad(rotation_angle+starting_angle)) * dist_angle_handle;
if( kaleidoscope || copiesTo360 ){
rot_pos = origin;
}
SPLPEItem * item = const_cast<SPLPEItem*>(lpeitem);
item->apply_to_clippath(item);
item->apply_to_mask(item);
}
int
LPECopyRotate::pointSideOfLine(Geom::Point A, Geom::Point B, Geom::Point X)
{
//http://stackoverflow.com/questions/1560492/how-to-tell-whether-a-point-is-to-the-right-or-left-side-of-a-line
double pos = (B[Geom::X]-A[Geom::X])*(X[Geom::Y]-A[Geom::Y]) - (B[Geom::Y]-A[Geom::Y])*(X[Geom::X]-A[Geom::X]);
return (pos < 0) ? -1 : (pos > 0);
}
bool
LPECopyRotate::pointInTriangle(Geom::Point p, Geom::Point p1, Geom::Point p2, Geom::Point p3)
{
//http://totologic.blogspot.com.es/2014/01/accurate-point-in-triangle-test.html
using Geom::X;
using Geom::Y;
double denominator = (p1[X]*(p2[Y] - p3[Y]) + p1[Y]*(p3[X] - p2[X]) + p2[X]*p3[Y] - p2[Y]*p3[X]);
double t1 = (p[X]*(p3[Y] - p1[Y]) + p[Y]*(p1[X] - p3[X]) - p1[X]*p3[Y] + p1[Y]*p3[X]) / denominator;
double t2 = (p[X]*(p2[Y] - p1[Y]) + p[Y]*(p1[X] - p2[X]) - p1[X]*p2[Y] + p1[Y]*p2[X]) / -denominator;
double s = t1 + t2;
return 0 <= t1 && t1 <= 1 && 0 <= t2 && t2 <= 1 && s <= 1;
}
void
LPECopyRotate::split(std::vector<Geom::Path> &path_on,Geom::Path divider){
std::vector<Geom::Path> tmp_path;
double timeStart = 0.0;
Geom::Path original = path_on[0];
int position = 0;
Geom::Crossings cs = crossings(original,divider);
std::vector<double> crossed;
for(unsigned int i = 0; i < cs.size(); i++) {
crossed.push_back(cs[i].ta);
}
std::sort (crossed.begin(), crossed.end());
for(unsigned int i = 0; i < crossed.size(); i++) {
double timeEnd = crossed[i];
Geom::Path portionOriginal = original.portion(timeStart,timeEnd);
Geom::Point sideChecker = portionOriginal.pointAt(0.001);
position = pointSideOfLine(divider[0].finalPoint(), divider[1].finalPoint(), sideChecker);
if(num_copies > 2){
position = pointInTriangle(sideChecker, divider.initialPoint(), divider[0].finalPoint(), divider[1].finalPoint());
}
if(position == 1){
tmp_path.push_back(portionOriginal);
}
portionOriginal.clear();
timeStart = timeEnd;
}
position = pointSideOfLine(divider[0].finalPoint(), divider[1].finalPoint(), original.finalPoint());
if(num_copies > 2){
position = pointInTriangle(original.finalPoint(), divider.initialPoint(), divider[0].finalPoint(), divider[1].finalPoint());
}
if(cs.size() > 0 && position == 1){
Geom::Path portionOriginal = original.portion(timeStart, original.size());
if (!original.closed()){
tmp_path.push_back(portionOriginal);
} else {
if(tmp_path.size() > 0 && tmp_path[0].size() > 0 ){
portionOriginal.setFinal(tmp_path[0].initialPoint());
portionOriginal.append(tmp_path[0]);
tmp_path[0] = portionOriginal;
} else {
tmp_path.push_back(portionOriginal);
}
//temp_path[0].close();
}
portionOriginal.clear();
}
if(cs.size()==0 && position == 1){
tmp_path.push_back(original);
}
path_on = tmp_path;
}
void
LPECopyRotate::setKaleidoscope(std::vector<Geom::Path> &path_on, Geom::Path divider, double sizeDivider){
split(path_on,divider);
std::vector<Geom::Path> tmp_path;
Geom::Affine pre = Geom::Translate(-origin);
for (Geom::PathVector::const_iterator path_it = path_on.begin(); path_it != path_on.end(); ++path_it) {
Geom::Path original = *path_it;
if (path_it->empty()){
continue;
}
std::vector<Geom::Path> tmp_path2;
Geom::Path appendPath = original;
for (int i = 0; i < num_copies; ++i) {
Geom::Rotate rot(-Geom::deg_to_rad(rotation_angle * (i)));
Geom::Affine m = pre * rot * Geom::Translate(origin);
if(i%2 != 0){
Geom::Point A = (Geom::Point)origin;
Geom::Point B = origin + dir * Geom::Rotate(-Geom::deg_to_rad((rotation_angle*i)+starting_angle)) * sizeDivider;
Geom::Affine m1(1.0, 0.0, 0.0, 1.0, A[0], A[1]);
double hyp = Geom::distance(A, B);
double c = (B[0] - A[0]) / hyp; // cos(alpha)
double s = (B[1] - A[1]) / hyp; // sin(alpha)
Geom::Affine m2(c, -s, s, c, 0.0, 0.0);
Geom::Affine sca(1.0, 0.0, 0.0, -1.0, 0.0, 0.0);
Geom::Affine tmpM = m1.inverse() * m2;
m = tmpM;
m = m * sca;
m = m * m2.inverse();
m = m * m1;
} else {
appendPath = original;
}
appendPath *= m;
if(i != 0 && tmp_path2.size() > 0 &&( Geom::are_near(tmp_path2[tmp_path2.size()-1].finalPoint(),appendPath.finalPoint()))){
Geom::Path tmpAppend = appendPath.reverse();
tmpAppend.setInitial(tmp_path2[tmp_path2.size()-1].finalPoint());
tmp_path2[tmp_path2.size()-1].append(tmpAppend);
} else if(i != 0 && tmp_path2.size() > 0 && Geom::are_near(tmp_path2[tmp_path2.size()-1].initialPoint(),appendPath.initialPoint())){
Geom::Path tmpAppend = appendPath;
tmp_path2[tmp_path2.size()-1] = tmp_path2[tmp_path2.size()-1].reverse();
tmpAppend.setInitial(tmp_path2[tmp_path2.size()-1].finalPoint());
tmp_path2[tmp_path2.size()-1].append(tmpAppend);
tmp_path2[tmp_path2.size()-1] = tmp_path2[tmp_path2.size()-1].reverse();
} else if(i != 0 && tmp_path2.size() > 0 && Geom::are_near(tmp_path2[tmp_path2.size()-1].finalPoint(),appendPath.initialPoint())){
Geom::Path tmpAppend = appendPath;
tmpAppend.setInitial(tmp_path2[tmp_path2.size()-1].finalPoint());
tmp_path2[tmp_path2.size()-1].append(tmpAppend);
} else if(i != 0 && tmp_path2.size() > 0 && Geom::are_near(tmp_path2[tmp_path2.size()-1].initialPoint(),appendPath.finalPoint())){
Geom::Path tmpAppend = appendPath.reverse();
tmp_path2[tmp_path2.size()-1] = tmp_path2[tmp_path2.size()-1].reverse();
tmpAppend.setInitial(tmp_path2[tmp_path2.size()-1].finalPoint());
tmp_path2[tmp_path2.size()-1].append(tmpAppend);
tmp_path2[tmp_path2.size()-1] = tmp_path2[tmp_path2.size()-1].reverse();
} else if(i != 0 && tmp_path2.size() > 0 && Geom::are_near(tmp_path2[0].finalPoint(),appendPath.finalPoint())){
Geom::Path tmpAppend = appendPath.reverse();
tmpAppend.setInitial(tmp_path2[0].finalPoint());
tmp_path2[0].append(tmpAppend);
} else if(i != 0 && tmp_path2.size() > 0 && Geom::are_near(tmp_path2[0].initialPoint(),appendPath.initialPoint())){
Geom::Path tmpAppend = appendPath;
tmp_path2[0] = tmp_path2[0].reverse();
tmpAppend.setInitial(tmp_path2[0].finalPoint());
tmp_path2[0].append(tmpAppend);
tmp_path2[0] = tmp_path2[0].reverse();
} else {
tmp_path2.push_back(appendPath);
}
if(tmp_path2.size() > 0 && Geom::are_near(tmp_path2[tmp_path2.size()-1].finalPoint(),tmp_path2[tmp_path2.size()-1].initialPoint())){
tmp_path2[tmp_path2.size()-1].close();
}
}
if(tmp_path2.size() > 0 && Geom::are_near(tmp_path2[0].finalPoint(),tmp_path2[0].initialPoint())){
tmp_path2[0].close();
}
tmp_path.insert(tmp_path.end(), tmp_path2.begin(), tmp_path2.end());
tmp_path2.clear();
}
path_on = tmp_path;
tmp_path.clear();
}
Geom::Piecewise<Geom::D2<Geom::SBasis> >
LPECopyRotate::doEffect_pwd2 (Geom::Piecewise<Geom::D2<Geom::SBasis> > const & pwd2_in)
{
using namespace Geom;
if(num_copies == 1){
return pwd2_in;
}
double diagonal = Geom::distance(Geom::Point(boundingbox_X.min(),boundingbox_Y.min()),Geom::Point(boundingbox_X.max(),boundingbox_Y.max()));
Geom::Rect bbox(Geom::Point(boundingbox_X.min(),boundingbox_Y.min()),Geom::Point(boundingbox_X.max(),boundingbox_Y.max()));
double sizeDivider = Geom::distance(origin,bbox) + (diagonal * 2);
Geom::Point lineStart = origin + dir * Rotate(-deg_to_rad(starting_angle)) * sizeDivider;
Geom::Point lineEnd = origin + dir * Rotate(-deg_to_rad(rotation_angle+starting_angle)) * sizeDivider;
//Note:: beter way to do this
//Whith AppendNew have problems whith the crossing order
Geom::Path divider = Geom::Path(lineStart);
divider.appendNew<Geom::LineSegment>((Geom::Point)origin);
divider.appendNew<Geom::LineSegment>(lineEnd);
Piecewise<D2<SBasis> > output;
Affine pre = Translate(-origin) * Rotate(-deg_to_rad(starting_angle));
if(kaleidoscope){
std::vector<Geom::Path> path_out;
std::vector<Geom::Path> tmp_path;
PathVector const original_pathv = path_from_piecewise(remove_short_cuts(pwd2_in, 0.1), 0.001);
for (Geom::PathVector::const_iterator path_it = original_pathv.begin(); path_it != original_pathv.end(); ++path_it) {
if (path_it->empty()){
continue;
}
bool end_open = false;
if (path_it->closed()) {
const Geom::Curve &closingline = path_it->back_closed();
if (!are_near(closingline.initialPoint(), closingline.finalPoint())) {
end_open = true;
}
}
Geom::Path original = (Geom::Path)(*path_it);
if(end_open && path_it->closed()){
original.close(false);
original.appendNew<Geom::LineSegment>( original.initialPoint() );
original.close(true);
}
tmp_path.push_back(original);
setKaleidoscope(tmp_path,divider,sizeDivider);
path_out.insert(path_out.end(), tmp_path.begin(), tmp_path.end());
tmp_path.clear();
}
if(path_out.size()>0){
output = paths_to_pw(path_out);
}
} else {
for (int i = 0; i < num_copies; ++i) {
Rotate rot(-deg_to_rad(rotation_angle * i));
Affine t = pre * rot * Translate(origin);
output.concat(pwd2_in * t);
}
}
return output;
}
void
LPECopyRotate::addCanvasIndicators(SPLPEItem const */*lpeitem*/, std::vector<Geom::PathVector> &hp_vec)
{
using namespace Geom;
hp_vec.clear();
Geom::Path hp;
hp.start(start_pos);
hp.appendNew<Geom::LineSegment>((Geom::Point)origin);
hp.appendNew<Geom::LineSegment>(origin + dir * Rotate(-deg_to_rad(rotation_angle+starting_angle)) * dist_angle_handle);
Geom::PathVector pathv;
pathv.push_back(hp);
hp_vec.push_back(pathv);
}
void
LPECopyRotate::resetDefaults(SPItem const* item)
{
Effect::resetDefaults(item);
original_bbox(SP_LPE_ITEM(item));
}
void
LPECopyRotate::addKnotHolderEntities(KnotHolder *knotholder, SPDesktop *desktop, SPItem *item) {
{
KnotHolderEntity *e = new CR::KnotHolderEntityStartingAngle(this);
e->create( desktop, item, knotholder, Inkscape::CTRL_TYPE_UNKNOWN,
_("Adjust the starting angle"));
knotholder->add(e);
}
{
KnotHolderEntity *e = new CR::KnotHolderEntityRotationAngle(this);
e->create( desktop, item, knotholder, Inkscape::CTRL_TYPE_UNKNOWN,
_("Adjust the rotation angle"));
knotholder->add(e);
}
};
namespace CR {
using namespace Geom;
void
KnotHolderEntityStartingAngle::knot_set(Geom::Point const &p, Geom::Point const &/*origin*/, guint state)
{
LPECopyRotate* lpe = dynamic_cast<LPECopyRotate *>(_effect);
Geom::Point const s = snap_knot_position(p, state);
// I first suspected the minus sign to be a bug in 2geom but it is
// likely due to SVG's choice of coordinate system orientation (max)
lpe->starting_angle.param_set_value(rad_to_deg(-angle_between(lpe->dir, s - lpe->origin)));
if (state & GDK_SHIFT_MASK) {
lpe->dist_angle_handle = L2(lpe->B - lpe->A);
} else {
lpe->dist_angle_handle = L2(p - lpe->origin);
}
// FIXME: this should not directly ask for updating the item. It should write to SVG, which triggers updating.
sp_lpe_item_update_patheffect (SP_LPE_ITEM(item), false, true);
}
void
KnotHolderEntityRotationAngle::knot_set(Geom::Point const &p, Geom::Point const &/*origin*/, guint state)
{
LPECopyRotate* lpe = dynamic_cast<LPECopyRotate *>(_effect);
Geom::Point const s = snap_knot_position(p, state);
// I first suspected the minus sign to be a bug in 2geom but it is
// likely due to SVG's choice of coordinate system orientation (max)
lpe->rotation_angle.param_set_value(rad_to_deg(-angle_between(lpe->dir, s - lpe->origin)) - lpe->starting_angle);
if (state & GDK_SHIFT_MASK) {
lpe->dist_angle_handle = L2(lpe->B - lpe->A);
} else {
lpe->dist_angle_handle = L2(p - lpe->origin);
}
// FIXME: this should not directly ask for updating the item. It should write to SVG, which triggers updating.
sp_lpe_item_update_patheffect (SP_LPE_ITEM(item), false, true);
}
Geom::Point
KnotHolderEntityStartingAngle::knot_get() const
{
LPECopyRotate const *lpe = dynamic_cast<LPECopyRotate const*>(_effect);
return lpe->start_pos;
}
Geom::Point
KnotHolderEntityRotationAngle::knot_get() const
{
LPECopyRotate const *lpe = dynamic_cast<LPECopyRotate const*>(_effect);
return lpe->rot_pos;
}
} // namespace CR
/* ######################## */
} //namespace LivePathEffect
} /* 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 :