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367 lines
11 KiB
367 lines
11 KiB
/*
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* kis_tool_bezier.cpp -- part of Chalk
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*
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* Copyright (c) 2006 Emanuele Tamponi <emanuele@valinor.it>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#include <math.h>
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#include <tqpainter.h>
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#include <tqlayout.h>
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#include <tqrect.h>
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#include <tdeaction.h>
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#include <kdebug.h>
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#include <tdelocale.h>
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#include <kdebug.h>
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#include <knuminput.h>
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#include "kis_global.h"
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#include "kis_doc.h"
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#include "kis_painter.h"
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#include "kis_point.h"
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#include "kis_canvas_subject.h"
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#include "kis_canvas_controller.h"
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#include "kis_canvas.h"
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#include "kis_canvas_painter.h"
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#include "kis_cursor.h"
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#include "kis_vec.h"
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#include "kis_curve_framework.h"
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#include "kis_tool_bezier.h"
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KisCurve::iterator KisCurveBezier::groupEndpoint (KisCurve::iterator it) const
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{
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iterator temp = it;
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if ((*it).hint() == BEZIERNEXTCONTROLHINT)
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temp -= 1;
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if ((*it).hint() == BEZIERPREVCONTROLHINT)
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temp += 1;
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return temp;
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}
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KisCurve::iterator KisCurveBezier::groupPrevControl (KisCurve::iterator it) const
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{
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iterator temp = it;
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if ((*it).hint() == BEZIERENDHINT)
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temp -= 1;
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if ((*it).hint() == BEZIERNEXTCONTROLHINT)
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temp -= 2;
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return temp;
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}
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KisCurve::iterator KisCurveBezier::groupNextControl (KisCurve::iterator it) const
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{
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iterator temp = it;
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if ((*it).hint() == BEZIERENDHINT)
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temp += 1;
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if ((*it).hint() == BEZIERPREVCONTROLHINT)
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temp += 2;
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return temp;
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}
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bool KisCurveBezier::groupSelected (KisCurve::iterator it) const
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{
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if ((*groupPrevControl(it)).isSelected() || (*groupEndpoint(it)).isSelected() || (*groupNextControl(it)).isSelected())
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return true;
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return false;
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}
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KisCurve::iterator KisCurveBezier::nextGroupEndpoint (KisCurve::iterator it) const
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{
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iterator temp = it;
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if ((*it).hint() == BEZIERPREVCONTROLHINT) {
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temp += 2;
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temp = temp.nextPivot();
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}
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if ((*it).hint() == BEZIERENDHINT) {
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temp += 1;
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temp = temp.nextPivot();
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}
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if ((*it).hint() == BEZIERNEXTCONTROLHINT) {
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temp = temp.nextPivot();
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}
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temp = temp.nextPivot();
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return temp;
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}
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KisCurve::iterator KisCurveBezier::prevGroupEndpoint (KisCurve::iterator it) const
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{
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iterator temp = it;
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if ((*it).hint() == BEZIERNEXTCONTROLHINT) {
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temp -= 1;
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temp = temp.previousPivot().previousPivot();
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}
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if ((*it).hint() == BEZIERENDHINT) {
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temp = temp.previousPivot().previousPivot();
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}
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if ((*it).hint() == BEZIERPREVCONTROLHINT) {
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temp = temp.previousPivot();
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}
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temp = temp.previousPivot();
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return temp;
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}
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KisPoint KisCurveBezier::midpoint (const KisPoint& P1, const KisPoint& P2)
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{
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KisPoint temp;
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temp.setX((P1.x()+P2.x())/2);
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temp.setY((P1.y()+P2.y())/2);
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return temp;
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}
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void KisCurveBezier::recursiveCurve (const KisPoint& P1, const KisPoint& P2, const KisPoint& P3,
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const KisPoint& P4, int level, KisCurve::iterator it)
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{
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if (level > m_maxLevel) {
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addPoint(it,midpoint(P1,P4),false,false,LINEHINT);
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return;
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}
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KisPoint L1, L2, L3, L4;
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KisPoint H, R1, R2, R3, R4;
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L1 = P1;
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L2 = midpoint(P1, P2);
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H = midpoint(P2, P3);
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R3 = midpoint(P3, P4);
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R4 = P4;
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L3 = midpoint(L2, H);
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R2 = midpoint(R3, H);
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L4 = midpoint(L3, R2);
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R1 = L4;
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recursiveCurve(L1, L2, L3, L4, level + 1, it);
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recursiveCurve(R1, R2, R3, R4, level + 1, it);
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}
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void KisCurveBezier::calculateCurve(KisCurve::iterator tstart, KisCurve::iterator tend, KisCurve::iterator)
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{
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if (pivots().count() < 4)
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return;
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iterator origin, dest, control1, control2;
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if ((*tstart).hint() == BEZIERENDHINT) {
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origin = tstart;
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control1 = tstart.nextPivot();
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} else if ((*tstart).hint() == BEZIERNEXTCONTROLHINT) {
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origin = tstart.previousPivot();
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control1 = tstart;
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} else if ((*tstart).hint() == BEZIERPREVCONTROLHINT) {
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origin = tstart.nextPivot();
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control1 = origin.nextPivot();
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} else
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return;
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if ((*tend).hint() == BEZIERENDHINT) {
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dest = tend;
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control2 = tend.previousPivot();
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} else if ((*tend).hint() == BEZIERPREVCONTROLHINT) {
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dest = tend.nextPivot();
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control2 = tend;
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} else if ((*tend).hint() == BEZIERNEXTCONTROLHINT) {
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dest = tend.previousPivot();
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control2 = dest.previousPivot();
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} else
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return;
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deleteCurve(control1,control2);
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recursiveCurve((*origin).point(),(*control1).point(),(*control2).point(),(*dest).point(),1,control2);
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}
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KisCurve::iterator KisCurveBezier::pushPivot (const KisPoint& point)
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{
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iterator it;
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it = pushPoint(point,true,false,BEZIERENDHINT);
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if (count() > 1)
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addPoint(it,point,true,false,BEZIERPREVCONTROLHINT);
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it = pushPoint(point,true,false,BEZIERNEXTCONTROLHINT);
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return selectPivot(it);
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}
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KisCurve::iterator KisCurveBezier::movePivot(KisCurve::iterator it, const KisPoint& newPt)
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{
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if (!(*it).isPivot())
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return end();
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int hint = (*it).hint();
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iterator thisEnd, prevEnd, nextEnd;
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thisEnd = groupEndpoint(it);
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prevEnd = prevGroupEndpoint(it);
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nextEnd = nextGroupEndpoint(it);
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if (hint == BEZIERENDHINT) {
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KisPoint trans = newPt - (*it).point();
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(*thisEnd).setPoint((*thisEnd).point()+trans);
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(*thisEnd.previous()).setPoint((*thisEnd.previous()).point()+trans);
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(*thisEnd.next()).setPoint((*thisEnd.next()).point()+trans);
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} else if (!(m_actionOptions & KEEPSELECTEDOPTION))
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(*it).setPoint(newPt);
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if (!(m_actionOptions & KEEPSELECTEDOPTION) && hint != BEZIERENDHINT) {
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if (nextEnd == end() || (m_actionOptions & SYMMETRICALCONTROLSOPTION)) {
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KisPoint trans = (*it).point() - (*thisEnd).point();
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trans = KisPoint(-trans.x()*2,-trans.y()*2);
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if (hint == BEZIERNEXTCONTROLHINT)
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(*groupPrevControl(it)).setPoint(newPt+trans);
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else
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(*groupNextControl(it)).setPoint(newPt+trans);
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}
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}
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if (nextEnd != end() && count() > 4)
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calculateCurve (thisEnd,nextEnd,iterator());
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if (prevEnd != thisEnd && count() > 4)
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calculateCurve (prevEnd,thisEnd,iterator());
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return it;
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}
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void KisCurveBezier::deletePivot (KisCurve::iterator it)
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{
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if (!(*it).isPivot())
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return;
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iterator prevControl,thisEnd,nextControl;
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prevControl = prevGroupEndpoint(it).nextPivot();
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thisEnd = groupEndpoint(it);
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nextControl = nextGroupEndpoint(it).previousPivot();
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if ((*thisEnd) == first()) {
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deleteFirstPivot();
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deleteFirstPivot();
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deleteFirstPivot();
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} else if ((*thisEnd.next()) == last()) {
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deleteLastPivot();
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deleteLastPivot();
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deleteLastPivot();
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} else {
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deleteCurve(prevControl,nextControl);
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calculateCurve(prevControl,nextControl,iterator());
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}
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}
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KisToolBezier::KisToolBezier(const TQString& UIName)
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: super(UIName)
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{
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m_derivated = new KisCurveBezier;
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m_curve = m_derivated;
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m_supportMinimalDraw = false;
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m_transactionMessage = i18n("Bezier Curve");
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}
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KisToolBezier::~KisToolBezier()
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{
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}
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KisCurve::iterator KisToolBezier::handleUnderMouse(const TQPoint& pos)
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{
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TQPoint qpos;
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KisCurve pivs = m_curve->pivots(), inHandle;
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KisCurve::iterator it;
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int hint;
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for (it = pivs.begin(); it != pivs.end(); it++) {
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qpos = m_subject->canvasController()->windowToView((*it).point().toTQPoint());
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hint = (*it).hint();
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if (hint != BEZIERENDHINT && !m_derivated->groupSelected(it))
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continue;
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if (hint == BEZIERENDHINT && (m_actionOptions & SHIFTOPTION))
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continue;
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if (pivotRect(qpos).contains(pos)) {
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inHandle.pushPoint((*it));
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if (hint == BEZIERENDHINT && !(m_actionOptions & SHIFTOPTION))
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break;
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if (hint != BEZIERENDHINT && (m_actionOptions & SHIFTOPTION))
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break;
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}
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}
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if (inHandle.isEmpty())
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return m_curve->end();
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return m_curve->find(inHandle.last());
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}
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KisCurve::iterator KisToolBezier::drawPoint (KisCanvasPainter& gc, KisCurve::iterator point)
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{
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if ((*point).hint() != BEZIERENDHINT)
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return ++point;
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KisCanvasController *controller = m_subject->canvasController();
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// Now draw the bezier
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KisCurve::iterator origin,control1,control2,destination;
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origin = point;
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control1 = origin.next();
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control2 = control1.nextPivot();
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destination = control2.next();
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if (control2 != m_curve->end()) {
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point = control2;
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TQPointArray vec(4);
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vec[0] = controller->windowToView((*origin).point().toTQPoint());
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vec[1] = controller->windowToView((*control1).point().toTQPoint());
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vec[2] = controller->windowToView((*control2).point().toTQPoint());
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vec[3] = controller->windowToView((*destination).point().toTQPoint());
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gc.drawCubicBezier(vec);
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}
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point += 1;
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return point;
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}
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void KisToolBezier::drawPivotHandle (KisCanvasPainter& gc, KisCurve::iterator point)
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{
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if ((*point).hint() != BEZIERENDHINT)
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return;
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KisCanvasController *controller = m_subject->canvasController();
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TQPoint endpPos = controller->windowToView((*point).point().toTQPoint());
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if (!m_derivated->groupSelected(point)) {
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gc.setPen(m_pivotPen);
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gc.drawRoundRect(pivotRect(endpPos),m_pivotRounding,m_pivotRounding);
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} else {
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TQPoint nextControlPos = controller->windowToView((*point.next()).point().toTQPoint());
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TQPoint prevControlPos = controller->windowToView((*point.previousPivot()).point().toTQPoint());
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gc.setPen(m_selectedPivotPen);
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gc.drawRoundRect(selectedPivotRect(endpPos),m_selectedPivotRounding,m_selectedPivotRounding);
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if ((prevControlPos != endpPos || nextControlPos != endpPos) && !(m_actionOptions & CONTROLOPTION)) {
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gc.drawRoundRect(pivotRect(nextControlPos),m_pivotRounding,m_pivotRounding);
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gc.drawLine(endpPos,nextControlPos);
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gc.drawRoundRect(pivotRect(prevControlPos),m_pivotRounding,m_pivotRounding);
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gc.drawLine(prevControlPos,endpPos);
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}
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}
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gc.setPen(m_drawingPen);
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}
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#include "kis_tool_bezier.moc"
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