diff options
Diffstat (limited to 'krita/plugins/tools/tool_curves/kis_tool_moutline.cc')
-rw-r--r-- | krita/plugins/tools/tool_curves/kis_tool_moutline.cc | 809 |
1 files changed, 0 insertions, 809 deletions
diff --git a/krita/plugins/tools/tool_curves/kis_tool_moutline.cc b/krita/plugins/tools/tool_curves/kis_tool_moutline.cc deleted file mode 100644 index 1f0c4ac2..00000000 --- a/krita/plugins/tools/tool_curves/kis_tool_moutline.cc +++ /dev/null @@ -1,809 +0,0 @@ -/* - * kis_tool_moutline.cc -- part of Krita - * - * Copyright (c) 2006 Emanuele Tamponi <[email protected]> - * - * This program is free software; you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation; either version 2 of the License, or - * (at your option) any later version. - * - * This program is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - * - * You should have received a copy of the GNU General Public License - * along with this program; if not, write to the Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - */ - -#include <math.h> -#include <set> - -#include <tqpainter.h> -#include <tqlayout.h> -#include <tqrect.h> -#include <tqlabel.h> -#include <tqpushbutton.h> -#include <tqslider.h> - -#include <kaction.h> -#include <kdebug.h> -#include <klocale.h> -#include <kdebug.h> -#include <knuminput.h> - -#include "kis_global.h" -#include "kis_iterators_pixel.h" -#include "kis_colorspace.h" -#include "kis_channelinfo.h" -#include "kis_doc.h" -#include "kis_painter.h" -#include "kis_point.h" -#include "kis_canvas_subject.h" -#include "kis_canvas_controller.h" -#include "kis_button_press_event.h" -#include "kis_button_release_event.h" -#include "kis_move_event.h" -#include "kis_canvas.h" -#include "kis_canvas_painter.h" -#include "kis_cursor.h" -#include "kis_tool_controller.h" -#include "kis_vec.h" -#include "kis_selection.h" -#include "kis_selection_options.h" -#include "kis_selected_transaction.h" -#include "kis_paintop_registry.h" -#include "kis_convolution_painter.h" - -#include "kis_tool_moutline.h" - -using namespace std; - -#define RMS(a, b) (sqrt ((a) * (a) + (b) * (b))) -#define ROUND(x) ((int) ((x) + 0.5)) - -const int NOEDGE = 0x0000; - -const int ORTHOGONAL_COST = 10; // 1*10 -const int DIAGONAL_COST = 14; // sqrt(2)*10 -const int MALUS = 20; // This applies to NOEDGE nodes - -const int DEFAULTDIST = 40; // Default distance between two automatic pivots -const int MAXDIST = 55; // Max distance -const int MINDIST = 15; -const int PAGESTEP = 5; - -class Node { - - TQPoint m_pos; - int m_gCost; - int m_hCost; - int m_tCost; - bool m_malus; - TQPoint m_parent; - -public: - - Node() - { - m_pos = m_parent = TQPoint(-1,-1); - m_gCost = m_hCost = m_tCost = 0; - m_malus = false; - } - - Node(const Node& node) - { - m_pos = node.pos(); - m_gCost = node.gCost(); - m_hCost = node.hCost(); - m_tCost = node.tCost(); - m_malus = node.malus(); - m_parent = node.tqparent(); - } - - Node(const TQPoint& tqparent, const TQPoint& pos, int g, int h, bool malus) - : m_pos(pos), m_hCost(h), m_malus(malus) - { - setGCost(g); - m_parent = tqparent; - } - ~Node () - { - } - - int gCost () const {return m_gCost;} - int hCost () const {return m_hCost;} - int tCost () const {return m_tCost;} - bool malus () const {return m_malus;} - TQPoint pos () const {return m_pos;} - int col () const {return m_pos.x();} - int row () const {return m_pos.y();} - TQPoint tqparent () const {return m_parent;} - - void setGCost (int g) - { - m_gCost = g+(m_malus?MALUS:0); - m_tCost = m_gCost+m_hCost; - } - void setHCost (int h) - { - m_hCost = h; - m_tCost = m_gCost+m_hCost; - } - void setPos (const TQPoint& pos) - { - m_pos = pos; - } - void setMalus (bool malus) - { - m_malus = malus; - } - void clear () - { - m_pos = TQPoint(-1,-1); - } - - bool operator== (const Node& n2) const - { - return m_pos == n2.pos(); - } - bool operator!= (const Node& n2) const - { - return m_pos != n2.pos(); - } - bool operator== (const TQPoint& n2) const - { - return m_pos == n2; - } - bool operator!= (const TQPoint& n2) const - { - return m_pos != n2; - } - bool operator< (const Node& n2) const - { - return m_tCost < n2.tCost(); - } - bool operator> (const Node& n2) const - { - return m_tCost > n2.tCost(); - } - - TQValueList<Node> getNeighbor(const GrayMatrix& src, const Node& end) - { - TQPoint tmpdist; - TQValueList<Node> temp; - int dcol, drow; - int g, h; - bool malus; - int x[8] = { 1, 1, 0,-1,-1,-1, 0, 1}, - y[8] = { 0,-1,-1,-1, 0, 1, 1, 1}; - - for (int i = 0; i < 8; i++) { - dcol = m_pos.x() + x[i]; - drow = m_pos.y() + y[i]; - tmpdist = TQPoint(dcol,drow) - end.pos(); - // I use src[0] here because all cols have same number of rows - if (dcol == (int)src.count() || dcol < 0 || - drow == (int)src[0].count() || drow < 0) - continue; - if (src[dcol][drow]) - malus = false; - else - malus = true; - if (i%2) - g = m_gCost + DIAGONAL_COST; - else - g = m_gCost + ORTHOGONAL_COST; - h = ORTHOGONAL_COST * (abs(tmpdist.x()) + abs(tmpdist.y())); - temp.append(Node(m_pos,TQPoint(dcol,drow),g,h,malus)); - } - return temp; - } - -}; - -KisKernelSP createKernel( TQ_INT32 i0, TQ_INT32 i1, TQ_INT32 i2, - TQ_INT32 i3, TQ_INT32 i4, TQ_INT32 i5, - TQ_INT32 i6, TQ_INT32 i7, TQ_INT32 i8, - TQ_INT32 factor, TQ_INT32 offset ) -{ - KisKernelSP kernel = new KisKernel(); - kernel->width = 3; - kernel->height = 3; - - kernel->factor = factor; - kernel->offset = offset; - - kernel->data = new TQ_INT32[9]; - kernel->data[0] = i0; - kernel->data[1] = i1; - kernel->data[2] = i2; - kernel->data[3] = i3; - kernel->data[4] = i4; - kernel->data[5] = i5; - kernel->data[6] = i6; - kernel->data[7] = i7; - kernel->data[8] = i8; - - return kernel; -} - -KisCurveMagnetic::KisCurveMagnetic (KisToolMagnetic *tqparent) - : m_parent(tqparent) -{ - m_standardkeepselected = false; -} - -KisCurveMagnetic::~KisCurveMagnetic () -{ - -} - -KisCurve::iterator KisCurveMagnetic::addPivot (KisCurve::iterator it, const KisPoint& point) -{ - return iterator(*this,m_curve.insert(it.position(), CurvePoint(point,true,false,LINEHINT))); -} - -KisCurve::iterator KisCurveMagnetic::pushPivot (const KisPoint& point) -{ - iterator it; - - it = pushPoint(point,true,false,LINEHINT); -// if (count() == 1 && !m_parent->editingMode()) -// addPoint(it,point,true,false,LINEHINT); - - return selectPivot(it); -} - -void KisCurveMagnetic::calculateCurve (KisCurve::iterator p1, KisCurve::iterator p2, KisCurve::iterator it) -{ - if (p1 == m_curve.end() || p2 == m_curve.end()) // It happens sometimes, for example on the first click - return; - if (m_parent->editingMode()) - return; - TQPoint start = (*p1).point().roundTQPoint(); - TQPoint end = (*p2).point().roundTQPoint(); - TQRect rc = TQRect(start,end).normalize(); - rc.setTopLeft(rc.topLeft()+TQPoint(-8,-8)); // Enlarge the view, so problems with gaussian blur can be removed - rc.setBottomRight(rc.bottomRight()+TQPoint(8,8)); // and we are able to find paths that go beyond the rect. - - KisPaintDeviceSP src = m_parent->m_currentImage->activeDevice(); - GrayMatrix dst = GrayMatrix(rc.width(),GrayCol(rc.height())); - - detectEdges (rc, src, dst); - reduceMatrix (rc, dst, 3, 3, 3, 3); - - Node startNode, endNode; - multiset<Node> openSet; - NodeMatrix openMatrix = NodeMatrix(rc.width(),NodeCol(rc.height())); - NodeMatrix closedMatrix = NodeMatrix(rc.width(),NodeCol(rc.height())); - - TQPoint tl(rc.topLeft().x(),rc.topLeft().y()); - start -= tl; // Relative to the matrix - end -= tl; // Relative to the matrix - - findEdge (start.x(), start.y(), dst, startNode); - openMatrix[startNode.col()][startNode.row()] = *openSet.insert(startNode); - endNode.setPos(end); - - while (!openSet.empty()) { - Node current = *openSet.begin(); - - openSet.erase(openSet.begin()); - openMatrix[current.col()][current.row()].clear(); - - TQValueList<Node> successors = current.getNeighbor(dst,endNode); - for (TQValueList<Node>::iterator i = successors.begin(); i != successors.end(); i++) { - int col = (*i).col(); - int row = (*i).row(); - if ((*i) == endNode) { - while (current.tqparent() != TQPoint(-1,-1)) { - it = addPoint(it,tl+current.pos(),false,false,LINEHINT); - current = closedMatrix[current.tqparent().x()][current.tqparent().y()]; - } - return; - } - Node *openNode = &openMatrix[col][row]; - if (*openNode != TQPoint(-1,-1)) { - if (*i > *openNode) - continue; - else { - openSet.erase(tqFind(openSet.begin(),openSet.end(),*openNode)); - openNode->clear(); // Clear the Node - } - } - Node *closedNode = &closedMatrix[col][row]; - if (*closedNode != TQPoint(-1,-1)) { - if ((*i) > (*closedNode)) - continue; - else { - openMatrix[col][row] = *openSet.insert(*closedNode); - closedNode->clear(); // Clear the Node - continue; - } - } - openMatrix[col][row] = *openSet.insert(*i); - } - closedMatrix[current.col()][current.row()] = current; - } -} - -void KisCurveMagnetic::findEdge (int col, int row, const GrayMatrix& src, Node& node) -{ - int x = -1; - int y = -1; - - // tmpdist out of range - KisVector2D mindist(5.0,5.0), tmpdist(1000.0,1000.0); - for (int i = -5; i < 6; i++) { - for (int j = -5; j < 6; j++) { - if (src[col+i][row+j] != NOEDGE) { - tmpdist = KisVector2D(i,j); - if (tmpdist.length() < mindist.length()) - mindist = tmpdist; - } - } - } - if (tmpdist.x() == 1000.0) - mindist = KisVector2D(0.0,0.0); - - x = (int)(col + mindist.x()); - y = (int)(row + mindist.y()); - - node.setPos(TQPoint(x,y)); -} - -void KisCurveMagnetic::reduceMatrix (TQRect& rc, GrayMatrix& m, int top, int right, int bottom, int left) -{ - TQPoint topleft(top, left); - TQPoint bottomright(bottom, right); - - rc.setTopLeft(rc.topLeft()+topleft); - rc.setBottomRight(rc.bottomRight()-bottomright); - - if (left) - m.erase(m.begin(),m.begin()+left); - if (right) - m.erase(m.end()-right,m.end()); - if (top) { - for (uint i = 0; i < m.count(); i++) - m[i].erase(m[i].begin(),m[i].begin()+top); - } - if (bottom) { - for (uint i = 0; i < m.count(); i++) - m[i].erase(m[i].end()-bottom,m[i].end()); - } -} - -void KisCurveMagnetic::detectEdges (const TQRect & rect, KisPaintDeviceSP src, GrayMatrix& dst) -{ - GrayMatrix graysrc(rect.width(),GrayCol(rect.height())); - GrayMatrix xdeltas(rect.width(),GrayCol(rect.height())); - GrayMatrix ydeltas(rect.width(),GrayCol(rect.height())); - GrayMatrix magnitude(rect.width(),GrayCol(rect.height())); - KisPaintDeviceSP smooth = new KisPaintDevice(src->colorSpace()); - - gaussianBlur(rect, src, smooth); - toGrayScale(rect, smooth, graysrc); - getDeltas(graysrc, xdeltas, ydeltas); - getMagnitude(xdeltas, ydeltas, magnitude); - nonMaxSupp(magnitude, xdeltas, ydeltas, dst); -} - -void KisCurveMagnetic::gaussianBlur (const TQRect& rect, KisPaintDeviceSP src, KisPaintDeviceSP dst) -{ - int grectx = rect.x(); - int grecty = rect.y(); - int grectw = rect.width(); - int grecth = rect.height(); - if (dst != src) { - KisPainter gc(dst); - gc.bitBlt(grectx, grecty, COMPOSITE_COPY, src, grectx, grecty, grectw, grecth); - gc.end(); - } - - KisConvolutionPainter painter( dst ); - // FIXME createKernel could create dynamic gaussian kernels having sigma as argument - KisKernelSP kernel = createKernel( 1, 1, 1, 1, 24, 1, 1, 1, 1, 32, 0); - painter.applyMatrix(kernel, grectx, grecty, grectw, grecth, BORDER_AVOID); -} - -void KisCurveMagnetic::toGrayScale (const TQRect& rect, KisPaintDeviceSP src, GrayMatrix& dst) -{ - int grectx = rect.x(); - int grecty = rect.y(); - int grectw = rect.width(); - int grecth = rect.height(); - TQColor c; - KisColorSpace *cs = src->colorSpace(); - - for (int row = 0; row < grecth; row++) { - KisHLineIteratorPixel srcIt = src->createHLineIterator(grectx, grecty+row, grectw, false); - for (int col = 0; col < grectw; col++) { - cs->toTQColor(srcIt.rawData(),&c); - dst[col][row] = tqGray(c.rgb()); - ++srcIt; - } - } -} - -void KisCurveMagnetic::getDeltas (const GrayMatrix& src, GrayMatrix& xdelta, GrayMatrix& ydelta) -{ - uint start = 1, xend = src[0].count()-1, yend = src.count()-1; - TQ_INT16 deri; - for (uint col = 0; col < src.count(); col++) { - for (uint row = 0; row < src[col].count(); row++) { - if (row >= start && row < xend) { - deri = src[col][row+1] - src[col][row-1]; - xdelta[col][row] = deri; - } else - xdelta[col][row] = 0; - if (col >= start && col < yend) { - deri = src[col+1][row] - src[col-1][row]; - ydelta[col][row] = deri; - } else - ydelta[col][row] = 0; - } - } -} - -void KisCurveMagnetic::getMagnitude (const GrayMatrix& xdelta, const GrayMatrix& ydelta, GrayMatrix& gradient) -{ - for (uint col = 0; col < xdelta.count(); col++) { - for (uint row = 0; row < xdelta[col].count(); row++) - gradient[col][row] = (TQ_INT16)(ROUND(RMS(xdelta[col][row],ydelta[col][row]))); - } -} - -void KisCurveMagnetic::nonMaxSupp (const GrayMatrix& magnitude, const GrayMatrix& xdelta, const GrayMatrix& ydelta, GrayMatrix& nms) -{ - // Directions: - // 1: 0 - 22.5 degrees - // 2: 22.5 - 67.5 degrees - // 3: 67.5 - 90 degrees - // Second direction is relative to a quadrant. The quadrant is known by looking at x and y derivatives - // First quadrant: Gx < 0 & Gy >= 0 - // Second quadrant: Gx < 0 & Gy < 0 - // Third quadrant: Gx >= 0 & Gy < 0 - // Fourth quadrant: Gx >= 0 & Gy >= 0 - // For this reason: first direction is relative to Gy only and third direction to Gx only - - double theta; // theta = invtan (|Gy| / |Gx|) This give the direction relative to a quadrant - TQ_INT16 mag; // Current magnitude - TQ_INT16 lmag; // Magnitude at the left (So this pixel is "more internal" than the current - TQ_INT16 rmag; // Magnitude at the right (So this pixel is "more external") - double xdel; // Current xdelta - double ydel; // Current ydelta - TQ_INT16 result; - - for (uint col = 0; col < magnitude.count(); col++) { - for (uint row = 0; row < magnitude[col].count(); row++) { - mag = magnitude[col][row]; - if (!mag || row == 0 || row == (magnitude[col].count()-1) || - col == 0 || col == (magnitude.count()-1)) - { - result = NOEDGE; - } else { - xdel = (double)xdelta[col][row]; - ydel = (double)ydelta[col][row]; - theta = atan(fabs(ydel)/fabs(xdel)); - if (theta < 0) - theta = fabs(theta)+M_PI_2; - theta = (theta * 360.0) / (2.0*M_PI); // Radians -> degrees - if (theta >= 0 && theta < 22.5) { // .0 - .3926990816 - if (ydel >= 0) { - lmag = magnitude[col][row-1]; - rmag = magnitude[col][row+1]; - } else { - lmag = magnitude[col][row+1]; - rmag = magnitude[col][row-1]; - } - } - if (theta >= 22.5 && theta < 67.5) { // .3926990816 - 1.1780972449 - if (xdel >= 0) { - if (ydel >= 0) { - lmag = magnitude[col-1][row-1]; - rmag = magnitude[col+1][row+1]; - } else { - lmag = magnitude[col+1][row-1]; - rmag = magnitude[col-1][row+1]; - } - } else { - if (ydel >= 0) { - lmag = magnitude[col-1][row+1]; - rmag = magnitude[col+1][row-1]; - } else { - lmag = magnitude[col+1][row+1]; - rmag = magnitude[col-1][row-1]; - } - } - } - if (theta >= 67.5 && theta <= 90.0) { // 1.1780972449 - 1.5707963266 - if (xdel >= 0) { - lmag = magnitude[col+1][row]; - rmag = magnitude[col-1][row]; - } else { - lmag = magnitude[col-1][row]; - rmag = magnitude[col+1][row]; - } - } - - if ((mag < lmag) || (mag < rmag)) { - result = NOEDGE; - } else { - if (rmag == mag) // If the external magnitude is equal to the current, suppress current. - result = NOEDGE; - else - result = (mag > 255) ? 255 : mag; - } - } - nms[col][row] = result; - } - } -} - -KisToolMagnetic::KisToolMagnetic () - : super("Magnetic Outline Tool") -{ - setName("tool_moutline"); - setCursor(KisCursor::load("tool_moutline_cursor.png", 6, 6)); - - m_editingMode = false; - m_editingCursor = m_draggingCursor = false; - - m_mode = 0; - m_curve = m_derived = 0; - m_current = m_previous = 0; - - m_distance = DEFAULTDIST; - - m_transactionMessage = i18n("Magnetic Outline Selection"); -} - -KisToolMagnetic::~KisToolMagnetic () -{ - m_curve = 0; - delete m_derived; -} - -void KisToolMagnetic::update (KisCanvasSubject *subject) -{ - super::update(subject); -} - -void KisToolMagnetic::activate () -{ - super::activate(); - if (!m_derived) { - m_derived = new KisCurveMagnetic(this); - m_curve = m_derived; - } -} - -void KisToolMagnetic::deactivate () -{ - m_curve->endActionOptions(); - m_actionOptions = NOOPTIONS; - m_dragging = false; - m_drawPivots = true; -} - -void KisToolMagnetic::keyPress(TQKeyEvent *event) -{ - if (event->key() == TQt::Key_Control) { - draw(false); - if (m_editingMode) { - m_editingMode = false; - if (m_current != 0) - m_curve->selectPivot(m_current,false); - m_mode->setText(i18n("Automatic Mode")); - } else { - m_editingMode = true; - m_mode->setText(i18n("Manual Mode")); - } - draw(false); - } else if (event->key() == TQt::Key_Delete && m_curve->count()) { - draw(false); - m_dragging = false; - if (m_curve->pivots().count() == 2) - m_curve->clear(); - else { - if ((*m_current) == m_curve->last() && !(m_editingMode)) { - m_curve->deletePivot(m_current.previousPivot()); - m_previous = m_current.previousPivot(); - } else { - m_editingMode = false; - m_curve->deletePivot(m_current); - m_previous = m_current = m_curve->selectPivot(m_curve->lastIterator()); - m_editingMode = true; - } - } - draw(false); - } else - super::keyPress(event); -} - -void KisToolMagnetic::buttonRelease(KisButtonReleaseEvent *event) -{ - if (m_editingMode) { - draw(m_current); - m_editingMode = false; - if (!m_curve->isEmpty()) - m_curve->movePivot(m_current, m_currentPoint); - m_editingMode = true; - draw(m_current); - } - super::buttonRelease(event); -} - -void KisToolMagnetic::buttonPress(KisButtonPressEvent *event) -{ - updateOptions(event->state()); - if (!m_currentImage) - return; - if (event->button() == Qt::LeftButton) { - m_dragging = true; - m_currentPoint = event->pos(); - PointPair temp(m_curve->end(),false); - if (m_editingMode) - temp = pointUnderMouse (m_subject->canvasController()->windowToView(event->pos().toTQPoint())); - if (temp.first == m_curve->end() && !(m_actionOptions)) { - if (m_editingMode) { - draw(true, true); - m_curve->selectAll(false); - draw(true, true); - } - draw(m_curve->end()); - if (!m_curve->isEmpty()) { - m_previous = m_current; - m_current = m_curve->pushPivot(event->pos()); - } else { - m_previous = m_current = m_curve->pushPivot(event->pos()); - } - if (m_curve->pivots().count() > 1) - m_curve->calculateCurve(m_previous,m_current,m_current); - if (m_editingMode) - draw(); - else { - if ((*m_previous).point() == (*m_current).point()) - draw(m_curve->end()); - else - draw(); - } - } else if (temp.first != m_curve->end() && m_editingMode) { - if (temp.second) { - draw(true, true); - m_current = m_curve->selectPivot(temp.first); - draw(true, true); - } else { - draw(false); - m_current = selectByMouse(temp.first); - draw(false); - } - if (!(*m_current).isSelected()) - m_dragging = false; - } - } -} - -void KisToolMagnetic::move(KisMoveEvent *event) -{ - updateOptions(event->state()); - if (m_currentPoint == event->pos().floorTQPoint()) - return; - if (m_editingMode) { - PointPair temp = pointUnderMouse(m_subject->canvasController()->windowToView(event->pos().toTQPoint())); - if (temp.first == m_curve->end() && !m_dragging) { - if (m_editingCursor || m_draggingCursor) { - setCursor(KisCursor::load("tool_moutline_cursor.png", 6, 6)); - m_editingCursor = m_draggingCursor = false; - } - } else { - if (!m_draggingCursor && temp.second) { - setCursor(KisCursor::load("tool_moutline_dragging.png", 6, 6)); - m_editingCursor = false; - m_draggingCursor = true; - } - if (!m_editingCursor && !temp.second) { - setCursor(KisCursor::load("tool_moutline_editing.png", 6, 6)); - m_editingCursor = true; - m_draggingCursor = false; - } - } - if (!m_dragging) - return; - } else { - if (m_editingCursor || m_draggingCursor) { - setCursor(KisCursor::load("tool_moutline_cursor.png", 6, 6)); - m_editingCursor = m_draggingCursor = false; - } - } - if (m_curve->selectedPivots().isEmpty()) - return; - - KisPoint trans = event->pos() - m_currentPoint; - KisPoint dist; - dist = (*m_current).point() - (*m_current.previousPivot()).point(); - if ((m_distance >= MINDIST && (fabs(dist.x()) + fabs(dist.y())) > m_distance && !(m_editingMode)) - || m_curve->pivots().count() == 1) { - draw(m_curve->end()); - m_previous = m_current; - m_current = m_curve->pushPivot(event->pos()); - } else if ((*m_previous).point() == (*m_current).point() && (*m_previous).point() == m_curve->last().point()) - draw(m_curve->end()); - else - draw(m_current); - m_curve->movePivot(m_current,event->pos()); - m_currentPoint = event->pos().floorTQPoint(); - draw(m_current); -} - -KisCurve::iterator KisToolMagnetic::selectByMouse(KisCurve::iterator it) -{ - KisCurve::iterator currPivot = m_curve->selectPivot(m_curve->addPivot(it, KisPoint(0,0))); - m_curve->movePivot(currPivot,(*it).point()); - - return currPivot; -} - -void KisToolMagnetic::slotCommitCurve () -{ - if (!m_curve->isEmpty()) - commitCurve(); -} - -void KisToolMagnetic::slotSetDistance (int dist) -{ - m_distance = dist; -} - -TQWidget* KisToolMagnetic::createOptionWidget(TQWidget* tqparent) -{ - m_optWidget = super::createOptionWidget(tqparent); - TQVBoxLayout * l = dynamic_cast<TQVBoxLayout*>(m_optWidget->tqlayout()); - TQGridLayout *box = new TQGridLayout(l, 2, 2, 3); - box->setColStretch(0, 1); - box->setColStretch(1, 1); - Q_CHECK_PTR(box); - - m_mode = new TQLabel(i18n("Automatic mode"), m_optWidget); - m_lbDistance = new TQLabel(i18n("Distance: "), m_optWidget); - TQPushButton *finish = new TQPushButton(i18n("To Selection"), m_optWidget); - m_slDistance = new TQSlider(MINDIST, MAXDIST, PAGESTEP, m_distance, Qt::Horizontal, m_optWidget); - - connect(m_slDistance, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotSetDistance(int))); - connect(finish, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotCommitCurve())); - - box->addWidget(m_lbDistance, 0, 0); - box->addWidget(m_slDistance, 0, 1); - box->addWidget(m_mode, 1, 0); - box->addWidget(finish, 1, 1); - - return m_optWidget; -} - -void KisToolMagnetic::setup(KActionCollection *collection) -{ - m_action = static_cast<KRadioAction *>(collection->action(name())); - - if (m_action == 0) { - KShortcut shortcut(TQt::Key_Plus); - shortcut.append(KShortcut(TQt::Key_F9)); - m_action = new KRadioAction(i18n("Magnetic Outline"), - "tool_moutline", - shortcut, - this, - TQT_SLOT(activate()), - collection, - name()); - Q_CHECK_PTR(m_action); - - m_action->setToolTip(i18n("Magnetic Selection: move around an edge to select it. Hit Ctrl to enter/quit manual mode, and double click to finish.")); - m_action->setExclusiveGroup("tools"); - m_ownAction = true; - } -} - -#include "kis_tool_moutline.moc" |