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#include "tikzit.h"
#include "util.h"
#include "tikzscene.h"
#include "undocommands.h"
#include <QPen>
#include <QBrush>
#include <QDebug>
TikzScene::TikzScene(TikzDocument *tikzDocument, QObject *parent) :
QGraphicsScene(parent), _tikzDocument(tikzDocument)
{
_modifyEdgeItem = 0;
_drawEdgeItem = new QGraphicsLineItem();
setSceneRect(-310,-230,620,450);
QPen pen;
pen.setColor(QColor::fromRgbF(0.5f, 0.0f, 0.5f));
pen.setWidth(3);
_drawEdgeItem->setPen(pen);
_drawEdgeItem->setLine(0,0,0,0);
_drawEdgeItem->setVisible(false);
addItem(_drawEdgeItem);
}
TikzScene::~TikzScene() {
}
Graph *TikzScene::graph()
{
return _tikzDocument->graph();
}
void TikzScene::graphReplaced()
{
foreach (NodeItem *ni, _nodeItems) {
removeItem(ni);
delete ni;
}
_nodeItems.clear();
foreach (EdgeItem *ei, _edgeItems) {
removeItem(ei);
delete ei;
}
_edgeItems.clear();
foreach (Edge *e, graph()->edges()) {
EdgeItem *ei = new EdgeItem(e);
_edgeItems.insert(e, ei);
addItem(ei);
}
foreach (Node *n, graph()->nodes()) {
NodeItem *ni = new NodeItem(n);
_nodeItems.insert(n, ni);
addItem(ni);
}
}
void TikzScene::mousePressEvent(QGraphicsSceneMouseEvent *event)
{
// current mouse position, in scene coordinates
QPointF mousePos = event->scenePos();
// disable rubber band drag, which will clear the selection. Only re-enable it
// for the SELECT tool, and when no control point has been clicked.
views()[0]->setDragMode(QGraphicsView::NoDrag);
// radius of a control point for bezier edges, in scene coordinates
qreal cpR = GLOBAL_SCALEF * (0.05);
qreal cpR2 = cpR * cpR;
switch (tikzit->toolPalette()->currentTool()) {
case ToolPalette::SELECT:
// check if we grabbed a control point of an edge
foreach (QGraphicsItem *gi, selectedItems()) {
if (EdgeItem *ei = dynamic_cast<EdgeItem*>(gi)) {
qreal dx, dy;
dx = ei->cp1Item()->pos().x() - mousePos.x();
dy = ei->cp1Item()->pos().y() - mousePos.y();
if (dx*dx + dy*dy <= cpR2) {
_modifyEdgeItem = ei;
_firstControlPoint = true;
break;
}
dx = ei->cp2Item()->pos().x() - mousePos.x();
dy = ei->cp2Item()->pos().y() - mousePos.y();
if (dx*dx + dy*dy <= cpR2) {
_modifyEdgeItem = ei;
_firstControlPoint = false;
break;
}
}
}
if (_modifyEdgeItem != 0) {
// store for undo purposes
Edge *e = _modifyEdgeItem->edge();
_oldBend = e->bend();
_oldInAngle = e->inAngle();
_oldOutAngle = e->outAngle();
_oldWeight = e->weight();
} else {
// since we are not dragging a control point, process the click normally
views()[0]->setDragMode(QGraphicsView::RubberBandDrag);
QGraphicsScene::mousePressEvent(event);
// save current node positions for undo support
_oldNodePositions.clear();
foreach (QGraphicsItem *gi, selectedItems()) {
if (NodeItem *ni = dynamic_cast<NodeItem*>(gi)) {
_oldNodePositions.insert(ni->node(), ni->node()->point());
}
}
}
break;
case ToolPalette::VERTEX:
break;
case ToolPalette::EDGE:
break;
case ToolPalette::CROP:
break;
}
}
void TikzScene::mouseMoveEvent(QGraphicsSceneMouseEvent *event)
{
// current mouse position, in scene coordinates
QPointF mousePos = event->scenePos();
switch (tikzit->toolPalette()->currentTool()) {
case ToolPalette::SELECT:
if (_modifyEdgeItem != 0) {
Edge *e = _modifyEdgeItem->edge();
// dragging a control point
QPointF src = toScreen(e->source()->point());
QPointF targ = toScreen(e->target()->point());
float dx1 = targ.x() - src.x();
float dy1 = targ.y() - src.y();
float dx2, dy2;
if (_firstControlPoint) {
dx2 = mousePos.x() - src.x();
dy2 = mousePos.y() - src.y();
} else {
dx2 = mousePos.x() - targ.x();
dy2 = mousePos.y() - targ.y();
}
float baseDist = sqrt(dx1*dx1 + dy1*dy1);
float handleDist = sqrt(dx2*dx2 + dy2*dy2);
float wcoarseness = 0.1f;
if (!e->isSelfLoop()) {
if (baseDist != 0) {
e->setWeight(roundToNearest(wcoarseness, handleDist/baseDist));
} else {
e->setWeight(roundToNearest(wcoarseness, handleDist/GLOBAL_SCALEF));
}
}
float control_angle = atan2(-dy2, dx2);
int bcoarseness = 15;
if(e->basicBendMode()) {
float bnd;
float base_angle = atan2(-dy1, dx1);
if (_firstControlPoint) {
bnd = base_angle - control_angle;
} else {
bnd = control_angle - base_angle + M_PI;
if (bnd > M_PI) bnd -= 2*M_PI;
}
e->setBend(round(bnd * (180.0f / M_PI) * (1.0f / (float)bcoarseness)) * bcoarseness);
} else {
int bnd = round(control_angle * (180.0f / M_PI) *
(1.0f / (float)bcoarseness)) *
bcoarseness;
if (_firstControlPoint) {
// TODO: enable moving both control points
// if ([theEvent modifierFlags] & NSAlternateKeyMask) {
// if ([modifyEdge isSelfLoop]) {
// [modifyEdge setInAngle:[modifyEdge inAngle] +
// (bnd - [modifyEdge outAngle])];
// } else {
// [modifyEdge setInAngle:[modifyEdge inAngle] -
// (bnd - [modifyEdge outAngle])];
// }
// }
e->setOutAngle(bnd);
} else {
// if (theEvent.modifierFlags & NSAlternateKeyMask) {
// if ([modifyEdge isSelfLoop]) {
// [modifyEdge setOutAngle:[modifyEdge outAngle] +
// (bnd - [modifyEdge inAngle])];
// } else {
// [modifyEdge setOutAngle:[modifyEdge outAngle] -
// (bnd - [modifyEdge inAngle])];
// }
// }
e->setInAngle(bnd);
}
}
_modifyEdgeItem->readPos();
} else {
// otherwise, process mouse move normally
QGraphicsScene::mouseMoveEvent(event);
refreshAdjacentEdges(_oldNodePositions.keys());
}
break;
case ToolPalette::VERTEX:
break;
case ToolPalette::EDGE:
break;
case ToolPalette::CROP:
break;
}
}
void TikzScene::mouseReleaseEvent(QGraphicsSceneMouseEvent *event)
{
// current mouse position, in scene coordinates
QPointF mousePos = event->scenePos();
switch (tikzit->toolPalette()->currentTool()) {
case ToolPalette::SELECT:
if (_modifyEdgeItem != 0) {
// finished dragging a control point
Edge *e = _modifyEdgeItem->edge();
if (_oldWeight != e->weight() ||
_oldBend != e->bend() ||
_oldInAngle != e->inAngle() ||
_oldOutAngle != e->outAngle())
{
EdgeBendCommand *cmd = new EdgeBendCommand(this, e, _oldWeight, _oldBend, _oldInAngle, _oldOutAngle);
_tikzDocument->undoStack()->push(cmd);
}
_modifyEdgeItem = 0;
} else {
// otherwise, process mouse move normally
QGraphicsScene::mouseReleaseEvent(event);
if (!_oldNodePositions.empty()) {
QMap<Node*,QPointF> newNodePositions;
foreach (QGraphicsItem *gi, selectedItems()) {
if (NodeItem *ni = dynamic_cast<NodeItem*>(gi)) {
ni->writePos();
newNodePositions.insert(ni->node(), ni->node()->point());
}
}
//qDebug() << _oldNodePositions;
//qDebug() << newNodePositions;
_tikzDocument->undoStack()->push(new MoveCommand(this, _oldNodePositions, newNodePositions));
_oldNodePositions.clear();
}
}
break;
case ToolPalette::VERTEX:
{
int gridSize = GLOBAL_SCALE / 8;
QPointF gridPos(round(mousePos.x()/gridSize)*gridSize, round(mousePos.y()/gridSize)*gridSize);
Node *n = new Node();
n->setPoint(fromScreen(gridPos));
QRectF grow(gridPos.x() - GLOBAL_SCALEF, gridPos.y() - GLOBAL_SCALEF, 2 * GLOBAL_SCALEF, 2 * GLOBAL_SCALEF);
QRectF newBounds = sceneRect().united(grow);
qDebug() << grow;
qDebug() << newBounds;
AddNodeCommand *cmd = new AddNodeCommand(this, n, newBounds);
_tikzDocument->undoStack()->push(cmd);
}
break;
case ToolPalette::EDGE:
break;
case ToolPalette::CROP:
break;
}
}
void TikzScene::keyReleaseEvent(QKeyEvent *event)
{
if (event->key() == Qt::Key_Backspace || event->key() == Qt::Key_Delete) {
QSet<Node*> selNodes;
QSet<Edge*> selEdges;
getSelection(selNodes, selEdges);
QMap<int,Node*> deleteNodes;
QMap<int,Edge*> deleteEdges;
for (int i = 0; i < _tikzDocument->graph()->nodes().length(); ++i) {
Node *n = _tikzDocument->graph()->nodes()[i];
if (selNodes.contains(n)) deleteNodes.insert(i, n);
}
for (int i = 0; i < _tikzDocument->graph()->edges().length(); ++i) {
Edge *e = _tikzDocument->graph()->edges()[i];
if (selEdges.contains(e) ||
selNodes.contains(e->source()) ||
selNodes.contains(e->target())) deleteEdges.insert(i, e);
}
//qDebug() << "nodes:" << deleteNodes;
//qDebug() << "edges:" << deleteEdges;
DeleteCommand *cmd = new DeleteCommand(this, deleteNodes, deleteEdges, selEdges);
_tikzDocument->undoStack()->push(cmd);
}
}
void TikzScene::getSelection(QSet<Node *> &selNodes, QSet<Edge *> &selEdges)
{
foreach (QGraphicsItem *gi, selectedItems()) {
if (NodeItem *ni = dynamic_cast<NodeItem*>(gi)) selNodes << ni->node();
if (EdgeItem *ei = dynamic_cast<EdgeItem*>(gi)) selEdges << ei->edge();
}
}
TikzDocument *TikzScene::tikzDocument() const
{
return _tikzDocument;
}
void TikzScene::setTikzDocument(TikzDocument *tikzDocument)
{
_tikzDocument = tikzDocument;
graphReplaced();
}
void TikzScene::refreshAdjacentEdges(QList<Node*> nodes)
{
if (nodes.empty()) return;
foreach (EdgeItem *ei, _edgeItems) {
if (nodes.contains(ei->edge()->source()) || nodes.contains(ei->edge()->target())) {
ei->edge()->updateControls();
ei->readPos();
}
}
}
void TikzScene::setBounds(QRectF bounds)
{
if (bounds != sceneRect()) {
if (!views().empty()) {
QGraphicsView *v = views().first();
QPointF c = v->mapToScene(v->viewport()->rect().center());
setSceneRect(bounds);
v->centerOn(c);
} else {
setSceneRect(bounds);
}
}
}
QMap<Node*,NodeItem *> &TikzScene::nodeItems()
{
return _nodeItems;
}
QMap<Edge*,EdgeItem*> &TikzScene::edgeItems()
{
return _edgeItems;
}
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