// License: GPL. For details, see LICENSE file. package org.openstreetmap.josm.actions.mapmode; import static org.openstreetmap.josm.gui.help.HelpUtil.ht; import static org.openstreetmap.josm.tools.I18n.marktr; import static org.openstreetmap.josm.tools.I18n.tr; import java.awt.BasicStroke; import java.awt.Color; import java.awt.Cursor; import java.awt.Graphics2D; import java.awt.Point; import java.awt.Rectangle; import java.awt.Stroke; import java.awt.event.ActionEvent; import java.awt.event.KeyEvent; import java.awt.event.MouseEvent; import java.awt.geom.AffineTransform; import java.awt.geom.GeneralPath; import java.awt.geom.Line2D; import java.awt.geom.NoninvertibleTransformException; import java.awt.geom.Point2D; import java.util.ArrayList; import java.util.Collection; import java.util.LinkedList; import java.util.List; import javax.swing.JCheckBoxMenuItem; import org.openstreetmap.josm.actions.JosmAction; import org.openstreetmap.josm.actions.MergeNodesAction; import org.openstreetmap.josm.command.AddCommand; import org.openstreetmap.josm.command.ChangeNodesCommand; import org.openstreetmap.josm.command.Command; import org.openstreetmap.josm.command.MoveCommand; import org.openstreetmap.josm.command.SequenceCommand; import org.openstreetmap.josm.data.Bounds; import org.openstreetmap.josm.data.UndoRedoHandler; import org.openstreetmap.josm.data.coor.EastNorth; import org.openstreetmap.josm.data.coor.ILatLon; import org.openstreetmap.josm.data.osm.DataSet; import org.openstreetmap.josm.data.osm.Node; import org.openstreetmap.josm.data.osm.OsmPrimitive; import org.openstreetmap.josm.data.osm.Way; import org.openstreetmap.josm.data.osm.WaySegment; import org.openstreetmap.josm.data.preferences.NamedColorProperty; import org.openstreetmap.josm.data.projection.ProjectionRegistry; import org.openstreetmap.josm.gui.MainApplication; import org.openstreetmap.josm.gui.MainMenu; import org.openstreetmap.josm.gui.MapFrame; import org.openstreetmap.josm.gui.MapView; import org.openstreetmap.josm.gui.draw.MapViewPath; import org.openstreetmap.josm.gui.draw.SymbolShape; import org.openstreetmap.josm.gui.layer.Layer; import org.openstreetmap.josm.gui.layer.MapViewPaintable; import org.openstreetmap.josm.gui.util.GuiHelper; import org.openstreetmap.josm.gui.util.KeyPressReleaseListener; import org.openstreetmap.josm.gui.util.ModifierExListener; import org.openstreetmap.josm.spi.preferences.Config; import org.openstreetmap.josm.tools.Geometry; import org.openstreetmap.josm.tools.ImageProvider; import org.openstreetmap.josm.tools.Logging; import org.openstreetmap.josm.tools.Shortcut; /** * Makes a rectangle from a line, or modifies a rectangle. */ public class ExtrudeAction extends MapMode implements MapViewPaintable, KeyPressReleaseListener, ModifierExListener { enum Mode { extrude, translate, select, create_new, translate_node } private Mode mode = Mode.select; /** * If {@code true}, when extruding create new node(s) even if segments are parallel. */ private boolean alwaysCreateNodes; private boolean nodeDragWithoutCtrl; private long mouseDownTime; private transient WaySegment selectedSegment; private transient Node selectedNode; private transient Command lastCommandOnUndoStack; private Color mainColor; private transient Stroke mainStroke; /** settings value whether shared nodes should be ignored or not */ private boolean ignoreSharedNodes; private boolean keepSegmentDirection; /** * drawing settings for helper lines */ private Color helperColor; private transient Stroke helperStrokeDash; private transient Stroke helperStrokeRA; private transient Stroke oldLineStroke; private double symbolSize; /** * Possible directions to move to. */ private transient List possibleMoveDirections; /** * Collection of nodes that is moved */ private transient List movingNodeList; /** * The direction that is currently active. */ private transient ReferenceSegment activeMoveDirection; /** * The position of the mouse cursor when the drag action was initiated. */ private Point initialMousePos; /** * The time which needs to pass between click and release before something * counts as a move, in milliseconds */ private int initialMoveDelay = 200; /** * The minimal shift of mouse (in pixels) before something counts as move */ private int initialMoveThreshold = 1; /** * The initial EastNorths of node1 and node2 */ private EastNorth initialN1en; private EastNorth initialN2en; /** * The new EastNorths of node1 and node2 */ private EastNorth newN1en; private EastNorth newN2en; /** * the command that performed last move. */ private transient MoveCommand moveCommand; /** * The command used for dual alignment movement. * Needs to be separate, due to two nodes moving in different directions. */ private transient MoveCommand moveCommand2; /** The cursor for the 'create_new' mode. */ private final Cursor cursorCreateNew; /** The cursor for the 'translate' mode. */ private final Cursor cursorTranslate; /** The cursor for the 'alwaysCreateNodes' submode. */ private final Cursor cursorCreateNodes; private static class ReferenceSegment { public final EastNorth en; public final EastNorth p1; public final EastNorth p2; public final boolean perpendicular; ReferenceSegment(EastNorth en, EastNorth p1, EastNorth p2, boolean perpendicular) { this.en = en; this.p1 = p1; this.p2 = p2; this.perpendicular = perpendicular; } @Override public String toString() { return "ReferenceSegment[en=" + en + ", p1=" + p1 + ", p2=" + p2 + ", perp=" + perpendicular + ']'; } } // Dual alignment mode stuff /** {@code true}, if dual alignment mode is enabled. User wants following extrude to be dual aligned. */ private boolean dualAlignEnabled; /** {@code true}, if dual alignment is active. User is dragging the mouse, required conditions are met. * Treat {@link #mode} (extrude/translate/create_new) as dual aligned. */ private boolean dualAlignActive; /** Dual alignment reference segments */ private transient ReferenceSegment dualAlignSegment1, dualAlignSegment2; /** {@code true}, if new segment was collapsed */ private boolean dualAlignSegmentCollapsed; // Dual alignment UI stuff private final DualAlignChangeAction dualAlignChangeAction; private final JCheckBoxMenuItem dualAlignCheckboxMenuItem; private final transient Shortcut dualAlignShortcut; private boolean useRepeatedShortcut; private boolean ignoreNextKeyRelease; private class DualAlignChangeAction extends JosmAction { DualAlignChangeAction() { super(tr("Dual alignment"), /* ICON() */ "mapmode/extrude/dualalign", tr("Switch dual alignment mode while extruding"), null, false); setHelpId(ht("/Action/Extrude#DualAlign")); } @Override public void actionPerformed(ActionEvent e) { toggleDualAlign(); } @Override protected void updateEnabledState() { MapFrame map = MainApplication.getMap(); setEnabled(map != null && map.mapMode instanceof ExtrudeAction); } } /** * Creates a new ExtrudeAction * @since 11713 */ public ExtrudeAction() { super(tr("Extrude"), /* ICON(mapmode/) */ "extrude/extrude", tr("Create areas"), Shortcut.registerShortcut("mapmode:extrude", tr("Mode: {0}", tr("Extrude")), KeyEvent.VK_X, Shortcut.DIRECT), ImageProvider.getCursor("normal", "rectangle")); setHelpId(ht("/Action/Extrude")); cursorCreateNew = ImageProvider.getCursor("normal", "rectangle_plus"); cursorTranslate = ImageProvider.getCursor("normal", "rectangle_move"); cursorCreateNodes = ImageProvider.getCursor("normal", "rectangle_plussmall"); dualAlignEnabled = false; dualAlignChangeAction = new DualAlignChangeAction(); dualAlignCheckboxMenuItem = addDualAlignMenuItem(); dualAlignCheckboxMenuItem.getAction().setEnabled(false); dualAlignCheckboxMenuItem.setState(dualAlignEnabled); dualAlignShortcut = Shortcut.registerShortcut("mapmode:extrudedualalign", tr("Edit: {0}", tr("Extrude Dual alignment")), KeyEvent.CHAR_UNDEFINED, Shortcut.NONE); readPreferences(); // to show prefernces in table before entering the mode } @Override public void destroy() { super.destroy(); MainApplication.getMenu().editMenu.remove(dualAlignCheckboxMenuItem); dualAlignChangeAction.destroy(); } private JCheckBoxMenuItem addDualAlignMenuItem() { int n = MainApplication.getMenu().editMenu.getItemCount(); return MainMenu.addWithCheckbox(MainApplication.getMenu().editMenu, dualAlignChangeAction, n >= 5 ? n-5 : -1, false); } // ------------------------------------------------------------------------- // Mode methods // ------------------------------------------------------------------------- @Override public String getModeHelpText() { StringBuilder rv; if (mode == Mode.select) { rv = new StringBuilder(tr("Drag a way segment to make a rectangle. Ctrl-drag to move a segment along its normal, " + "Alt-drag to create a new rectangle, double click to add a new node.")); if (dualAlignEnabled) { rv.append(' ').append(tr("Dual alignment active.")); if (dualAlignSegmentCollapsed) rv.append(' ').append(tr("Segment collapsed due to its direction reversing.")); } } else { if (mode == Mode.translate) { rv = new StringBuilder(tr("Move a segment along its normal, then release the mouse button.")); } else if (mode == Mode.translate_node) { rv = new StringBuilder(tr("Move the node along one of the segments, then release the mouse button.")); } else if (mode == Mode.extrude || mode == Mode.create_new) { rv = new StringBuilder(tr("Draw a rectangle of the desired size, then release the mouse button.")); } else { Logging.warn("Extrude: unknown mode " + mode); rv = new StringBuilder(); } if (dualAlignActive) { rv.append(' ').append(tr("Dual alignment active.")); if (dualAlignSegmentCollapsed) { rv.append(' ').append(tr("Segment collapsed due to its direction reversing.")); } } } return rv.toString(); } @Override public boolean layerIsSupported(Layer l) { return isEditableDataLayer(l); } @Override public void enterMode() { super.enterMode(); MapFrame map = MainApplication.getMap(); map.mapView.addMouseListener(this); map.mapView.addMouseMotionListener(this); map.statusLine.setAutoLength(false); ignoreNextKeyRelease = true; map.keyDetector.addKeyListener(this); map.keyDetector.addModifierExListener(this); } @Override protected void readPreferences() { initialMoveDelay = Config.getPref().getInt("edit.initial-move-delay", 200); initialMoveThreshold = Config.getPref().getInt("extrude.initial-move-threshold", 1); mainColor = new NamedColorProperty(marktr("Extrude: main line"), Color.RED).get(); helperColor = new NamedColorProperty(marktr("Extrude: helper line"), Color.ORANGE).get(); helperStrokeDash = GuiHelper.getCustomizedStroke(Config.getPref().get("extrude.stroke.helper-line", "1 4")); helperStrokeRA = new BasicStroke(1); symbolSize = Config.getPref().getDouble("extrude.angle-symbol-radius", 8); nodeDragWithoutCtrl = Config.getPref().getBoolean("extrude.drag-nodes-without-ctrl", false); oldLineStroke = GuiHelper.getCustomizedStroke(Config.getPref().get("extrude.ctrl.stroke.old-line", "1")); mainStroke = GuiHelper.getCustomizedStroke(Config.getPref().get("extrude.stroke.main", "3")); ignoreSharedNodes = Config.getPref().getBoolean("extrude.ignore-shared-nodes", true); dualAlignCheckboxMenuItem.getAction().setEnabled(true); useRepeatedShortcut = Config.getPref().getBoolean("extrude.dualalign.toggleOnRepeatedX", true); keepSegmentDirection = Config.getPref().getBoolean("extrude.dualalign.keep-segment-direction", true); } @Override public void exitMode() { MapFrame map = MainApplication.getMap(); map.mapView.removeMouseListener(this); map.mapView.removeMouseMotionListener(this); map.mapView.removeTemporaryLayer(this); dualAlignCheckboxMenuItem.getAction().setEnabled(false); map.keyDetector.removeKeyListener(this); map.keyDetector.removeModifierExListener(this); this.selectedNode = null; this.selectedSegment = null; this.lastCommandOnUndoStack = null; super.exitMode(); } // ------------------------------------------------------------------------- // Event handlers // ------------------------------------------------------------------------- /** * This method is called to indicate different modes via cursor when the Alt/Ctrl/Shift modifier is pressed, */ @Override public void modifiersExChanged(int modifiers) { MapFrame map = MainApplication.getMap(); if (!MainApplication.isDisplayingMapView() || !map.mapView.isActiveLayerDrawable()) return; updateKeyModifiersEx(modifiers); if (mode == Mode.select) { map.mapView.setNewCursor(ctrl ? cursorTranslate : alt ? cursorCreateNew : shift ? cursorCreateNodes : cursor, this); } } @Override public void doKeyPressed(KeyEvent e) { // Do nothing } @Override public void doKeyReleased(KeyEvent e) { if (!dualAlignShortcut.isEvent(e) && !(useRepeatedShortcut && getShortcut().isEvent(e))) return; if (ignoreNextKeyRelease) { ignoreNextKeyRelease = false; } else { toggleDualAlign(); } } /** * Toggles dual alignment mode. */ private void toggleDualAlign() { dualAlignEnabled = !dualAlignEnabled; dualAlignCheckboxMenuItem.setState(dualAlignEnabled); updateStatusLine(); } /** * If the left mouse button is pressed over a segment or a node, switches * to appropriate {@link #mode}, depending on Ctrl/Alt/Shift modifiers and * {@link #dualAlignEnabled}. * @param e current mouse event */ @Override public void mousePressed(MouseEvent e) { MapFrame map = MainApplication.getMap(); if (!map.mapView.isActiveLayerVisible()) return; if (Boolean.FALSE.equals(this.getValue("active"))) return; if (e.getButton() != MouseEvent.BUTTON1) return; requestFocusInMapView(); updateKeyModifiers(e); selectedNode = map.mapView.getNearestNode(e.getPoint(), OsmPrimitive::isSelectable); selectedSegment = map.mapView.getNearestWaySegment(e.getPoint(), OsmPrimitive::isSelectable); // If nothing gets caught, stay in select mode if (selectedSegment == null && selectedNode == null) return; lastCommandOnUndoStack = UndoRedoHandler.getInstance().getLastCommand(); if (selectedNode != null) { if (ctrl || nodeDragWithoutCtrl) { movingNodeList = new ArrayList<>(); movingNodeList.add(selectedNode); calculatePossibleDirectionsByNode(); if (possibleMoveDirections.isEmpty()) { // if no directions fould, do not enter dragging mode return; } mode = Mode.translate_node; dualAlignActive = false; } } else { // Otherwise switch to another mode if (dualAlignEnabled && checkDualAlignConditions()) { dualAlignActive = true; calculatePossibleDirectionsForDualAlign(); dualAlignSegmentCollapsed = false; } else { dualAlignActive = false; calculatePossibleDirectionsBySegment(); } if (ctrl) { mode = Mode.translate; movingNodeList = new ArrayList<>(); movingNodeList.add(selectedSegment.getFirstNode()); movingNodeList.add(selectedSegment.getSecondNode()); } else if (alt) { mode = Mode.create_new; // create a new segment and then select and extrude the new segment getLayerManager().getEditDataSet().setSelected(selectedSegment.getWay()); alwaysCreateNodes = true; } else { mode = Mode.extrude; getLayerManager().getEditDataSet().setSelected(selectedSegment.getWay()); alwaysCreateNodes = shift; } } // Signifies that nothing has happened yet newN1en = null; newN2en = null; moveCommand = null; moveCommand2 = null; map.mapView.addTemporaryLayer(this); updateStatusLine(); map.mapView.repaint(); // Make note of time pressed mouseDownTime = System.currentTimeMillis(); // Make note of mouse position initialMousePos = e.getPoint(); } /** * Performs action depending on what {@link #mode} we're in. * @param e current mouse event */ @Override public void mouseDragged(MouseEvent e) { MapView mapView = MainApplication.getMap().mapView; if (!mapView.isActiveLayerVisible()) return; // do not count anything as a drag if it lasts less than 100 milliseconds. if (System.currentTimeMillis() - mouseDownTime < initialMoveDelay) return; if (mode == Mode.select) { // Just sit tight and wait for mouse to be released. } else { //move, create new and extrude mode - move the selected segment EastNorth mouseEn = mapView.getEastNorth(e.getPoint().x, e.getPoint().y); EastNorth bestMovement = calculateBestMovementAndNewNodes(mouseEn); mapView.setNewCursor(Cursor.MOVE_CURSOR, this); if (dualAlignActive) { if (mode == Mode.extrude || mode == Mode.create_new) { // nothing here } else if (mode == Mode.translate) { EastNorth movement1 = newN1en.subtract(initialN1en); EastNorth movement2 = newN2en.subtract(initialN2en); // move nodes to new position if (moveCommand == null || moveCommand2 == null) { // make a new move commands moveCommand = new MoveCommand(movingNodeList.get(0), movement1.getX(), movement1.getY()); moveCommand2 = new MoveCommand(movingNodeList.get(1), movement2.getX(), movement2.getY()); Command c = new SequenceCommand(tr("Extrude Way"), moveCommand, moveCommand2); UndoRedoHandler.getInstance().add(c); } else { // reuse existing move commands moveCommand.moveAgainTo(movement1.getX(), movement1.getY()); moveCommand2.moveAgainTo(movement2.getX(), movement2.getY()); } } } else if (bestMovement != null) { if (mode == Mode.extrude || mode == Mode.create_new) { //nothing here } else if (mode == Mode.translate_node || mode == Mode.translate) { //move nodes to new position if (moveCommand == null) { //make a new move command moveCommand = new MoveCommand(new ArrayList<>(movingNodeList), bestMovement); UndoRedoHandler.getInstance().add(moveCommand); } else { //reuse existing move command moveCommand.moveAgainTo(bestMovement.getX(), bestMovement.getY()); } } } mapView.repaint(); } } /** * Does anything that needs to be done, then switches back to select mode. * @param e current mouse event */ @Override public void mouseReleased(MouseEvent e) { MapView mapView = MainApplication.getMap().mapView; if (!mapView.isActiveLayerVisible()) return; if (mode == Mode.select) { // Nothing to be done } else { if (mode == Mode.create_new) { if (e.getPoint().distance(initialMousePos) > initialMoveThreshold && newN1en != null) { createNewRectangle(); } } else if (mode == Mode.extrude) { if (e.getClickCount() == 2 && e.getPoint().equals(initialMousePos)) { // double click adds a new node addNewNode(e); } else if (e.getPoint().distance(initialMousePos) > initialMoveThreshold && newN1en != null && selectedSegment != null) { // main extrusion commands performExtrusion(); } } else if (mode == Mode.translate || mode == Mode.translate_node) { //Commit translate //the move command is already committed in mouseDragged joinNodesIfCollapsed(movingNodeList); } MainApplication.getMap().statusLine.setDist(getLayerManager().getEditDataSet().getSelectedWays()); MainApplication.getMap().statusLine.repaint(); updateKeyModifiers(e); // Switch back into select mode mapView.setNewCursor(ctrl ? cursorTranslate : alt ? cursorCreateNew : shift ? cursorCreateNodes : cursor, this); mapView.removeTemporaryLayer(this); selectedSegment = null; lastCommandOnUndoStack = null; moveCommand = null; mode = Mode.select; dualAlignSegmentCollapsed = false; updateStatusLine(); mapView.repaint(); } } // ------------------------------------------------------------------------- // Custom methods // ------------------------------------------------------------------------- /** * Inserts node into nearby segment. * @param e current mouse point */ private static void addNewNode(MouseEvent e) { // Should maybe do the same as in DrawAction and fetch all nearby segments? MapView mapView = MainApplication.getMap().mapView; WaySegment ws = mapView.getNearestWaySegment(e.getPoint(), OsmPrimitive::isSelectable); if (ws != null) { Node n = new Node(mapView.getLatLon(e.getX(), e.getY())); EastNorth a = ws.getFirstNode().getEastNorth(); EastNorth b = ws.getSecondNode().getEastNorth(); n.setEastNorth(Geometry.closestPointToSegment(a, b, n.getEastNorth())); Way wnew = new Way(ws.getWay()); wnew.addNode(ws.getLowerIndex() +1, n); DataSet ds = ws.getWay().getDataSet(); UndoRedoHandler.getInstance().add(new SequenceCommand(tr("Add a new node to an existing way"), new AddCommand(ds, n), new ChangeNodesCommand(ds, ws.getWay(), wnew.getNodes()))); wnew.setNodes(null); // see #19885 } } /** * Creates a new way that shares segment with selected way. */ private void createNewRectangle() { if (selectedSegment == null) return; DataSet ds = getLayerManager().getEditDataSet(); // create a new rectangle Collection cmds = new LinkedList<>(); Node third = new Node(newN2en); Node fourth = new Node(newN1en); Way wnew = new Way(); wnew.addNode(selectedSegment.getFirstNode()); wnew.addNode(selectedSegment.getSecondNode()); wnew.addNode(third); if (!dualAlignSegmentCollapsed) { // rectangle can degrade to triangle for dual alignment after collapsing wnew.addNode(fourth); } // ... and close the way wnew.addNode(selectedSegment.getFirstNode()); // undo support cmds.add(new AddCommand(ds, third)); if (!dualAlignSegmentCollapsed) { cmds.add(new AddCommand(ds, fourth)); } cmds.add(new AddCommand(ds, wnew)); Command c = new SequenceCommand(tr("Extrude Way"), cmds); UndoRedoHandler.getInstance().add(c); ds.setSelected(wnew); } /** * Does actual extrusion of {@link #selectedSegment}. * Uses {@link #initialN1en}, {@link #initialN2en} saved in calculatePossibleDirections* call * Uses {@link #newN1en}, {@link #newN2en} calculated by {@link #calculateBestMovementAndNewNodes} */ private void performExtrusion() { // sanity checks, see #23447 and #12870: don't try to extrude when user pressed undo if (lastCommandOnUndoStack != UndoRedoHandler.getInstance().getLastCommand()) return; DataSet ds = getLayerManager().getEditDataSet(); if (ds.getPrimitiveById(selectedSegment.getWay()) == null || !selectedSegment.isUsable()) return; // create extrusion Collection cmds = new LinkedList<>(); Way wnew = new Way(selectedSegment.getWay()); boolean wayWasModified = false; boolean wayWasSingleSegment = wnew.getNodesCount() == 2; int insertionPoint = selectedSegment.getUpperIndex(); //find if the new points overlap existing segments (in case of 90 degree angles) Node prevNode = getPreviousNode(selectedSegment.getLowerIndex()); boolean nodeOverlapsSegment = prevNode != null && Geometry.segmentsParallel(initialN1en, prevNode.getEastNorth(), initialN1en, newN1en); // segmentAngleZero marks subset of nodeOverlapsSegment. // nodeOverlapsSegment is true if angle between segments is 0 or PI, segmentAngleZero only if angle is 0 boolean segmentAngleZero = prevNode != null && Math.abs(Geometry.getCornerAngle(prevNode.getEastNorth(), initialN1en, newN1en)) < 1e-5; boolean hasOtherWays = hasNodeOtherWays(selectedSegment.getFirstNode(), selectedSegment.getWay()); List changedNodes = new ArrayList<>(); if (nodeOverlapsSegment && !alwaysCreateNodes && !hasOtherWays) { //move existing node Node n1Old = selectedSegment.getFirstNode(); cmds.add(new MoveCommand(n1Old, ProjectionRegistry.getProjection().eastNorth2latlon(newN1en))); changedNodes.add(n1Old); } else if (ignoreSharedNodes && segmentAngleZero && !alwaysCreateNodes && hasOtherWays) { // replace shared node with new one Node n1Old = selectedSegment.getFirstNode(); Node n1New = new Node(ProjectionRegistry.getProjection().eastNorth2latlon(newN1en)); wnew.addNode(insertionPoint, n1New); wnew.removeNode(n1Old); wayWasModified = true; cmds.add(new AddCommand(ds, n1New)); changedNodes.add(n1New); } else { //introduce new node Node n1New = new Node(ProjectionRegistry.getProjection().eastNorth2latlon(newN1en)); wnew.addNode(insertionPoint, n1New); wayWasModified = true; insertionPoint++; cmds.add(new AddCommand(ds, n1New)); changedNodes.add(n1New); } //find if the new points overlap existing segments (in case of 90 degree angles) Node nextNode = getNextNode(selectedSegment.getUpperIndex()); nodeOverlapsSegment = nextNode != null && Geometry.segmentsParallel(initialN2en, nextNode.getEastNorth(), initialN2en, newN2en); segmentAngleZero = nextNode != null && Math.abs(Geometry.getCornerAngle(nextNode.getEastNorth(), initialN2en, newN2en)) < 1e-5; hasOtherWays = hasNodeOtherWays(selectedSegment.getSecondNode(), selectedSegment.getWay()); if (nodeOverlapsSegment && !alwaysCreateNodes && !hasOtherWays) { //move existing node Node n2Old = selectedSegment.getSecondNode(); cmds.add(new MoveCommand(n2Old, ProjectionRegistry.getProjection().eastNorth2latlon(newN2en))); changedNodes.add(n2Old); } else if (ignoreSharedNodes && segmentAngleZero && !alwaysCreateNodes && hasOtherWays) { // replace shared node with new one Node n2Old = selectedSegment.getSecondNode(); Node n2New = new Node(ProjectionRegistry.getProjection().eastNorth2latlon(newN2en)); wnew.addNode(insertionPoint, n2New); wnew.removeNode(n2Old); wayWasModified = true; cmds.add(new AddCommand(ds, n2New)); changedNodes.add(n2New); } else { //introduce new node Node n2New = new Node(ProjectionRegistry.getProjection().eastNorth2latlon(newN2en)); wnew.addNode(insertionPoint, n2New); wayWasModified = true; cmds.add(new AddCommand(ds, n2New)); changedNodes.add(n2New); } //the way was a single segment, close the way if (wayWasSingleSegment) { wnew.addNode(selectedSegment.getFirstNode()); wayWasModified = true; } if (wayWasModified) { // we only need to change the way if its node list was really modified cmds.add(new ChangeNodesCommand(selectedSegment.getWay(), wnew.getNodes())); } wnew.setNodes(null); // see #19885 Command c = new SequenceCommand(tr("Extrude Way"), cmds); UndoRedoHandler.getInstance().add(c); joinNodesIfCollapsed(changedNodes); } private void joinNodesIfCollapsed(List changedNodes) { if (!dualAlignActive || newN1en == null || newN2en == null) return; if (newN1en.distance(newN2en) > 1e-6) return; // If the dual alignment moved two nodes to the same point, merge them Node targetNode = MergeNodesAction.selectTargetNode(changedNodes); Node locNode = MergeNodesAction.selectTargetLocationNode(changedNodes); Command mergeCmd = MergeNodesAction.mergeNodes(changedNodes, targetNode, locNode); if (mergeCmd != null) { UndoRedoHandler.getInstance().add(mergeCmd); } else { // undo extruding command itself UndoRedoHandler.getInstance().undo(); } } /** * This method tests if {@code node} has other ways apart from the given one. * @param node node to test * @param myWay way known to contain this node * @return {@code true} if {@code node} belongs only to {@code myWay}, false if there are more ways. */ private static boolean hasNodeOtherWays(Node node, Way myWay) { return node.getReferrers().stream() .anyMatch(p -> p instanceof Way && p.isUsable() && p != myWay); } /** * Determines best movement from {@link #initialMousePos} to current mouse position, * choosing one of the directions from {@link #possibleMoveDirections}. * @param mouseEn current mouse position * @return movement vector */ private EastNorth calculateBestMovement(EastNorth mouseEn) { EastNorth initialMouseEn = MainApplication.getMap().mapView.getEastNorth(initialMousePos.x, initialMousePos.y); EastNorth mouseMovement = mouseEn.subtract(initialMouseEn); double bestDistance = Double.POSITIVE_INFINITY; EastNorth bestMovement = null; activeMoveDirection = null; //find the best movement direction and vector for (ReferenceSegment direction : possibleMoveDirections) { EastNorth movement = calculateSegmentOffset(initialN1en, initialN2en, direction.en, mouseEn); if (movement == null) { //if direction parallel to segment. continue; } double distanceFromMouseMovement = movement.distance(mouseMovement); if (bestDistance > distanceFromMouseMovement) { bestDistance = distanceFromMouseMovement; activeMoveDirection = direction; bestMovement = movement; } } return bestMovement; } /*** * This method calculates offset amount by which to move the given segment * perpendicularly for it to be in line with mouse position. * @param segmentP1 segment's first point * @param segmentP2 segment's second point * @param moveDirection direction of movement * @param targetPos mouse position * @return offset amount of P1 and P2. */ private static EastNorth calculateSegmentOffset(EastNorth segmentP1, EastNorth segmentP2, EastNorth moveDirection, EastNorth targetPos) { EastNorth intersectionPoint; if (segmentP1.distanceSq(segmentP2) > 1e-7) { intersectionPoint = Geometry.getLineLineIntersection(segmentP1, segmentP2, targetPos, targetPos.add(moveDirection)); } else { intersectionPoint = Geometry.closestPointToLine(targetPos, targetPos.add(moveDirection), segmentP1); } if (intersectionPoint == null) return null; else //return distance form base to target position return targetPos.subtract(intersectionPoint); } /** * Gathers possible move directions - perpendicular to the selected segment * and parallel to neighboring segments. */ private void calculatePossibleDirectionsBySegment() { // remember initial positions for segment nodes. initialN1en = selectedSegment.getFirstNode().getEastNorth(); initialN2en = selectedSegment.getSecondNode().getEastNorth(); //add direction perpendicular to the selected segment possibleMoveDirections = new ArrayList<>(); possibleMoveDirections.add(new ReferenceSegment(new EastNorth( initialN1en.getY() - initialN2en.getY(), initialN2en.getX() - initialN1en.getX() ), initialN1en, initialN2en, true)); //add directions parallel to neighbor segments Node prevNode = getPreviousNode(selectedSegment.getLowerIndex()); if (prevNode != null) { EastNorth en = prevNode.getEastNorth(); possibleMoveDirections.add(new ReferenceSegment(new EastNorth( initialN1en.getX() - en.getX(), initialN1en.getY() - en.getY() ), initialN1en, en, false)); } Node nextNode = getNextNode(selectedSegment.getUpperIndex()); if (nextNode != null) { EastNorth en = nextNode.getEastNorth(); possibleMoveDirections.add(new ReferenceSegment(new EastNorth( initialN2en.getX() - en.getX(), initialN2en.getY() - en.getY() ), initialN2en, en, false)); } } /** * Gathers possible move directions - along all adjacent segments. */ private void calculatePossibleDirectionsByNode() { // remember initial positions for segment nodes. initialN1en = selectedNode.getEastNorth(); initialN2en = initialN1en; possibleMoveDirections = new ArrayList<>(); for (OsmPrimitive p: selectedNode.getReferrers()) { if (p instanceof Way && p.isUsable()) { for (Node neighbor: ((Way) p).getNeighbours(selectedNode)) { EastNorth en = neighbor.getEastNorth(); possibleMoveDirections.add(new ReferenceSegment(new EastNorth( initialN1en.getX() - en.getX(), initialN1en.getY() - en.getY() ), initialN1en, en, false)); } } } } /** * Checks dual alignment conditions: * 1. selected segment has both neighboring segments, * 2. selected segment is not parallel with neighboring segments. * @return {@code true} if dual alignment conditions are satisfied */ private boolean checkDualAlignConditions() { Node prevNode = getPreviousNode(selectedSegment.getLowerIndex()); Node nextNode = getNextNode(selectedSegment.getUpperIndex()); if (prevNode == null || nextNode == null) { return false; } EastNorth n1en = selectedSegment.getFirstNode().getEastNorth(); EastNorth n2en = selectedSegment.getSecondNode().getEastNorth(); if (n1en.distance(prevNode.getEastNorth()) < 1e-4 || n2en.distance(nextNode.getEastNorth()) < 1e-4) { return false; } boolean prevSegmentParallel = Geometry.segmentsParallel(n1en, prevNode.getEastNorth(), n1en, n2en); boolean nextSegmentParallel = Geometry.segmentsParallel(n2en, nextNode.getEastNorth(), n1en, n2en); return !prevSegmentParallel && !nextSegmentParallel; } /** * Gathers possible move directions - perpendicular to the selected segment only. * Neighboring segments go to {@link #dualAlignSegment1} and {@link #dualAlignSegment2}. */ private void calculatePossibleDirectionsForDualAlign() { // remember initial positions for segment nodes. initialN1en = selectedSegment.getFirstNode().getEastNorth(); initialN2en = selectedSegment.getSecondNode().getEastNorth(); // add direction perpendicular to the selected segment possibleMoveDirections = new ArrayList<>(); possibleMoveDirections.add(new ReferenceSegment(new EastNorth( initialN1en.getY() - initialN2en.getY(), initialN2en.getX() - initialN1en.getX() ), initialN1en, initialN2en, true)); // set neighboring segments Node prevNode = getPreviousNode(selectedSegment.getLowerIndex()); if (prevNode != null) { EastNorth prevNodeEn = prevNode.getEastNorth(); dualAlignSegment1 = new ReferenceSegment(new EastNorth( initialN1en.getX() - prevNodeEn.getX(), initialN1en.getY() - prevNodeEn.getY() ), initialN1en, prevNodeEn, false); } Node nextNode = getNextNode(selectedSegment.getUpperIndex()); if (nextNode != null) { EastNorth nextNodeEn = nextNode.getEastNorth(); dualAlignSegment2 = new ReferenceSegment(new EastNorth( initialN2en.getX() - nextNodeEn.getX(), initialN2en.getY() - nextNodeEn.getY() ), initialN2en, nextNodeEn, false); } } /** * Calculate newN1en, newN2en best suitable for given mouse coordinates * For dual align, calculates positions of new nodes, aligning them to neighboring segments. * Elsewhere, just adds the vetor returned by calculateBestMovement to {@link #initialN1en}, {@link #initialN2en}. * @param mouseEn mouse coordinates * @return best movement vector */ private EastNorth calculateBestMovementAndNewNodes(EastNorth mouseEn) { EastNorth bestMovement = calculateBestMovement(mouseEn); EastNorth n1movedEn = initialN1en.add(bestMovement); EastNorth n2movedEn; // find out the movement distance, in metres double distance = ProjectionRegistry.getProjection().eastNorth2latlon(initialN1en).greatCircleDistance( (ILatLon) ProjectionRegistry.getProjection().eastNorth2latlon(n1movedEn)); MainApplication.getMap().statusLine.setDist(distance); updateStatusLine(); if (dualAlignActive) { // new positions of selected segment's nodes, without applying dual alignment n1movedEn = initialN1en.add(bestMovement); n2movedEn = initialN2en.add(bestMovement); // calculate intersections of parallel shifted segment and the adjacent lines newN1en = Geometry.getLineLineIntersection(n1movedEn, n2movedEn, dualAlignSegment1.p1, dualAlignSegment1.p2); newN2en = Geometry.getLineLineIntersection(n1movedEn, n2movedEn, dualAlignSegment2.p1, dualAlignSegment2.p2); if (newN1en == null || newN2en == null) return bestMovement; if (keepSegmentDirection && isOppositeDirection(newN1en, newN2en, initialN1en, initialN2en)) { EastNorth collapsedSegmentPosition = Geometry.getLineLineIntersection(dualAlignSegment1.p1, dualAlignSegment1.p2, dualAlignSegment2.p1, dualAlignSegment2.p2); newN1en = collapsedSegmentPosition; newN2en = collapsedSegmentPosition; dualAlignSegmentCollapsed = true; } else { dualAlignSegmentCollapsed = false; } } else { newN1en = n1movedEn; newN2en = initialN2en.add(bestMovement); } return bestMovement; } /** * Gets a node index from selected way before given index. * @param index index of current node * @return index of previous node or -1 if there are no nodes there. */ private int getPreviousNodeIndex(int index) { if (index > 0) return index - 1; else if (selectedSegment.getWay().isClosed()) return selectedSegment.getWay().getNodesCount() - 2; else return -1; } /** * Gets a node from selected way before given index. * @param index index of current node * @return previous node or null if there are no nodes there. */ private Node getPreviousNode(int index) { int indexPrev = getPreviousNodeIndex(index); if (indexPrev >= 0) return selectedSegment.getWay().getNode(indexPrev); else return null; } /** * Gets a node index from selected way after given index. * @param index index of current node * @return index of next node or -1 if there are no nodes there. */ private int getNextNodeIndex(int index) { int count = selectedSegment.getWay().getNodesCount(); if (index < count - 1) return index + 1; else if (selectedSegment.getWay().isClosed()) return 1; else return -1; } /** * Gets a node from selected way after given index. * @param index index of current node * @return next node or null if there are no nodes there. */ private Node getNextNode(int index) { int indexNext = getNextNodeIndex(index); if (indexNext >= 0) return selectedSegment.getWay().getNode(indexNext); else return null; } // ------------------------------------------------------------------------- // paint methods // ------------------------------------------------------------------------- @Override public void paint(Graphics2D g, MapView mv, Bounds box) { Graphics2D g2 = g; if (mode == Mode.select) { // Nothing to do } else { if (newN1en != null) { EastNorth p1 = initialN1en; EastNorth p2 = initialN2en; EastNorth p3 = newN1en; EastNorth p4 = newN2en; Point2D normalUnitVector = activeMoveDirection != null ? getNormalUniVector() : null; if (mode == Mode.extrude || mode == Mode.create_new) { g2.setColor(mainColor); g2.setStroke(mainStroke); // Draw rectangle around new area. MapViewPath b = new MapViewPath(mv); b.moveTo(p1); b.lineTo(p3); b.lineTo(p4); b.lineTo(p2); b.lineTo(p1); g2.draw(b); if (dualAlignActive) { // Draw reference ways drawReferenceSegment(g2, mv, dualAlignSegment1); drawReferenceSegment(g2, mv, dualAlignSegment2); } else if (activeMoveDirection != null && normalUnitVector != null) { // Draw reference way drawReferenceSegment(g2, mv, activeMoveDirection); // Draw right angle marker on first node position, only when moving at right angle if (activeMoveDirection.perpendicular) { // mirror RightAngle marker, so it is inside the extrude double headingRefWS = activeMoveDirection.p1.heading(activeMoveDirection.p2); double headingMoveDir = Math.atan2(normalUnitVector.getY(), normalUnitVector.getX()); double headingDiff = headingRefWS - headingMoveDir; if (headingDiff < 0) headingDiff += 2 * Math.PI; boolean mirrorRA = Math.abs(headingDiff - Math.PI) > 1e-5; Point pr1 = mv.getPoint(activeMoveDirection.p1); drawAngleSymbol(g2, pr1, normalUnitVector, mirrorRA); } } } else if (mode == Mode.translate || mode == Mode.translate_node) { g2.setColor(mainColor); if (p1.distance(p2) < 3) { g2.setStroke(mainStroke); g2.draw(new MapViewPath(mv).shapeAround(p1, SymbolShape.CIRCLE, symbolSize)); } else { g2.setStroke(oldLineStroke); g2.draw(new MapViewPath(mv).moveTo(p1).lineTo(p2)); } if (dualAlignActive) { // Draw reference ways drawReferenceSegment(g2, mv, dualAlignSegment1); drawReferenceSegment(g2, mv, dualAlignSegment2); } else if (activeMoveDirection != null) { g2.setColor(helperColor); g2.setStroke(helperStrokeDash); // Draw a guideline along the normal. Point2D centerpoint = mv.getPoint2D(p1.interpolate(p2, .5)); g2.draw(createSemiInfiniteLine(centerpoint, normalUnitVector, g2)); // Draw right angle marker on initial position, only when moving at right angle if (activeMoveDirection.perpendicular) { // EastNorth units per pixel g2.setStroke(helperStrokeRA); g2.setColor(mainColor); drawAngleSymbol(g2, centerpoint, normalUnitVector, false); } } } } g2.setStroke(helperStrokeRA); // restore default stroke to prevent starnge occasional drawings } } private Point2D getNormalUniVector() { double fac = 1.0 / activeMoveDirection.en.length(); // mult by factor to get unit vector. Point2D normalUnitVector = new Point2D.Double(activeMoveDirection.en.getX() * fac, activeMoveDirection.en.getY() * fac); // Check to see if our new N1 is in a positive direction with respect to the normalUnitVector. // Even if the x component is zero, we should still be able to discern using +0.0 and -0.0 if (newN1en != null && ((newN1en.getX() > initialN1en.getX()) != (normalUnitVector.getX() > -0.0))) { // If not, use a sign-flipped version of the normalUnitVector. normalUnitVector = new Point2D.Double(-normalUnitVector.getX(), -normalUnitVector.getY()); } //HACK: swap Y, because the target pixels are top down, but EastNorth is bottom-up. //This is normally done by MapView.getPoint, but it does not work on vectors. normalUnitVector.setLocation(normalUnitVector.getX(), -normalUnitVector.getY()); return normalUnitVector; } /** * Determines if from1-to1 and from2-to2 vectors directions are opposite * @param from1 vector1 start * @param to1 vector1 end * @param from2 vector2 start * @param to2 vector2 end * @return true if from1-to1 and from2-to2 vectors directions are opposite */ private static boolean isOppositeDirection(EastNorth from1, EastNorth to1, EastNorth from2, EastNorth to2) { return (from1.getX()-to1.getX())*(from2.getX()-to2.getX()) +(from1.getY()-to1.getY())*(from2.getY()-to2.getY()) < 0; } /** * Draws right angle symbol at specified position. * @param g2 the Graphics2D object used to draw on * @param center center point of angle * @param normal vector of normal * @param mirror {@code true} if symbol should be mirrored by the normal */ private void drawAngleSymbol(Graphics2D g2, Point2D center, Point2D normal, boolean mirror) { // EastNorth units per pixel double factor = 1.0/g2.getTransform().getScaleX(); double raoffsetx = symbolSize*factor*normal.getX(); double raoffsety = symbolSize*factor*normal.getY(); final double cx = center.getX(); final double cy = center.getY(); double k = mirror ? -1 : 1; Point2D ra1 = new Point2D.Double(cx + raoffsetx, cy + raoffsety); Point2D ra3 = new Point2D.Double(cx - raoffsety*k, cy + raoffsetx*k); Point2D ra2 = new Point2D.Double(ra1.getX() - raoffsety*k, ra1.getY() + raoffsetx*k); GeneralPath ra = new GeneralPath(); ra.moveTo((float) ra1.getX(), (float) ra1.getY()); ra.lineTo((float) ra2.getX(), (float) ra2.getY()); ra.lineTo((float) ra3.getX(), (float) ra3.getY()); g2.setStroke(helperStrokeRA); g2.draw(ra); } /** * Draws given reference segment. * @param g2 the Graphics2D object used to draw on * @param mv map view * @param seg the reference segment */ private void drawReferenceSegment(Graphics2D g2, MapView mv, ReferenceSegment seg) { g2.setColor(helperColor); g2.setStroke(helperStrokeDash); g2.draw(new MapViewPath(mv).moveTo(seg.p1).lineTo(seg.p2)); } /** * Creates a new Line that extends off the edge of the viewport in one direction * @param start The start point of the line * @param unitvector A unit vector denoting the direction of the line * @param g the Graphics2D object it will be used on * @return created line */ private static Line2D createSemiInfiniteLine(Point2D start, Point2D unitvector, Graphics2D g) { Rectangle bounds = g.getClipBounds(); try { AffineTransform invtrans = g.getTransform().createInverse(); Point2D widthpoint = invtrans.deltaTransform(new Point2D.Double(bounds.width, 0), null); Point2D heightpoint = invtrans.deltaTransform(new Point2D.Double(0, bounds.height), null); // Here we should end up with a gross overestimate of the maximum viewport diagonal in what // Graphics2D calls 'user space'. Essentially a manhattan distance of manhattan distances. // This can be used as a safe length of line to generate which will always go off-viewport. double linelength = Math.abs(widthpoint.getX()) + Math.abs(widthpoint.getY()) + Math.abs(heightpoint.getX()) + Math.abs(heightpoint.getY()); return new Line2D.Double(start, new Point2D.Double(start.getX() + (unitvector.getX() * linelength), start.getY() + (unitvector.getY() * linelength))); } catch (NoninvertibleTransformException e) { Logging.debug(e); return new Line2D.Double(start, new Point2D.Double(start.getX() + (unitvector.getX() * 10), start.getY() + (unitvector.getY() * 10))); } } }