386 lines
16 KiB
Java
386 lines
16 KiB
Java
/*
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* Straight.java
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* Created on 9 ??? 2005
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*
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* The Straight.java is part of TrackEditor-0.6.0.
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*
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* TrackEditor-0.6.0 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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* TrackEditor-0.6.0 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 TrackEditor-0.6.0; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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package utils.circuit;
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import java.awt.geom.Point2D;
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import java.io.PrintStream;
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import gui.EditorFrame;
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import utils.Editor;
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/**
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* @author Patrice Espie , Charalampos Alexopoulos
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*
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* TODO To change the template for this generated type comment go to Window -
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* Preferences - Java - Code Style - Code Templates
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*/
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public class Straight extends Segment
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{
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public Straight()
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{
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this(null);
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}
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public Straight(Segment prev)
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{
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super("str");
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this.previousShape = prev;
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}
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@Override
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public void set(Segment segment)
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{
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super.set(segment);
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Straight straight = (Straight) segment;
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}
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public boolean contains(Point2D.Double point)
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{
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if (points == null)
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return false;
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if (!boundingRectangle.contains(point.x, point.y))
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return false;
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int count = 0;
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int stride = 4 * (7 + (Editor.getProperties().getShowArrows() > 0.0 ? 1 : 0));
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int last = stride * (nbSteps - 1);
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// offset to 4 corners of straight
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int offset[] = { LEFT_BARRIER_START_LEFT,
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last + LEFT_BARRIER_END_LEFT,
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last + RIGHT_BARRIER_END_RIGHT,
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RIGHT_BARRIER_START_RIGHT };
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for (int j = 0; j < 4; j++)
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{
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int start = offset[j];
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int next = offset[(j + 1) % 4];
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if (points[start].y <= point.y)
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{
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if (points[next].y > point.y)
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{
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if (isLeft(points[start], points[next], point) > 0)
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++count;
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}
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}
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else
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{
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if (points[next].y <= point.y)
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{
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if (isLeft(points[start], points[next], point) < 0)
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--count;
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}
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}
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}
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return count != 0;
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}
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protected void setBounds()
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{
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if (points == null || points.length == 0)
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return;
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double minX = Double.MAX_VALUE;
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double maxX = -Double.MAX_VALUE;
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double minY = Double.MAX_VALUE;
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double maxY = -Double.MAX_VALUE;
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int stride = 4 * (7 + (Editor.getProperties().getShowArrows() > 0.0 ? 1 : 0));
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int last = stride * (nbSteps - 1);
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// offset to 4 corners of straight
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int offset[] = { LEFT_BARRIER_START_LEFT,
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last + LEFT_BARRIER_END_LEFT,
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last + RIGHT_BARRIER_END_RIGHT,
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RIGHT_BARRIER_START_RIGHT };
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for (int i = 0; i < 4; i++)
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{
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if (minX > points[offset[i]].x)
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minX = points[offset[i]].x;
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if (maxX < points[offset[i]].x)
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maxX = points[offset[i]].x;
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if (minY > points[offset[i]].y)
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minY = points[offset[i]].y;
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if (maxY < points[offset[i]].y)
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maxY = points[offset[i]].y;
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}
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boundingRectangle.setRect(minX, minY, maxX - minX, maxY - minY);
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}
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public void calcShape(EditorFrame editorFrame) throws Exception
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{
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double currentX = Editor.getProperties().getCurrentX();
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double currentY = Editor.getProperties().getCurrentY();
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double currentA = Editor.getProperties().getCurrentA();
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double showArrows = Editor.getProperties().getShowArrows();
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double profilStepsLength = getValidProfilStepsLength(editorFrame);
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double trackWidth = editorFrame.getTrackData().getMainTrack().getWidth();
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double leftBorderWidth = getValidLeftBorderWidth(editorFrame);
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double rightBorderWidth = getValidRightBorderWidth(editorFrame);
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double leftSideStartWidth = getValidLeftSideStartWidth(editorFrame);
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double leftSideEndWidth = getValidLeftSideEndWidth(editorFrame);
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double rightSideStartWidth = getValidRightSideStartWidth(editorFrame);
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double rightSideEndWidth = getValidRightSideEndWidth(editorFrame);
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double leftBarrierWidth = getValidLeftBarrierWidth(editorFrame);
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double rightBarrierWidth = getValidRightBarrierWidth(editorFrame);
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double leftStartHeight = this.getCalculatedHeightStartLeft();
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double rightStartHeight = this.getCalculatedHeightStartRight();
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double leftEndHeight = this.getCalculatedHeightEndLeft();
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double rightEndHeight = this.getCalculatedHeightEndRight();
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if (hasProfilSteps())
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{
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nbSteps = getProfilSteps();
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}
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else
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{
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nbSteps = (int) (length / profilStepsLength + 0.5) + 1;
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}
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stepLength = length / nbSteps;
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if (points == null || points.length != 4 * (7 + (showArrows > 0.0 ? 1 : 0)) * nbSteps)
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{
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points = new Point3D[4 * (7 + (showArrows > 0.0 ? 1 : 0)) * nbSteps];
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for (int i = 0; i < points.length; i++)
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points[i] = new Point3D();
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trPoints = new Point2D.Double[4 * (7 + (showArrows > 0.0 ? 1 : 0)) * nbSteps];
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for (int i = 0; i < trPoints.length; i++)
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trPoints[i] = new Point2D.Double();
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}
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int currentSubSeg = 0;
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double leftSideDeltaStep = (leftSideEndWidth - leftSideStartWidth) / nbSteps;
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double rightSideDeltaStep = (rightSideEndWidth - rightSideStartWidth) / nbSteps;
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double leftHeightDeltaStep = (leftEndHeight - leftStartHeight) / nbSteps;
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double rightHeightDeltaStep = (rightEndHeight - rightStartHeight) / nbSteps;
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double cos = Math.cos(currentA) * stepLength;
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double sin = Math.sin(currentA) * stepLength;
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double cosTransLeft = Math.cos(currentA + Math.PI / 2);
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double sinTransLeft = Math.sin(currentA + Math.PI / 2);
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boolean linear = getValidProfil(editorFrame).equals("linear");
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double T1l = (getCalculatedStartTangentLeft() / 100.0) * getLength();
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double T2l = (getCalculatedEndTangentLeft() / 100.0) * getLength();
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double tl = 0.0;
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double dtl = 1.0 / nbSteps;
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double T1r = (getCalculatedStartTangentRight() / 100.0) * getLength();
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double T2r = (getCalculatedEndTangentRight() / 100.0) * getLength();
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double tr = 0.0;
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double dtr = 1.0 / nbSteps;
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double curzsl = leftStartHeight;
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double curzsr = rightStartHeight;
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double curzel = leftStartHeight;
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double curzer = rightStartHeight;
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for (int nStep = 0; nStep < nbSteps; nStep++)
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{
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// track
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points[currentSubSeg + TRACK_START_LEFT].x = currentX + cosTransLeft * trackWidth / 2;
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points[currentSubSeg + TRACK_START_LEFT].y = currentY + sinTransLeft * trackWidth / 2;
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points[currentSubSeg + TRACK_END_LEFT].x = points[currentSubSeg + TRACK_START_LEFT].x + cos;
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points[currentSubSeg + TRACK_END_LEFT].y = points[currentSubSeg + TRACK_START_LEFT].y + sin;
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points[currentSubSeg + TRACK_START_RIGHT].x = currentX - cosTransLeft * trackWidth / 2;
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points[currentSubSeg + TRACK_START_RIGHT].y = currentY - sinTransLeft * trackWidth / 2;
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points[currentSubSeg + TRACK_END_RIGHT].x = points[currentSubSeg + TRACK_START_RIGHT].x + cos;
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points[currentSubSeg + TRACK_END_RIGHT].y = points[currentSubSeg + TRACK_START_RIGHT].y + sin;
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if (linear)
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{
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points[currentSubSeg + TRACK_START_LEFT].z = leftStartHeight + leftHeightDeltaStep * nStep;
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points[currentSubSeg + TRACK_END_LEFT].z = leftStartHeight + leftHeightDeltaStep * (nStep + 1);
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points[currentSubSeg + TRACK_END_RIGHT].z = rightStartHeight + rightHeightDeltaStep * (nStep + 1);
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points[currentSubSeg + TRACK_START_RIGHT].z = rightStartHeight + rightHeightDeltaStep * nStep;
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}
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else
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{
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tl += dtl;
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tr += dtr;
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curzsl = curzel;
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curzel = trackSpline(leftStartHeight, leftEndHeight, T1l, T2l, tl);
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curzsr = curzer;
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curzer = trackSpline(rightStartHeight, rightEndHeight, T1r, T2r, tr);
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points[currentSubSeg + TRACK_START_LEFT].z = curzsl;
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points[currentSubSeg + TRACK_END_LEFT].z = curzel;
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points[currentSubSeg + TRACK_END_RIGHT].z = curzer;
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points[currentSubSeg + TRACK_START_RIGHT].z = curzsr;
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}
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// left border
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points[currentSubSeg + LEFT_BORDER_START_LEFT].x = currentX + cosTransLeft * (trackWidth / 2 + leftBorderWidth);
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points[currentSubSeg + LEFT_BORDER_START_LEFT].y = currentY + sinTransLeft * (trackWidth / 2 + leftBorderWidth);
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points[currentSubSeg + LEFT_BORDER_END_LEFT].x = points[currentSubSeg + LEFT_BORDER_START_LEFT].x + cos;
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points[currentSubSeg + LEFT_BORDER_END_LEFT].y = points[currentSubSeg + LEFT_BORDER_START_LEFT].y + sin;
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points[currentSubSeg + LEFT_BORDER_START_RIGHT].x = points[currentSubSeg + TRACK_START_LEFT].x;
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points[currentSubSeg + LEFT_BORDER_START_RIGHT].y = points[currentSubSeg + TRACK_START_LEFT].y;
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points[currentSubSeg + LEFT_BORDER_END_RIGHT].x = points[currentSubSeg + TRACK_END_LEFT].x;
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points[currentSubSeg + LEFT_BORDER_END_RIGHT].y = points[currentSubSeg + TRACK_END_LEFT].y;
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// left side
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points[currentSubSeg + LEFT_SIDE_START_LEFT].x = currentX + cosTransLeft * (trackWidth / 2 + leftBorderWidth + leftSideStartWidth + (leftSideDeltaStep * nStep));
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points[currentSubSeg + LEFT_SIDE_START_LEFT].y = currentY + sinTransLeft * (trackWidth / 2 + leftBorderWidth + leftSideStartWidth + (leftSideDeltaStep * nStep));
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points[currentSubSeg + LEFT_SIDE_END_LEFT].x = currentX + cos + cosTransLeft * (trackWidth / 2 + leftBorderWidth + leftSideStartWidth + (leftSideDeltaStep * (nStep + 1)));
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points[currentSubSeg + LEFT_SIDE_END_LEFT].y = currentY + sin + sinTransLeft * (trackWidth / 2 + leftBorderWidth + leftSideStartWidth + (leftSideDeltaStep * (nStep + 1)));
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points[currentSubSeg + LEFT_SIDE_END_RIGHT].x = points[currentSubSeg + LEFT_BORDER_END_LEFT].x;
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points[currentSubSeg + LEFT_SIDE_END_RIGHT].y = points[currentSubSeg + LEFT_BORDER_END_LEFT].y;
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points[currentSubSeg + LEFT_SIDE_START_RIGHT].x = points[currentSubSeg + LEFT_BORDER_START_LEFT].x;
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points[currentSubSeg + LEFT_SIDE_START_RIGHT].y = points[currentSubSeg + LEFT_BORDER_START_LEFT].y;
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// left barrier
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points[currentSubSeg + LEFT_BARRIER_START_LEFT].x = currentX + cosTransLeft * (trackWidth / 2 + leftBorderWidth + leftSideStartWidth + (leftSideDeltaStep * nStep) + leftBarrierWidth);
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points[currentSubSeg + LEFT_BARRIER_START_LEFT].y = currentY + sinTransLeft * (trackWidth / 2 + leftBorderWidth + leftSideStartWidth + (leftSideDeltaStep * nStep) + leftBarrierWidth);
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points[currentSubSeg + LEFT_BARRIER_END_LEFT].x = currentX + cos + cosTransLeft * (trackWidth / 2 + leftBorderWidth + leftSideStartWidth + (leftSideDeltaStep * (nStep + 1)) + leftBarrierWidth);
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points[currentSubSeg + LEFT_BARRIER_END_LEFT].y = currentY + sin + sinTransLeft * (trackWidth / 2 + leftBorderWidth + leftSideStartWidth + (leftSideDeltaStep * (nStep + 1)) + leftBarrierWidth);
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points[currentSubSeg + LEFT_BARRIER_START_RIGHT].x = points[currentSubSeg + LEFT_SIDE_START_LEFT].x;
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points[currentSubSeg + LEFT_BARRIER_START_RIGHT].y = points[currentSubSeg + LEFT_SIDE_START_LEFT].y;
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points[currentSubSeg + LEFT_BARRIER_END_RIGHT].x = points[currentSubSeg + LEFT_SIDE_END_LEFT].x;
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points[currentSubSeg + LEFT_BARRIER_END_RIGHT].y = points[currentSubSeg + LEFT_SIDE_END_LEFT].y;
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// right border
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points[currentSubSeg + RIGHT_BORDER_START_RIGHT].x = currentX - cosTransLeft * (trackWidth / 2 + rightBorderWidth);
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points[currentSubSeg + RIGHT_BORDER_START_RIGHT].y = currentY - sinTransLeft * (trackWidth / 2 + rightBorderWidth);
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points[currentSubSeg + RIGHT_BORDER_END_RIGHT].x = points[currentSubSeg + RIGHT_BORDER_START_RIGHT].x + cos;
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points[currentSubSeg + RIGHT_BORDER_END_RIGHT].y = points[currentSubSeg + RIGHT_BORDER_START_RIGHT].y + sin;
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points[currentSubSeg + RIGHT_BORDER_START_LEFT].x = points[currentSubSeg + TRACK_START_RIGHT].x;
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points[currentSubSeg + RIGHT_BORDER_START_LEFT].y = points[currentSubSeg + TRACK_START_RIGHT].y;
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points[currentSubSeg + RIGHT_BORDER_END_LEFT].x = points[currentSubSeg + TRACK_END_RIGHT].x;
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points[currentSubSeg + RIGHT_BORDER_END_LEFT].y = points[currentSubSeg + TRACK_END_RIGHT].y;
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// right side
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points[currentSubSeg + RIGHT_SIDE_START_RIGHT].x = currentX - cosTransLeft * (trackWidth / 2 + rightBorderWidth + rightSideStartWidth + (rightSideDeltaStep * nStep));
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points[currentSubSeg + RIGHT_SIDE_START_RIGHT].y = currentY - sinTransLeft * (trackWidth / 2 + rightBorderWidth + rightSideStartWidth + (rightSideDeltaStep * nStep));
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points[currentSubSeg + RIGHT_SIDE_END_RIGHT].x = currentX + cos - cosTransLeft * (trackWidth / 2 + rightBorderWidth + rightSideStartWidth + (rightSideDeltaStep * (nStep + 1)));
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points[currentSubSeg + RIGHT_SIDE_END_RIGHT].y = currentY + sin - sinTransLeft * (trackWidth / 2 + rightBorderWidth + rightSideStartWidth + (rightSideDeltaStep * (nStep + 1)));
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points[currentSubSeg + RIGHT_SIDE_END_LEFT].x = points[currentSubSeg + RIGHT_BORDER_END_RIGHT].x;
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points[currentSubSeg + RIGHT_SIDE_END_LEFT].y = points[currentSubSeg + RIGHT_BORDER_END_RIGHT].y;
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points[currentSubSeg + RIGHT_SIDE_START_LEFT].x = points[currentSubSeg + RIGHT_BORDER_START_RIGHT].x;
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points[currentSubSeg + RIGHT_SIDE_START_LEFT].y = points[currentSubSeg + RIGHT_BORDER_START_RIGHT].y;
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// right barrier
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points[currentSubSeg + RIGHT_BARRIER_START_RIGHT].x = currentX - cosTransLeft * (trackWidth / 2 + rightBorderWidth + rightSideStartWidth + (rightSideDeltaStep * nStep) + rightBarrierWidth);
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points[currentSubSeg + RIGHT_BARRIER_START_RIGHT].y = currentY - sinTransLeft * (trackWidth / 2 + rightBorderWidth + rightSideStartWidth + (rightSideDeltaStep * nStep) + rightBarrierWidth);
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points[currentSubSeg + RIGHT_BARRIER_END_RIGHT].x = currentX + cos - cosTransLeft * (trackWidth / 2 + rightBorderWidth + rightSideStartWidth + (rightSideDeltaStep * (nStep + 1)) + rightBarrierWidth);
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points[currentSubSeg + RIGHT_BARRIER_END_RIGHT].y = currentY + sin - sinTransLeft * (trackWidth / 2 + rightBorderWidth + rightSideStartWidth + (rightSideDeltaStep * (nStep + 1)) + rightBarrierWidth);
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points[currentSubSeg + RIGHT_BARRIER_START_LEFT].x = points[currentSubSeg + RIGHT_SIDE_START_RIGHT].x;
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points[currentSubSeg + RIGHT_BARRIER_START_LEFT].y = points[currentSubSeg + RIGHT_SIDE_START_RIGHT].y;
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points[currentSubSeg + RIGHT_BARRIER_END_LEFT].x = points[currentSubSeg + RIGHT_SIDE_END_RIGHT].x;
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points[currentSubSeg + RIGHT_BARRIER_END_LEFT].y = points[currentSubSeg + RIGHT_SIDE_END_RIGHT].y;
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if (showArrows > 0.0)
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{
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// arrow
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points[currentSubSeg + ARROW_START_LEFT].x = points[currentSubSeg + TRACK_START_LEFT].x;
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points[currentSubSeg + ARROW_START_LEFT].y = points[currentSubSeg + TRACK_START_LEFT].y;
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points[currentSubSeg + ARROW_END_LEFT].x = points[currentSubSeg + ARROW_START_LEFT].x + cos - (cosTransLeft * trackWidth / 2) * 0.99999;
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points[currentSubSeg + ARROW_END_LEFT].y = points[currentSubSeg + ARROW_START_LEFT].y + sin - (sinTransLeft * trackWidth / 2) * 0.99999;
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points[currentSubSeg + ARROW_START_RIGHT].x = points[currentSubSeg + TRACK_START_RIGHT].x;
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points[currentSubSeg + ARROW_START_RIGHT].y = points[currentSubSeg + TRACK_START_RIGHT].y;
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points[currentSubSeg + ARROW_END_RIGHT].x = points[currentSubSeg + ARROW_START_RIGHT].x + cos + (cosTransLeft * trackWidth / 2) * 0.99999;
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points[currentSubSeg + ARROW_END_RIGHT].y = points[currentSubSeg + ARROW_START_RIGHT].y + sin + (sinTransLeft * trackWidth / 2) * 0.99999;
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currentSubSeg += 32;
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}
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else
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{
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currentSubSeg += 28;
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}
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// move track center
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this.dx = cos;
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this.dy = sin;
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currentX += cos;
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currentY += sin;
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}
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endTrackCenter.setLocation(currentX, currentY);
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endTrackAlpha = startTrackAlpha;
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setBounds();
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Editor.getProperties().setCurrentA(currentA);
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Editor.getProperties().setCurrentX(currentX);
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Editor.getProperties().setCurrentY(currentY);
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}
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public void drag(Point2D.Double dragDelta)
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{
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}
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public Object clone()
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{
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Straight s;
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s = (Straight) super.clone();
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return s; // return the clone
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}
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public void dump(PrintStream printStream, String indent, boolean dumpCalculated, boolean dumpPoints, boolean dumpTrPoints, boolean dumpToDraw)
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{
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printStream.println(indent + "Straight");
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super.dump(printStream, indent, dumpCalculated, dumpPoints, dumpTrPoints, dumpToDraw);
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}
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}
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