All Downloads are FREE. Search and download functionalities are using the official Maven repository.

ext.plantuml.com.ctreber.acearth.scanbit.BitGeneratorMapOrtho Maven / Gradle / Ivy

Go to download

PlantUML is a component that allows to quickly write : * sequence diagram, * use case diagram, * class diagram, * activity diagram, * component diagram, * state diagram * object diagram

There is a newer version: 8059
Show newest version
package ext.plantuml.com.ctreber.acearth.scanbit;

import java.util.Comparator;

import ext.plantuml.com.ctreber.acearth.projection.Projection;
import ext.plantuml.com.ctreber.acearth.util.EdgeCrossing;
import ext.plantuml.com.ctreber.acearth.util.Point2D;
import ext.plantuml.com.ctreber.acearth.util.Point3D;

/**
 * 

Map scanner for orthographic projection. * *

© 2002 Christian Treber, [email protected] * @author Christian Treber, [email protected] * */ public class BitGeneratorMapOrtho extends BitGeneratorMap { public BitGeneratorMapOrtho(Projection pProjection) { super(pProjection); } protected Comparator getEdgeXingComparator() { return new EdgeCrossingComparator(); } protected ScanBuf scanOutline() { final ScanBuf lScanBuf = new ScanBuf(fImageHeight, fImageWidth); addArcToScanbuf(lScanBuf, 1.0, 0.0, 0.0, 1.0, 0.0, 2 * Math.PI); return lScanBuf; } private void addArcToScanbuf(ScanBuf pScanBuf, double pXFrom, double pYFrom, double pAngleFrom, double pXTo, double pYTo, double pAngleTo) { double step = 1 / fProjection.getScale() * 10; if(step > 0.05) { step = 0.05; } final int lAngleFrom = (int)Math.ceil(pAngleFrom / step); final int lAngleTo = (int)Math.floor(pAngleTo / step); double prev_x = fProjection.finalizeX(pXFrom); double prev_y = fProjection.finalizeY(pYFrom); double curr_x; double curr_y; if(lAngleFrom <= lAngleTo) { double c_step = Math.cos(step); double s_step = Math.sin(step); double angle = lAngleFrom * step; double arc_x = Math.cos(angle); double arc_y = Math.sin(angle); for(int i = lAngleFrom; i <= lAngleTo; i++) { curr_x = fProjection.finalizeX(arc_x); curr_y = fProjection.finalizeY(arc_y); pScanBuf.addLine(prev_x, prev_y, curr_x, curr_y); /* instead of repeatedly calling cos() and sin() to get the next * values for arc_x and arc_y, simply rotate the existing values */ double tmp = (c_step * arc_x) - (s_step * arc_y); arc_y = (s_step * arc_x) + (c_step * arc_y); arc_x = tmp; prev_x = curr_x; prev_y = curr_y; } } curr_x = fProjection.finalizeX(pXTo); curr_y = fProjection.finalizeY(pYTo); pScanBuf.addLine(prev_x, prev_y, curr_x, curr_y); } protected void scanPolygon(ScanBuf pScanBuf, Point3D[] pPoints3D, Point2D[] pPoints2D, int pIndex) { Point3D extra; Point3D lCurr = pPoints3D[pIndex]; final int lIndexPrev = pIndex - 1 >= 0 ? pIndex - 1 : pPoints2D.length - 1; Point3D lPrev = pPoints3D[lIndexPrev]; if(lPrev.getZ() <= 0) { if(lCurr.getZ() <= 0) { return; } // Previous point not visible, but current one is: horizon crossed. extra = findEdgeCrossing(lPrev, lCurr); addEdgeXing(new EdgeCrossing(EdgeCrossing.XingTypeEntry, pIndex, extra.getX(), extra.getY(), Math.atan2(extra.getY(), extra.getX()))); lPrev = extra; } else { if(lCurr.getZ() <= 0) { // Previous point visible, but current is not: horizon crossed. extra = findEdgeCrossing(lPrev, lCurr); addEdgeXing(new EdgeCrossing(EdgeCrossing.XingTypeExit, pIndex, extra.getX(), extra.getY(), Math.atan2(extra.getY(), extra.getX()))); lCurr = extra; } } pScanBuf.addLine( fProjection.finalizeX(lPrev.getX()), fProjection.finalizeY(lPrev.getY()), fProjection.finalizeX(lCurr.getX()), fProjection.finalizeY(lCurr.getY())); } private Point3D findEdgeCrossing(Point3D pPrev, Point3D pCurr) { double tmp = pCurr.getZ() / (pCurr.getZ() - pPrev.getZ()); final double r0 = pCurr.getX() - tmp * (pCurr.getX() - pPrev.getX()); final double r1 = pCurr.getY() - tmp * (pCurr.getY() - pPrev.getY()); tmp = Math.sqrt((r0 * r0) + (r1 * r1)); return new Point3D(r0 / tmp, r1 / tmp, 0); } protected void handleCrossings(ScanBuf pScanBuf, EdgeCrossing[] xings) { EdgeCrossing from; EdgeCrossing to; int lStart; if(xings[0].getType() == EdgeCrossing.XingTypeExit) { lStart = 0; } else { from = xings[xings.length - 1]; to = xings[0]; addArcToScanbuf(pScanBuf, from.getX(), from.getY(), from.getAngle(), to.getX(), to.getY(), to.getAngle() + 2 * Math.PI); lStart = 1; } for(int i = lStart; i < xings.length - 1; i += 2) { from = xings[i]; to = xings[i + 1]; addArcToScanbuf(pScanBuf, from.getX(), from.getY(), from.getAngle(), to.getX(), to.getY(), to.getAngle()); } } private static class EdgeCrossingComparator implements Comparator { public int compare(Object o1, Object o2) { final EdgeCrossing a = (EdgeCrossing)o1; final EdgeCrossing b = (EdgeCrossing)o2; return (a.getAngle() < b.getAngle()) ? -1 : (a.getAngle() > b.getAngle()) ? 1 : 0; } } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy