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package com.ctreber.acearth.scanbit;

import java.util.ArrayList;
import java.util.Comparator;
import java.util.List;

import com.ctreber.acearth.projection.Projection;
import com.ctreber.acearth.util.EdgeCrossing;
import com.ctreber.acearth.util.Point2D;
import com.ctreber.acearth.util.Point3D;
import com.ctreber.acearth.util.Polygon;
import com.ctreber.aclib.sort.CTSort;
import com.ctreber.aclib.sort.QuickSort;

/**
 * 

* A BitGeneratorMap scans a map into ScanBits. * *

* © 2002 Christian Treber, [email protected] * * @author Christian Treber, [email protected] * */ public abstract class BitGeneratorMap extends ScanBitGenerator { // Types of pixels. public static final int PixTypeSpace = 0; public static final int PixTypeLand = 1; public static final int PixTypeWater = 2; public static final int PixTypeStar = 3; public static final int PixTypeGridLand = 4; public static final int PixTypeGridWater = 5; // Parameters influencing generateScanBits buffer genertion. private Polygon[] fMapData; Projection fProjection; private List fScanbitsVector = new ArrayList(); // Created by scanPolygon List fEdgeCrossings; abstract protected ScanBuf scanOutline(); abstract protected void handleCrossings(ScanBuf pScanBuf, EdgeCrossing[] pEdgeCrossings); abstract protected Comparator getEdgeXingComparator(); abstract protected void scanPolygon(ScanBuf pScanBuf, Point3D[] pPoints3D, Point2D[] pPoints2D, int pIndex); public BitGeneratorMap(Projection pProjection) { fProjection = pProjection; } /** *

* Create outline for the map, scan all polygons. */ public void generateScanBits() { // Prepare data. fScanbitsVector = new ArrayList(); fProjection.setImageWidth(fImageWidth); fProjection.setImageHeight(fImageHeight); fProjection.initTransformTable(); // Trace outling and polygons. final ScanBuf lScanBuf = scanOutline(); fScanbitsVector.addAll(lScanBuf.getScanbits(64)); scanPolygons(); // Dress results. final CTSort lSort = new QuickSort(); fScanBitsArray = (ScanBit[]) fScanbitsVector.toArray(new ScanBit[0]); lSort.sort(fScanBitsArray); } private void scanPolygons() { for (int lPolyNo = 0; lPolyNo < fMapData.length; lPolyNo++) { Polygon lPolygon = fMapData[lPolyNo]; Point3D[] lPoints3D = new Point3D[lPolygon.getSize()]; Point2D[] lPoints2D = new Point2D[lPolygon.getSize()]; transformPolygonPoints(lPolygon, lPoints3D, lPoints2D); // For all points in polygon... fEdgeCrossings = new ArrayList(); ScanBuf lScanBuf = new ScanBuf(fImageHeight, fImageWidth); for (int i = 0; i < lPoints2D.length; i++) { scanPolygon(lScanBuf, lPoints3D, lPoints2D, i); } if (fEdgeCrossings.size() > 0) { // Edge crossings have been generated, deal with them. final EdgeCrossing[] xings = (EdgeCrossing[]) fEdgeCrossings.toArray(new EdgeCrossing[0]); final CTSort lSort = new QuickSort(); lSort.sort(xings, getEdgeXingComparator()); handleCrossings(lScanBuf, xings); } if (lScanBuf.containsPoints()) { // Scan lines have been generated, transform them into ScanBit. fScanbitsVector.addAll(lScanBuf.getScanbits(lPolygon.getType())); } } } /** * The transformation rotates 3D and projects 2D points from it */ private void transformPolygonPoints(Polygon pPolygon, Point3D[] pPoints3D, Point2D[] pPoints2D) { for (int i = 0; i < pPolygon.getPoints().length; i++) { Point3D lPoint = pPolygon.getPoints()[i]; Point3D lPointRotated = fProjection.rotate(lPoint); pPoints3D[i] = lPointRotated; pPoints2D[i] = fProjection.project2D(lPointRotated); } } public void setMapData(Polygon[] pMapData) { fMapData = pMapData; } protected void addEdgeXing(EdgeCrossing pEdgeXing) { fEdgeCrossings.add(pEdgeXing); } }





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