root / trunk / libraries / libDwg / src-test / com / iver / cit / jdwglib / dwg / DwgFileTest.java @ 10821
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package com.iver.cit.jdwglib.dwg; |
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import java.io.File; |
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import java.io.IOException; |
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import java.net.URL; |
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import java.util.List; |
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import junit.framework.TestCase; |
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import com.iver.cit.jdwglib.dwg.objects.DwgPFacePolyline; |
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public class DwgFileTest extends TestCase { |
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private File baseDataPath; |
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protected void setUp() throws Exception { |
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super.setUp();
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URL url = this.getClass().getResource("DwgFileTest_data"); |
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if (url == null) |
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throw new Exception("Can't find 'DwgFileTest_data' dir"); |
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baseDataPath = new File(url.getFile()); |
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if (!baseDataPath.exists())
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throw new Exception("Can't find 'DwgFileTest_data' dir"); |
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} |
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protected void tearDown() throws Exception { |
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super.tearDown();
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} |
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public void test1() throws IOException, DwgVersionNotSupportedException { |
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// String fileName = baseDataPath.getAbsolutePath()+"/Un punto.dwg";
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// DwgFile dwg = new DwgFile(fileName);
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//
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// dwg.read();
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// dwg.calculateGisModelDwgPolylines();
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// dwg.blockManagement();
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// LinkedList dwgObjects = dwg.getDwgObjects();
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} |
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/*
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* 0 LWPOLYLINE 5 67A3 330 14B33 100 AcDbEntity 8 51 6 Continuous 62 1 100
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* AcDbPolyline 90 2 70 0 43 0.05 38 3687388.508636616 10 2615813.541238185
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* 20 31.11 10 2615809.722835378 20 31.13 210 0.7097208274403748 220
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* 0.704483035350994 230 0.0
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*
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*/
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// test of extrusion
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public void test3() { |
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// test of extrusion
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// double[] coord = null;
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// double[] extrusion = null;
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// double[] extrusion2 = new double[]{0, 0, 1};
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//
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} |
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// test of DWG 12 format
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public void test4() throws IOException, DwgVersionNotSupportedException { |
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String fileName = baseDataPath.getAbsolutePath() + "/TORRE03.DWG"; |
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DwgFile dwg = new DwgFile(fileName);
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dwg.read(); |
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dwg.calculateGisModelDwgPolylines(); |
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//antes de los bloques
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List dwgObjects = dwg.getDwgObjects();
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dwg.blockManagement2(); |
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//despues de los bloques
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dwgObjects = dwg.getDwgObjects(); |
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for(int i = 0; i < dwgObjects.size(); i++){ |
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DwgObject o = (DwgObject) dwgObjects.get(i); |
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if(o instanceof IDwg2FMap){ |
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((IDwg2FMap)o).toFMapGeometry(true);
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} |
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} |
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} |
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// test of block transform
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public void test5() { |
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// datos del bloque
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// double[] insertionPoint = new double[] { 775183.239, 4453869.608, 0 };
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// double[] scale = new double[] { 0.20, 0.20, 5.512 };
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// double rotation = 0.2;
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// double[] basePoint = new double[] { 0, 0, 0 };
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//
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// double[] p1 = new double[] { -4.7, 2.3, 0 };
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// double[] p2 = new double[] { -3.75, 0.6, 0 };
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// double[] p3 = new double[] { -1.8, -0.15, 0 };
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// double[] p4 = new double[] { 0, 0, 0 };
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//
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// // a) Metodo actual
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// Point2D p11 = new Point2D.Double(p1[0], p1[1]);
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// Point2D p21 = new Point2D.Double(p2[0], p2[1]);
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// Point2D p31 = new Point2D.Double(p3[0], p3[1]);
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// Point2D p41 = new Point2D.Double(p4[0], p4[1]);
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//
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// java.awt.geom.AffineTransform affineTrans = new java.awt.geom.AffineTransform();
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// affineTrans.translate(insertionPoint[0], insertionPoint[1]);
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// affineTrans.rotate(rotation);
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// affineTrans.scale(scale[0], scale[1]);
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//
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// Point2D newP2d1 = affineTrans.transform(p11, null);
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// Point2D newP2d2 = affineTrans.transform(p21, null);
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// Point2D newP2d3 = affineTrans.transform(p31, null);
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// Point2D newP2d4 = affineTrans.transform(p41, null);
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// com.iver.cit.jdwglib.util.Matrix4D scaleMat = new com.iver.cit.jdwglib.util.Matrix4D(scale[0], 0.0F, 0.0F, 0.0F,
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// 0.0F, scale[1], 0.0F, 0.0F,
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// 0.0F, 0.0F, scale[2], 0.0F,
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// 0.0F, 0.0F, 0.0F, 1.0F);
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// com.iver.cit.jdwglib.util.Matrix4D rotationMat =
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// new com.iver.cit.jdwglib.util.Matrix4D();
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// rotationMat.zrot(rotation);
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// com.iver.cit.jdwglib.util.Matrix4D aaaMat =
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// new com.iver.cit.jdwglib.util.Matrix4D();
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// com.iver.cit.jdwglib.util.Matrix4D translationMat =
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// new com.iver.cit.jdwglib.util.Matrix4D();
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// translationMat.translate(new com.iver.cit.jdwglib.util.Vector3D(insertionPoint[0],
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// insertionPoint[1],
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// insertionPoint[2]));
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//
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// com.iver.cit.jdwglib.util.Matrix4D trafo = aaaMat.
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// mult(translationMat.
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// mult(rotationMat.
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// mult(scaleMat)));
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//
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// Point3D a1 = new Point3D(p1[0], p1[1], p1[2]);
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// trafo.transform(a1);
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// Point3D a2 = new Point3D(p2[0], p2[1], p2[2]);
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// trafo.transform(a2);
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// Point3D a3 = new Point3D(p3[0], p3[1], p3[2]);
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// trafo.transform(a3);
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// Point3D a4 = new Point3D(p4[0], p4[1], p4[2]);
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// trafo.transform(a4);
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} |
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} |