diff options
author | Sven Gothel <[email protected]> | 2011-04-01 06:56:02 +0200 |
---|---|---|
committer | Sven Gothel <[email protected]> | 2011-04-01 06:56:02 +0200 |
commit | 7ff7e5dd2c4f863fd6fca4f79ab544275fdd424e (patch) | |
tree | 52cd37b0d7e4e94e083f543d5f8dc8b1cb8bb9c7 /turtle2d/src/jogamp/graph/curve/tess/Loop.java | |
parent | ecab143a041af5aa9cdd3972a980d628f540fe93 (diff) | |
parent | 4b8bd5ec58cb2edfb51bd9ee930beb9c539a8a0b (diff) |
Merge turtle2d in it's subdifrectory for later relocation
Diffstat (limited to 'turtle2d/src/jogamp/graph/curve/tess/Loop.java')
-rw-r--r-- | turtle2d/src/jogamp/graph/curve/tess/Loop.java | 373 |
1 files changed, 373 insertions, 0 deletions
diff --git a/turtle2d/src/jogamp/graph/curve/tess/Loop.java b/turtle2d/src/jogamp/graph/curve/tess/Loop.java new file mode 100644 index 000000000..fd7736a20 --- /dev/null +++ b/turtle2d/src/jogamp/graph/curve/tess/Loop.java @@ -0,0 +1,373 @@ +/** + * Copyright 2010 JogAmp Community. All rights reserved. + * + * Redistribution and use in source and binary forms, with or without modification, are + * permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, this list of + * conditions and the following disclaimer. + * + * 2. Redistributions in binary form must reproduce the above copyright notice, this list + * of conditions and the following disclaimer in the documentation and/or other materials + * provided with the distribution. + * + * THIS SOFTWARE IS PROVIDED BY JogAmp Community ``AS IS'' AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND + * FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL JogAmp Community OR + * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR + * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON + * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING + * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF + * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + * The views and conclusions contained in the software and documentation are those of the + * authors and should not be interpreted as representing official policies, either expressed + * or implied, of JogAmp Community. + */ +package jogamp.graph.curve.tess; + +import java.util.ArrayList; + + +import com.jogamp.graph.geom.AABBox; +import com.jogamp.graph.geom.Vertex; +import com.jogamp.graph.geom.Triangle; +import com.jogamp.graph.math.VectorUtil; + +public class Loop { + private HEdge root = null; + private AABBox box = new AABBox(); + private GraphOutline initialOutline = null; + + public Loop(GraphOutline polyline, int direction){ + initialOutline = polyline; + this.root = initFromPolyline(initialOutline, direction); + } + + public HEdge getHEdge(){ + return root; + } + + public Triangle cut(boolean delaunay){ + if(isSimplex()){ + Triangle t = new Triangle(root.getGraphPoint().getPoint(), root.getNext().getGraphPoint().getPoint(), + root.getNext().getNext().getGraphPoint().getPoint()); + t.setVerticesBoundary(checkVerticesBoundary(root)); + return t; + } + HEdge prev = root.getPrev(); + HEdge next1 = root.getNext(); + + HEdge next2 = findClosestValidNeighbor(next1.getNext(), delaunay); + if(next2 == null){ + root = root.getNext(); + return null; + } + + GraphVertex v1 = root.getGraphPoint(); + GraphVertex v2 = next1.getGraphPoint(); + GraphVertex v3 = next2.getGraphPoint(); + + HEdge v3Edge = new HEdge(v3, HEdge.INNER); + + HEdge.connect(v3Edge, root); + HEdge.connect(next1, v3Edge); + + HEdge v3EdgeSib = v3Edge.getSibling(); + if(v3EdgeSib == null){ + v3EdgeSib = new HEdge(v3Edge.getNext().getGraphPoint(), HEdge.INNER); + HEdge.makeSiblings(v3Edge, v3EdgeSib); + } + + HEdge.connect(prev, v3EdgeSib); + HEdge.connect(v3EdgeSib, next2); + + Triangle t = createTriangle(v1.getPoint(), v2.getPoint(), v3.getPoint(), root); + this.root = next2; + return t; + } + + public boolean isSimplex(){ + return (root.getNext().getNext().getNext() == root); + } + + /**Create a connected list of half edges (loop) + * from the boundary profile + * @param direction requested winding of edges (CCW or CW) + */ + private HEdge initFromPolyline(GraphOutline outline, int direction){ + ArrayList<GraphVertex> vertices = outline.getGraphPoint(); + + if(vertices.size()<3) { + throw new IllegalArgumentException("outline's vertices < 3: " + vertices.size()); + } + boolean isCCW = VectorUtil.ccw(vertices.get(0).getPoint(), vertices.get(1).getPoint(), + vertices.get(2).getPoint()); + boolean invert = isCCW && (direction == VectorUtil.CW); + + HEdge firstEdge = null; + HEdge lastEdge = null; + int index =0; + int max = vertices.size(); + + int edgeType = HEdge.BOUNDARY; + if(invert){ + index = vertices.size() -1; + max = -1; + edgeType = HEdge.HOLE; + } + + while(index != max){ + GraphVertex v1 = vertices.get(index); + box.resize(v1.getX(), v1.getY(), v1.getZ()); + + HEdge edge = new HEdge(v1, edgeType); + + v1.addEdge(edge); + if(lastEdge != null){ + lastEdge.setNext(edge); + edge.setPrev(lastEdge); + } + else{ + firstEdge = edge; + } + + if(!invert){ + if(index == vertices.size()-1){ + edge.setNext(firstEdge); + firstEdge.setPrev(edge); + } + } + else if (index == 0){ + edge.setNext(firstEdge); + firstEdge.setPrev(edge); + } + + lastEdge = edge; + + if(!invert){ + index++; + } + else{ + index--; + } + } + return firstEdge; + } + + public void addConstraintCurve(GraphOutline polyline) { + // GraphOutline outline = new GraphOutline(polyline); + /**needed to generate vertex references.*/ + initFromPolyline(polyline, VectorUtil.CW); + + GraphVertex v3 = locateClosestVertex(polyline); + HEdge v3Edge = v3.findBoundEdge(); + HEdge v3EdgeP = v3Edge.getPrev(); + HEdge crossEdge = new HEdge(root.getGraphPoint(), HEdge.INNER); + + HEdge.connect(root.getPrev(), crossEdge); + HEdge.connect(crossEdge, v3Edge); + + HEdge crossEdgeSib = crossEdge.getSibling(); + if(crossEdgeSib == null) { + crossEdgeSib = new HEdge(crossEdge.getNext().getGraphPoint(), HEdge.INNER); + HEdge.makeSiblings(crossEdge, crossEdgeSib); + } + + HEdge.connect(v3EdgeP, crossEdgeSib); + HEdge.connect(crossEdgeSib, root); + } + + /** Locates the vertex and update the loops root + * to have (root + vertex) as closest pair + * @param polyline the control polyline + * to search for closestvertices + * @return the vertex that is closest to the newly set root Hedge. + */ + private GraphVertex locateClosestVertex(GraphOutline polyline) { + HEdge closestE = null; + GraphVertex closestV = null; + + float minDistance = Float.MAX_VALUE; + boolean inValid = false; + ArrayList<GraphVertex> initVertices = initialOutline.getGraphPoint(); + ArrayList<GraphVertex> vertices = polyline.getGraphPoint(); + + for(int i=0; i< initVertices.size()-1; i++){ + GraphVertex v = initVertices.get(i); + GraphVertex nextV = initVertices.get(i+1); + for(GraphVertex cand:vertices){ + float distance = VectorUtil.computeLength(v.getCoord(), cand.getCoord()); + if(distance < minDistance){ + for (GraphVertex vert:vertices){ + if(vert == v || vert == nextV || vert == cand) + continue; + inValid = VectorUtil.inCircle(v.getPoint(), nextV.getPoint(), + cand.getPoint(), vert.getPoint()); + if(inValid){ + break; + } + } + if(!inValid){ + closestV = cand; + minDistance = distance; + closestE = v.findBoundEdge(); + } + } + + } + } + + if(closestE != null){ + root = closestE; + } + + return closestV; + } + + private HEdge findClosestValidNeighbor(HEdge edge, boolean delaunay) { + HEdge next = root.getNext(); + + if(!VectorUtil.ccw(root.getGraphPoint().getPoint(), next.getGraphPoint().getPoint(), + edge.getGraphPoint().getPoint())){ + return null; + } + + HEdge candEdge = edge; + boolean inValid = false; + + if(delaunay){ + Vertex cand = candEdge.getGraphPoint().getPoint(); + HEdge e = candEdge.getNext(); + while (e != candEdge){ + if(e.getGraphPoint() == root.getGraphPoint() + || e.getGraphPoint() == next.getGraphPoint() + || e.getGraphPoint().getPoint() == cand){ + e = e.getNext(); + continue; + } + inValid = VectorUtil.inCircle(root.getGraphPoint().getPoint(), next.getGraphPoint().getPoint(), + cand, e.getGraphPoint().getPoint()); + if(inValid){ + break; + } + e = e.getNext(); + } + } + if(!inValid){ + return candEdge; + } + return null; + } + + /** Create a triangle from the param vertices only if + * the triangle is valid. IE not outside region. + * @param v1 vertex 1 + * @param v2 vertex 2 + * @param v3 vertex 3 + * @param root and edge of this triangle + * @return the triangle iff it satisfies, null otherwise + */ + private Triangle createTriangle(Vertex v1, Vertex v2, Vertex v3, HEdge rootT){ + Triangle t = new Triangle(v1, v2, v3); + t.setVerticesBoundary(checkVerticesBoundary(rootT)); + return t; + } + + private boolean[] checkVerticesBoundary(HEdge rootT) { + boolean[] boundary = new boolean[3]; + HEdge e1 = rootT; + HEdge e2 = rootT.getNext(); + HEdge e3 = rootT.getNext().getNext(); + + if(e1.getGraphPoint().isBoundaryContained()){ + boundary[0] = true; + } + if(e2.getGraphPoint().isBoundaryContained()){ + boundary[1] = true; + } + if(e3.getGraphPoint().isBoundaryContained()){ + boundary[2] = true; + } + return boundary; + } + + + /** Check if vertex inside the Loop + * @param vertex the Vertex + * @return true if the vertex is inside, false otherwise + */ + public boolean checkInside(Vertex vertex) { + if(!box.contains(vertex.getX(), vertex.getY(), vertex.getZ())){ + return false; + } + + float[] center = box.getCenter(); + + int hits = 0; + HEdge current = root; + HEdge next = root.getNext(); + while(next!= root){ + if(current.getType() == HEdge.INNER || next.getType() == HEdge.INNER){ + current = next; + next = current.getNext(); + continue; + } + Vertex vert1 = current.getGraphPoint().getPoint(); + Vertex vert2 = next.getGraphPoint().getPoint(); + + /** The ray is P0+s*D0, where P0 is the ray origin, D0 is a direction vector and s >= 0. + * The segment is P1+t*D1, where P1 and P1+D1 are the endpoints, and 0 <= t <= 1. + * perp(x,y) = (y,-x). + * if Dot(perp(D1),D0) is not zero, + * s = Dot(perp(D1),P1-P0)/Dot(perp(D1),D0) + * t = Dot(perp(D0),P1-P0)/Dot(perp(D1),D0) + */ + + float[] d0 = new float[]{center[0] - vertex.getX(), center[1]-vertex.getY(), + center[2]-vertex.getZ()}; + float[] d1 = {vert2.getX() - vert1.getX(), vert2.getY() - vert1.getY(), + vert2.getZ() - vert1.getZ()}; + + float[] prep_d1 = {d1[1],-1*d1[0], d1[2]}; + float[] prep_d0 = {d0[1],-1*d0[0], d0[2]}; + + float[] p0p1 = new float[]{vert1.getX() - vertex.getX(), vert1.getY() - vertex.getY(), + vert1.getZ() - vertex.getZ()}; + + float dotD1D0 = VectorUtil.dot(prep_d1, d0); + if(dotD1D0 == 0){ + /** ray parallel to segment */ + current = next; + next = current.getNext(); + continue; + } + + float s = VectorUtil.dot(prep_d1,p0p1)/dotD1D0; + float t = VectorUtil.dot(prep_d0,p0p1)/dotD1D0; + + if(s >= 0 && t >= 0 && t<= 1){ + hits++; + } + current = next; + next = current.getNext(); + } + + if(hits % 2 != 0){ + /** check if hit count is even */ + return true; + } + return false; + } + + public int computeLoopSize(){ + int size = 0; + HEdge e = root; + do{ + size++; + e = e.getNext(); + }while(e != root); + return size; + } +} |