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... for visual testing and automation
//
// This file is auto-generated. Please don't modify it!
//
package org.opencv.imgproc;
import java.util.List;
import org.opencv.core.Mat;
import org.opencv.core.MatOfFloat4;
import org.opencv.core.MatOfFloat6;
import org.opencv.core.MatOfInt;
import org.opencv.core.MatOfPoint2f;
import org.opencv.core.Point;
import org.opencv.core.Rect;
import org.opencv.utils.Converters;
// C++: class Subdiv2D
public class Subdiv2D {
protected final long nativeObj;
protected Subdiv2D(long addr) { nativeObj = addr; }
public static final int
PTLOC_ERROR = -2,
PTLOC_OUTSIDE_RECT = -1,
PTLOC_INSIDE = 0,
PTLOC_VERTEX = 1,
PTLOC_ON_EDGE = 2,
NEXT_AROUND_ORG = 0x00,
NEXT_AROUND_DST = 0x22,
PREV_AROUND_ORG = 0x11,
PREV_AROUND_DST = 0x33,
NEXT_AROUND_LEFT = 0x13,
NEXT_AROUND_RIGHT = 0x31,
PREV_AROUND_LEFT = 0x20,
PREV_AROUND_RIGHT = 0x02;
//
// C++: Subdiv2D::Subdiv2D()
//
public Subdiv2D()
{
nativeObj = Subdiv2D_0();
return;
}
//
// C++: Subdiv2D::Subdiv2D(Rect rect)
//
public Subdiv2D(Rect rect)
{
nativeObj = Subdiv2D_1(rect.x, rect.y, rect.width, rect.height);
return;
}
//
// C++: int Subdiv2D::edgeDst(int edge, Point2f* dstpt = 0)
//
public int edgeDst(int edge, Point dstpt)
{
double[] dstpt_out = new double[2];
int retVal = edgeDst_0(nativeObj, edge, dstpt_out);
if(dstpt!=null){ dstpt.x = dstpt_out[0]; dstpt.y = dstpt_out[1]; }
return retVal;
}
public int edgeDst(int edge)
{
int retVal = edgeDst_1(nativeObj, edge);
return retVal;
}
//
// C++: int Subdiv2D::edgeOrg(int edge, Point2f* orgpt = 0)
//
public int edgeOrg(int edge, Point orgpt)
{
double[] orgpt_out = new double[2];
int retVal = edgeOrg_0(nativeObj, edge, orgpt_out);
if(orgpt!=null){ orgpt.x = orgpt_out[0]; orgpt.y = orgpt_out[1]; }
return retVal;
}
public int edgeOrg(int edge)
{
int retVal = edgeOrg_1(nativeObj, edge);
return retVal;
}
//
// C++: int Subdiv2D::findNearest(Point2f pt, Point2f* nearestPt = 0)
//
public int findNearest(Point pt, Point nearestPt)
{
double[] nearestPt_out = new double[2];
int retVal = findNearest_0(nativeObj, pt.x, pt.y, nearestPt_out);
if(nearestPt!=null){ nearestPt.x = nearestPt_out[0]; nearestPt.y = nearestPt_out[1]; }
return retVal;
}
public int findNearest(Point pt)
{
int retVal = findNearest_1(nativeObj, pt.x, pt.y);
return retVal;
}
//
// C++: int Subdiv2D::getEdge(int edge, int nextEdgeType)
//
public int getEdge(int edge, int nextEdgeType)
{
int retVal = getEdge_0(nativeObj, edge, nextEdgeType);
return retVal;
}
//
// C++: void Subdiv2D::getEdgeList(vector_Vec4f& edgeList)
//
public void getEdgeList(MatOfFloat4 edgeList)
{
Mat edgeList_mat = edgeList;
getEdgeList_0(nativeObj, edgeList_mat.nativeObj);
return;
}
//
// C++: void Subdiv2D::getTriangleList(vector_Vec6f& triangleList)
//
public void getTriangleList(MatOfFloat6 triangleList)
{
Mat triangleList_mat = triangleList;
getTriangleList_0(nativeObj, triangleList_mat.nativeObj);
return;
}
//
// C++: Point2f Subdiv2D::getVertex(int vertex, int* firstEdge = 0)
//
public Point getVertex(int vertex, int[] firstEdge)
{
double[] firstEdge_out = new double[1];
Point retVal = new Point(getVertex_0(nativeObj, vertex, firstEdge_out));
if(firstEdge!=null) firstEdge[0] = (int)firstEdge_out[0];
return retVal;
}
public Point getVertex(int vertex)
{
Point retVal = new Point(getVertex_1(nativeObj, vertex));
return retVal;
}
//
// C++: void Subdiv2D::getVoronoiFacetList(vector_int idx, vector_vector_Point2f& facetList, vector_Point2f& facetCenters)
//
public void getVoronoiFacetList(MatOfInt idx, List facetList, MatOfPoint2f facetCenters)
{
Mat idx_mat = idx;
Mat facetList_mat = new Mat();
Mat facetCenters_mat = facetCenters;
getVoronoiFacetList_0(nativeObj, idx_mat.nativeObj, facetList_mat.nativeObj, facetCenters_mat.nativeObj);
Converters.Mat_to_vector_vector_Point2f(facetList_mat, facetList);
return;
}
//
// C++: void Subdiv2D::initDelaunay(Rect rect)
//
public void initDelaunay(Rect rect)
{
initDelaunay_0(nativeObj, rect.x, rect.y, rect.width, rect.height);
return;
}
//
// C++: int Subdiv2D::insert(Point2f pt)
//
public int insert(Point pt)
{
int retVal = insert_0(nativeObj, pt.x, pt.y);
return retVal;
}
//
// C++: void Subdiv2D::insert(vector_Point2f ptvec)
//
public void insert(MatOfPoint2f ptvec)
{
Mat ptvec_mat = ptvec;
insert_1(nativeObj, ptvec_mat.nativeObj);
return;
}
//
// C++: int Subdiv2D::locate(Point2f pt, int& edge, int& vertex)
//
public int locate(Point pt, int[] edge, int[] vertex)
{
double[] edge_out = new double[1];
double[] vertex_out = new double[1];
int retVal = locate_0(nativeObj, pt.x, pt.y, edge_out, vertex_out);
if(edge!=null) edge[0] = (int)edge_out[0];
if(vertex!=null) vertex[0] = (int)vertex_out[0];
return retVal;
}
//
// C++: int Subdiv2D::nextEdge(int edge)
//
public int nextEdge(int edge)
{
int retVal = nextEdge_0(nativeObj, edge);
return retVal;
}
//
// C++: int Subdiv2D::rotateEdge(int edge, int rotate)
//
public int rotateEdge(int edge, int rotate)
{
int retVal = rotateEdge_0(nativeObj, edge, rotate);
return retVal;
}
//
// C++: int Subdiv2D::symEdge(int edge)
//
public int symEdge(int edge)
{
int retVal = symEdge_0(nativeObj, edge);
return retVal;
}
@Override
protected void finalize() throws Throwable {
delete(nativeObj);
}
// C++: Subdiv2D::Subdiv2D()
private static native long Subdiv2D_0();
// C++: Subdiv2D::Subdiv2D(Rect rect)
private static native long Subdiv2D_1(int rect_x, int rect_y, int rect_width, int rect_height);
// C++: int Subdiv2D::edgeDst(int edge, Point2f* dstpt = 0)
private static native int edgeDst_0(long nativeObj, int edge, double[] dstpt_out);
private static native int edgeDst_1(long nativeObj, int edge);
// C++: int Subdiv2D::edgeOrg(int edge, Point2f* orgpt = 0)
private static native int edgeOrg_0(long nativeObj, int edge, double[] orgpt_out);
private static native int edgeOrg_1(long nativeObj, int edge);
// C++: int Subdiv2D::findNearest(Point2f pt, Point2f* nearestPt = 0)
private static native int findNearest_0(long nativeObj, double pt_x, double pt_y, double[] nearestPt_out);
private static native int findNearest_1(long nativeObj, double pt_x, double pt_y);
// C++: int Subdiv2D::getEdge(int edge, int nextEdgeType)
private static native int getEdge_0(long nativeObj, int edge, int nextEdgeType);
// C++: void Subdiv2D::getEdgeList(vector_Vec4f& edgeList)
private static native void getEdgeList_0(long nativeObj, long edgeList_mat_nativeObj);
// C++: void Subdiv2D::getTriangleList(vector_Vec6f& triangleList)
private static native void getTriangleList_0(long nativeObj, long triangleList_mat_nativeObj);
// C++: Point2f Subdiv2D::getVertex(int vertex, int* firstEdge = 0)
private static native double[] getVertex_0(long nativeObj, int vertex, double[] firstEdge_out);
private static native double[] getVertex_1(long nativeObj, int vertex);
// C++: void Subdiv2D::getVoronoiFacetList(vector_int idx, vector_vector_Point2f& facetList, vector_Point2f& facetCenters)
private static native void getVoronoiFacetList_0(long nativeObj, long idx_mat_nativeObj, long facetList_mat_nativeObj, long facetCenters_mat_nativeObj);
// C++: void Subdiv2D::initDelaunay(Rect rect)
private static native void initDelaunay_0(long nativeObj, int rect_x, int rect_y, int rect_width, int rect_height);
// C++: int Subdiv2D::insert(Point2f pt)
private static native int insert_0(long nativeObj, double pt_x, double pt_y);
// C++: void Subdiv2D::insert(vector_Point2f ptvec)
private static native void insert_1(long nativeObj, long ptvec_mat_nativeObj);
// C++: int Subdiv2D::locate(Point2f pt, int& edge, int& vertex)
private static native int locate_0(long nativeObj, double pt_x, double pt_y, double[] edge_out, double[] vertex_out);
// C++: int Subdiv2D::nextEdge(int edge)
private static native int nextEdge_0(long nativeObj, int edge);
// C++: int Subdiv2D::rotateEdge(int edge, int rotate)
private static native int rotateEdge_0(long nativeObj, int edge, int rotate);
// C++: int Subdiv2D::symEdge(int edge)
private static native int symEdge_0(long nativeObj, int edge);
// native support for java finalize()
private static native void delete(long nativeObj);
}