boofcv.alg.shapes.edge.EdgeIntensityPolygon Maven / Gradle / Ivy
/*
* Copyright (c) 2011-2016, Peter Abeles. All Rights Reserved.
*
* This file is part of BoofCV (http://boofcv.org).
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package boofcv.alg.shapes.edge;
import boofcv.struct.distort.PixelTransform2_F32;
import boofcv.struct.image.ImageGray;
import georegression.struct.point.Point2D_F64;
import georegression.struct.shapes.Polygon2D_F64;
/**
* Looks at the difference in pixel values along the edge of a polygon and decides if its a false positive or not.
* The average difference along the polygons edge is the score. Note that the abs is only taken after the sum
* is finished, so objects which are entirely dark/light along the edge will have an advantage.
*
* @author Peter Abeles
*/
public class EdgeIntensityPolygon {
// distance away from corner that sampling will start and end
private double cornerOffset;
// distance away from line in tangent direction it will sample
private double tangentDistance;
// storage for points offset from corner
private Point2D_F64 offsetA = new Point2D_F64();
private Point2D_F64 offsetB = new Point2D_F64();
// average pixel intensity inside and outside the polygon's edge
private double averageInside;
private double averageOutside;
ScoreLineSegmentEdge scorer;
/**
* Constructor which configures scoring.
*
* @param cornerOffset Number of pixels away from corner it will start sampling
* @param tangentDistance How far from the line it will sample tangentially
* @param numSamples Number of points it will sample along an edge
* @param imageType Type of image it will process
*/
public EdgeIntensityPolygon(double cornerOffset ,
double tangentDistance,
int numSamples,
Class imageType ) {
this.cornerOffset = cornerOffset;
this.tangentDistance = tangentDistance;
scorer = new ScoreLineSegmentEdge<>(numSamples, imageType);
}
/**
* Used to specify a transform that is applied to pixel coordinates to bring them back into original input
* image coordinates. For example if the input image has lens distortion but the edge were found
* in undistorted coordinates this code needs to know how to go from undistorted back into distorted
* image coordinates in order to read the pixel's value.
*
* @param undistToDist Pixel transformation from undistorted pixels into the actual distorted input image..
*/
public void setTransform( PixelTransform2_F32 undistToDist ) {
scorer.setTransform(undistToDist);
}
/**
* Sets the image which is going to be processed.
*/
public void setImage(T image) {
scorer.setImage(image);
}
/**
* Checks to see if its a valid polygon or a false positive by looking at edge intensity
*
* @param polygon The polygon being tested
* @param ccw True if the polygon is counter clockwise
* @return true if it could compute the edge intensity, otherwise false
*/
public boolean computeEdge(Polygon2D_F64 polygon , boolean ccw ) {
averageInside = 0;
averageOutside = 0;
double tangentSign = ccw ? 1 : -1;
int totalSides = 0;
for (int i = polygon.size()-1,j=0; j < polygon.size(); i=j,j++) {
Point2D_F64 a = polygon.get(i);
Point2D_F64 b = polygon.get(j);
double dx = b.x-a.x;
double dy = b.y-a.y;
double t = Math.sqrt(dx*dx + dy*dy);
dx /= t;
dy /= t;
// see if the side is too small
if( t <= 3*cornerOffset )
return false;
offsetA.x = a.x + cornerOffset*dx;
offsetA.y = a.y + cornerOffset*dy;
offsetB.x = b.x - cornerOffset*dx;
offsetB.y = b.y - cornerOffset*dy;
double tanX = -dy*tangentDistance*tangentSign;
double tanY = dx*tangentDistance*tangentSign;
scorer.computeAverageDerivative(offsetA, offsetB, tanX,tanY);
if( scorer.getSamplesInside() > 0 ) {
totalSides++;
averageInside += scorer.getAverageUp() / tangentDistance;
averageOutside += scorer.getAverageDown() / tangentDistance;
}
}
if( totalSides > 0 ) {
averageInside /= totalSides;
averageOutside /= totalSides;
} else {
averageInside = averageOutside = 0;
return false;
}
return true;
}
/**
* Checks the edge intensity against a threshold.
*
* dark: outside-inside ≥ threshold
* light: inside-outside ≥ threshold
*
* @param insideDark is the inside of the polygon supposed to be dark or light?
* @param threshold threshold for average difference
* @return true if the edge intensity is significant enough
*/
public boolean checkIntensity( boolean insideDark , double threshold ) {
if( insideDark )
return averageOutside-averageInside >= threshold;
else
return averageInside-averageOutside >= threshold;
}
public double getCornerOffset() {
return cornerOffset;
}
public void setCornerOffset(double cornerOffset) {
this.cornerOffset = cornerOffset;
}
public double getTangentDistance() {
return tangentDistance;
}
public void setTangentDistance(double tangentDistance) {
this.tangentDistance = tangentDistance;
}
public double getAverageInside() {
return averageInside;
}
public double getAverageOutside() {
return averageOutside;
}
}