public synchronized Term getBlobs() {
Term result = PrologEmptyList.instance;
for (int n = blobRectangles.length - 1; n >= 0; n--) {
Term prologIdentifier = new PrologInteger(blobIdentifiers[n]);
int[] rectangle = blobRectangles[n];
Term prologX = new PrologInteger(StrictMath.round((rectangle[0] + rectangle[1]) / 2));
Term prologY = new PrologInteger(StrictMath.round((rectangle[2] + rectangle[3]) / 2));
Term prologWidth = new PrologInteger(rectangle[1] - rectangle[0]);
Term prologHeight = new PrologInteger(rectangle[3] - rectangle[2]);
Term prologBlob =
new PrologSet(
-SymbolCodes.symbolCode_E_identifier,
prologIdentifier,
new PrologSet(
-SymbolCodes.symbolCode_E_x,
prologX,
new PrologSet(
-SymbolCodes.symbolCode_E_y,
prologY,
new PrologSet(
-SymbolCodes.symbolCode_E_width,
prologWidth,
new PrologSet(
-SymbolCodes.symbolCode_E_height,
prologHeight,
PrologEmptySet.instance)))));
result = new PrologList(prologBlob, result);
}
;
return result;
}
public synchronized Term getConnectedGraphs() {
ConnectedGraph[] graphs = formAndGetConnectedGraphs();
Term list1 = PrologEmptyList.instance;
for (int n = graphs.length - 1; n >= 0; n--) {
ConnectedGraph graph = graphs[n];
ArrayList<ConnectedSegment> connectedSegments = graph.connectedSegments;
int numberOfSegments = connectedSegments.size();
if (numberOfSegments <= 0) {
continue;
}
;
Term list2 = PrologEmptyList.instance;
for (int k = numberOfSegments - 1; k >= 0; k--) {
ConnectedSegment connectedSegment = connectedSegments.get(k);
int connectedSegmentNumber = connectedSegments.indexOf(connectedSegment);
TrackSegment trackSegment = connectedSegment.trackSegment;
Term prologOriginEdges =
collectOriginEdges(connectedSegment, connectedSegmentNumber, connectedSegments);
Term prologBrachEdges =
collectBranchEdges(connectedSegment, connectedSegmentNumber, connectedSegments);
Term prologIdentifier = new PrologInteger(trackSegment.owner);
long beginningTime = trackSegment.beginningTime;
int[][] rectangles = trackSegment.rectangles;
int[] firstRectangle = rectangles[0];
long frameNumber1 = beginningTime + firstRectangle[0];
long x1 = StrictMath.round((firstRectangle[1] + firstRectangle[2]) / 2.0);
long y1 = StrictMath.round((firstRectangle[3] + firstRectangle[4]) / 2.0);
int[] lastRectangle = rectangles[rectangles.length - 1];
long frameNumber2 = beginningTime + lastRectangle[0];
long x2 = StrictMath.round((lastRectangle[1] + lastRectangle[2]) / 2.0);
long y2 = StrictMath.round((lastRectangle[3] + lastRectangle[4]) / 2.0);
Term prologSegment =
assembleTrackSegment(frameNumber1, x1, y1, frameNumber2, x2, y2, trackSegment);
Term prologEdge =
new PrologSet(
-SymbolCodes.symbolCode_E_inputs,
prologOriginEdges,
new PrologSet(
-SymbolCodes.symbolCode_E_outputs,
prologBrachEdges,
new PrologSet(
-SymbolCodes.symbolCode_E_identifier, prologIdentifier, prologSegment)));
list2 = new PrologList(prologEdge, list2);
}
;
list1 = new PrologList(list2, list1);
}
;
return list1;
}
public synchronized Term getTracks() {
Set<BigInteger> trackIdentifiers = tracks.keySet();
Iterator<BigInteger> trackIdentifiersIterator = trackIdentifiers.iterator();
Term list1 = PrologEmptyList.instance;
while (trackIdentifiersIterator.hasNext()) {
BigInteger blobIdentifier = trackIdentifiersIterator.next();
StableTrack track = tracks.get(blobIdentifier);
Term prologIdentifier = new PrologInteger(blobIdentifier);
ArrayList<TrackSegment> segmentList = track.getTrackSegments();
ListIterator<TrackSegment> segmentListIterator = segmentList.listIterator(segmentList.size());
Term list2 = PrologEmptyList.instance;
while (segmentListIterator.hasPrevious()) {
TrackSegment segment = segmentListIterator.previous();
int[][] rectangles = segment.rectangles;
if (rectangles.length <= 0) {
continue;
}
;
long beginningTime = segment.beginningTime;
int[] firstRectangle = rectangles[0];
long frameNumber1 = beginningTime + firstRectangle[0];
long x1 = StrictMath.round((firstRectangle[1] + firstRectangle[2]) / 2.0);
long y1 = StrictMath.round((firstRectangle[3] + firstRectangle[4]) / 2.0);
int[] lastRectangle = rectangles[rectangles.length - 1];
long frameNumber2 = beginningTime + lastRectangle[0];
long x2 = StrictMath.round((lastRectangle[1] + lastRectangle[2]) / 2.0);
long y2 = StrictMath.round((lastRectangle[3] + lastRectangle[4]) / 2.0);
Term prologSegment =
assembleTrackSegment(frameNumber1, x1, y1, frameNumber2, x2, y2, segment);
list2 = new PrologList(prologSegment, list2);
}
;
Term prologTrack =
new PrologSet(
-SymbolCodes.symbolCode_E_identifier,
prologIdentifier,
new PrologSet(-SymbolCodes.symbolCode_E_segments, list2, PrologEmptySet.instance));
list1 = new PrologList(prologTrack, list1);
}
;
return list1;
}
protected Term formTrackOfBlob(TrackSegment segment) {
long beginningTime = segment.beginningTime;
int[][] rectangles = segment.rectangles;
double[] windowedR2ReferentValues = segment.getWindowedR2ReferentValues();
Term list3 = PrologEmptyList.instance;
for (int n = rectangles.length - 1; n >= 0; n--) {
int[] currentRectangle = rectangles[n];
long currentForegroundArea = segment.foregroundAreaValues[n];
double currentCharacteristicLength = segment.characteristicLengthValues[n];
long currentContourLength = segment.contourLengthValues[n];
double currentR2 = windowedR2ReferentValues[n];
double currentVelocity = segment.velocityValues[n];
Term prologFrameN = new PrologInteger(beginningTime + currentRectangle[0]);
Term prologXn =
new PrologInteger(StrictMath.round((currentRectangle[1] + currentRectangle[2]) / 2.0));
Term prologYn =
new PrologInteger(StrictMath.round((currentRectangle[3] + currentRectangle[4]) / 2.0));
Term prologWidthN = new PrologInteger(currentRectangle[2] - currentRectangle[1]);
Term prologHeightN = new PrologInteger(currentRectangle[4] - currentRectangle[3]);
Term prologForegroundAreaN = new PrologInteger(currentForegroundArea);
Term prologCharacteristicLengthN = new PrologReal(currentCharacteristicLength);
Term prologContourLengthN = new PrologInteger(currentContourLength);
Term prologR2N = new PrologReal(currentR2);
Term prologVelocityN = new PrologReal(currentVelocity);
Term prologRectangle =
new PrologSet(
-SymbolCodes.symbolCode_E_frame,
prologFrameN,
new PrologSet(
-SymbolCodes.symbolCode_E_x,
prologXn,
new PrologSet(
-SymbolCodes.symbolCode_E_y,
prologYn,
new PrologSet(
-SymbolCodes.symbolCode_E_width,
prologWidthN,
new PrologSet(
-SymbolCodes.symbolCode_E_height,
prologHeightN,
new PrologSet(
-SymbolCodes.symbolCode_E_foreground_area,
prologForegroundAreaN,
new PrologSet(
-SymbolCodes.symbolCode_E_characteristic_length,
prologCharacteristicLengthN,
new PrologSet(
-SymbolCodes.symbolCode_E_contour_length,
prologContourLengthN,
new PrologSet(
-SymbolCodes.symbolCode_E_r2,
prologR2N,
new PrologSet(
-SymbolCodes.symbolCode_E_velocity,
prologVelocityN,
PrologEmptySet.instance))))))))));
list3 = new PrologList(prologRectangle, list3);
}
;
return list3;
}
