public Grid2D raytraceScene(PrioritizableScene phantomScene, Projection projection) {
Trajectory geom = Configuration.getGlobalConfiguration().getGeometry();
// Grid2D slice = new Grid2D(geom.getDetectorWidth(), geom.getDetectorHeight());
Grid2D slice =
detector.createDetectorGrid(geom.getDetectorWidth(), geom.getDetectorHeight(), projection);
rayTracer.setScene(phantomScene);
// Second rule of optimization is: Optimize later.
PointND raySource = new PointND(0, 0, 0);
raySource.setCoordinates(projection.computeCameraCenter());
StraightLine castLine = new StraightLine(raySource, new SimpleVector(0, 0, 0));
SimpleVector centerPixDir = null;
if (accurate) {
centerPixDir = projection.computePrincipalAxis();
}
// SimpleVector prinpoint = trajectory.getProjectionMatrix(sliceNumber).getPrincipalPoint();
double xcorr = 0; // trajectory.getDetectorWidth()/2 - prinpoint.getElement(0);
double ycorr = 0; // trajectory.getDetectorHeight()/2 - prinpoint.getElement(1);
double length = trajectory.getSourceToDetectorDistance();
Edge environmentEdge = new Edge(new PointND(0), new PointND(length));
ArrayList<PhysicalObject> fallBackBackground = new ArrayList<PhysicalObject>(1);
SimpleVector pixel = new SimpleVector(0, 0);
boolean negate = false;
for (int y = 0; y < trajectory.getDetectorHeight(); y++) {
for (int x = 0; x < trajectory.getDetectorWidth(); x++) {
pixel.setElementValue(0, x - xcorr);
pixel.setElementValue(1, y - ycorr);
SimpleVector dir = projection.computeRayDirection(pixel);
if ((y == 0) && (x == 0)) {
// Check that ray direction is towards origin.
double max = 0;
int index = 0;
for (int i = 0; i < 3; i++) {
if (Math.abs(dir.getElement(i)) > max) {
max = Math.abs(dir.getElement(i));
index = i;
}
}
double t = -raySource.get(index) / dir.getElement(index);
if (t < 0) negate = true;
}
if (negate) dir.negate();
castLine.setDirection(dir);
ArrayList<PhysicalObject> segments = rayTracer.castRay(castLine);
if (accurate) {
double dirCosine = SimpleOperators.multiplyInnerProd(centerPixDir, dir);
length = trajectory.getSourceToDetectorDistance() / dirCosine;
}
if (segments == null) {
fallBackBackground.clear();
segments = fallBackBackground;
} else {
if (accurate) {
environmentEdge =
new Edge(new PointND(0), new PointND(length - getTotalSegmentsLength(segments)));
}
}
environment.setShape(environmentEdge);
segments.add(environment);
/* old code:
double integral = absorptionModel.evaluateLineIntegral(segments);
slice.putPixelValue(x, y, integral);
*/
detector.writeToDetector(slice, x, y, segments);
}
}
return slice;
}
public void setTrajectory(
int numProjectionMatrices,
double sourceToAxisDistance,
double averageAngularIncrement,
double detectorOffsetX,
double detectorOffsetY,
CameraAxisDirection uDirection,
CameraAxisDirection vDirection,
SimpleVector rotationAxis,
PointND rotationCenter,
double angleFirstProjection) {
this.projectionMatrices = new Projection[numProjectionMatrices];
this.primaryAngles = new double[numProjectionMatrices];
this.numProjectionMatrices = numProjectionMatrices;
this.sourceToAxisDistance = sourceToAxisDistance;
this.averageAngularIncrement = averageAngularIncrement;
this.detectorOffsetU = detectorOffsetX;
this.detectorOffsetV = detectorOffsetY;
double cosPhi = Math.cos(General.toRadians(angleFirstProjection));
double sinPhi = Math.sin(General.toRadians(angleFirstProjection));
SimpleMatrix rotMat = new SimpleMatrix(3, 3);
rotMat.setElementValue(0, 0, cosPhi);
rotMat.setElementValue(0, 1, sinPhi);
rotMat.setElementValue(1, 0, -sinPhi);
rotMat.setElementValue(1, 1, cosPhi);
rotMat.setElementValue(2, 2, 1);
SimpleVector centerToCameraIdealAtInitialAngle =
SimpleOperators.multiply(rotMat, new SimpleVector(sourceToAxisDistance, 0, 0));
Plane3D trajPlane =
new Plane3D(
rotationAxis,
SimpleOperators.multiplyInnerProd(rotationAxis, rotationCenter.getAbstractVector()));
double distToPlane = trajPlane.computeDistance(new PointND(centerToCameraIdealAtInitialAngle));
SimpleVector centerToCameraDir =
SimpleOperators.subtract(
SimpleOperators.add(
rotationAxis.multipliedBy(-1 * distToPlane), centerToCameraIdealAtInitialAngle),
rotationCenter.getAbstractVector());
centerToCameraDir.divideBy(centerToCameraDir.normL2());
SimpleVector centerToCameraInitialInPlane =
centerToCameraDir.multipliedBy(sourceToAxisDistance);
for (int i = 0; i < numProjectionMatrices; i++) {
primaryAngles[i] = i * averageAngularIncrement + angleFirstProjection;
// System.out.println(primaryAngles[i] + " " + averageAngularIncrement + " " +
// this.reconDimensions[0] + " " + this.reconDimensions[1]);
projectionMatrices[i] = new Projection();
double rotationAngle = General.toRadians(primaryAngles[i]);
projectionMatrices[i].setRtFromCircularTrajectory(
rotationCenter.getAbstractVector(),
rotationAxis,
sourceToAxisDistance,
centerToCameraInitialInPlane,
uDirection,
vDirection,
rotationAngle);
SimpleVector spacingUV = new SimpleVector(pixelDimensionX, pixelDimensionY);
SimpleVector sizeUV = new SimpleVector(detectorWidth, detectorHeight);
SimpleVector offset = new SimpleVector(detectorOffsetX, detectorOffsetY);
projectionMatrices[i].setKFromDistancesSpacingsSizeOffset(
sourceToDetectorDistance, spacingUV, sizeUV, offset, 1.0, 0);
}
this.projectionStackSize = numProjectionMatrices;
// System.out.println("Defined geometry with SDD " +sourceToDetectorDistance);
}