public void testAddTogetherDiagonals() throws Exception {
for (int trial = 0; trial < 100; trial++) {
Debug.pl(" trial " + trial);
this.setup(0);
final float[][][] fM = this.forwardMatrix();
final float[][][] bM = this.backwardMatrix();
final float[][][] pM = this.sumForwardBackwardMatrices(fM, bM);
int fD = this.r.nextInt(this.height + this.width - 2 - this.minMaxOffset); // inclusive
Object[] oA = (Object[]) this.polygonClipper.fn(fD);
final int[] dC = (int[]) oA[2]; // 1];
oA = (Object[]) this.polygonClipper.fn(this.height + this.width - 2);
final int[] dC2 = (int[]) oA[2]; // 1];
float total = Float.NEGATIVE_INFINITY;
for (int i = 0; i < this.stateNumber; i++) {
total = Maths.logAdd(total, pM[pM.length - 1][pM[0].length - 1][i]);
}
float totalS = Float.NEGATIVE_INFINITY;
for (int i = 0; i < this.stateNumber; i++) {
totalS = Maths.logAdd(totalS, pM[0][0][i]);
}
Assert.assertEquals(total, totalS, 0.1);
final float[] forwardDiag = this.getDiagonal(dC[6], dC[7], dC[4], dC[5], fM);
final float[] backwardDiag =
this.getBackwardDiagonal(dC2[0], dC2[1], dC2[2], dC2[3], this.width, this.height, bM);
final int diagLength = (dC2[2] - dC2[0] + 1) * 2 + 1;
int forwardDiagStartOffset, forwardDiagEndOffset;
float[] iA;
if (dC[6] + dC[7] + 2 == dC2[0] + dC2[1]) {
iA = new float[this.stateNumber];
System.arraycopy(forwardDiag, this.stateNumber, iA, 0, this.stateNumber);
forwardDiagStartOffset = 1;
forwardDiagEndOffset = 1;
} else {
forwardDiagStartOffset = (dC[6] - dC[7] - 1) - (dC2[0] - dC2[1] - 1);
forwardDiagEndOffset = (dC[4] - dC[5] + 1) - (dC2[0] - dC2[1] - 1);
iA = forwardDiag;
}
final int[] lLTA = MatrixIteratorTest.convertLTPoints(this.lLTL);
final int[] rLTA = MatrixIteratorTest.convertLTPoints(this.rLTL);
final int x0 = dC[6];
final int y0 = dC[5];
final int fDiagC = dC[4] - x0;
fD = x0 + y0 + fDiagC;
final boolean isOnForwardLineL =
ForwardBackwardMatrixIterTest.isOnTheLine(lLTA, fD + 1, Integer.MAX_VALUE);
final boolean isOnBackwardLineL =
ForwardBackwardMatrixIterTest.isOnTheLine(lLTA, fD + 2, Integer.MAX_VALUE);
final boolean isOnForwardLineR =
ForwardBackwardMatrixIterTest.isOnTheLine(rLTA, fD + 1, Integer.MAX_VALUE);
final boolean isOnBackwardLineR =
ForwardBackwardMatrixIterTest.isOnTheLine(rLTA, fD + 2, Integer.MAX_VALUE);
Assert.assertEquals(
ForwardBackwardMatrixIter.addTogetherDiagonals(
iA,
backwardDiag,
diagLength,
forwardDiagStartOffset,
forwardDiagEndOffset,
dC2[0],
dC2[1] + 1,
this.setCellsForwardsLL,
this.stateNumber,
isOnForwardLineL,
isOnBackwardLineL,
isOnForwardLineR,
isOnBackwardLineR),
total,
0.1);
}
}
protected void setup(final int minWidth) throws Exception {
super.setUp();
this.r = new Random();
this.minMaxOffset = 1 + (int) (Math.random() * 5);
this.height = 2 * this.minMaxOffset + (int) (Math.random() * 300);
this.width = 2 * this.minMaxOffset + (int) (Math.random() * 300);
this.stateNumber = 3;
this.d1 = MatrixIteratorTest.getRandomSeq(this.width + 1, 4);
this.d2 = MatrixIteratorTest.getRandomSeq(this.height + 1, 4);
final Object[] oA =
ForwardBackwardMatrixIterTest.getStateMachine_Float(
ForwardBackwardMatrixIterTest.getD(this.d1),
ForwardBackwardMatrixIterTest.getD(this.d2),
"bp/pecan/asymmetric.hmm",
1001);
this.setCellsForwardsLL = (Cell.CellCalculator) oA[0];
this.setCellsBackwardsLL = (Cell.CellCalculator) oA[1];
this.setCellsForwardsL = (Cell.CellCalculator) oA[2];
this.setCellsForwardsR = (Cell.CellCalculator) oA[3];
this.setCellsBackwardsL = (Cell.CellCalculator) oA[4];
this.setCellsBackwardsR = (Cell.CellCalculator) oA[5];
final List[] poly =
PolygonFillerTest.getRandomPolygon(this.width, this.height, this.minMaxOffset, minWidth);
this.lREL = poly[0];
this.rREL = poly[1];
// lLTL =
// MatrixIteratorTest.getRandomLTPoints(PolygonFillerTest.convertOldEdgeListToNewEdgeList(lREL));
// rLTL =
// MatrixIteratorTest.getRandomLTPoints(PolygonFillerTest.convertOldEdgeListToNewEdgeList(rREL));
this.eT =
PolygonFillerTest.convertNewEdgeListToOldEdgeList(
(List)
IterationTools.append(
PolygonFiller.combineEdgeLists(
PolygonFiller.cloneEdgeList(
PolygonFillerTest.convertOldEdgeListToNewEdgeList(this.lREL))
.iterator(),
PolygonFiller.cloneEdgeList(
PolygonFillerTest.convertOldEdgeListToNewEdgeList(this.rREL))
.iterator()),
new ArrayList()));
int[][] matrix = new int[this.height][this.width];
PolygonFillerTest.fillInMatrix(
matrix,
PolygonFillerTest.convertNewEdgeListToOldEdgeList(
PolygonFiller.cloneEdgeList(
PolygonFillerTest.convertOldEdgeListToNewEdgeList(this.eT))),
1,
0);
matrix = (int[][]) Array.transpose2DMatrix().fn(matrix);
this.lLTL = MatrixIteratorTest.getRandomLTPPointsL(matrix);
this.rLTL = MatrixIteratorTest.getRandomLTPPointsR(matrix);
this.mI = new MatrixIterator(this.stateNumber, 1000);
this.polygonClipper =
PolygonFiller.clipPolygons(
Generators.iteratorGenerator(
PolygonFiller.cloneEdgeList(
PolygonFillerTest.convertOldEdgeListToNewEdgeList(this.lREL))
.iterator()),
Generators.iteratorGenerator(
PolygonFiller.cloneEdgeList(
PolygonFillerTest.convertOldEdgeListToNewEdgeList(this.rREL))
.iterator()),
this.width,
this.height);
this.startStates =
new float[] {
(float) Math.log(1.0 / 3), (float) Math.log(1.0 / 3), (float) Math.log(1.0 / 3)
};
this.endStates =
new float[] {
(float) Math.log(1.0 / 3), (float) Math.log(1.0 / 3), (float) Math.log(1.0 / 3)
};
}
