//private static void MainForDualDecomposition()
//{
// ShapeModel shapeModel = CreateSimpleShapeModel1();
// ShapeConstraints constraints = ShapeConstraints.CreateFromConstraints(
// shapeModel,
// new[] { new VertexConstraints(new Vector(3, 0), new Vector(40, 40)), new VertexConstraints(new Vector(60, 10), new Vector(100, 50)) },
// new[] { new EdgeConstraints(10, 20) },
// 1,
// 1);
// Image2D<Color> image = Image2D.LoadFromFile("../../../images/simple_1.png", 0.2);
// Rectangle objectLocation = new Rectangle(30, 24, 159, 96);
// ImageSegmentator segmentator = new ImageSegmentator(image, objectLocation, 0.01, 0, 1, 0.05, 3);
// LowerBoundCalculator lowerBoundCalculator = new LowerBoundCalculator(segmentator);
// lowerBoundCalculator.CalculateLowerBound(constraints);
//}
static void Main()
{
Random.SetSeed(666);
//MainForGiraffeAdjustSave();
MainForLetterSave();
//PrintColorModels();
//MainForDualDecomposition();
//MainForPointIsClosestExperiment();
//MainForLengthAngleDependenceExperiment();
//MainForGiraffeSave();
//GenerateMeanShape();
//DrawLengthAngleDependence();
//MainForUnaryPotentialsCheck();
//MainForSegmentation();
//MainForConvexHull();
//MainForShapeEnergyCheck();
}
private void DoSegmentation(object sender, DoWorkEventArgs e)
{
Random.SetSeed(666);
// Load and downscale image
Image2D <Color> originalImage = Image2D.LoadFromFile(this.segmentationProperties.ImageToSegment);
double scale = this.segmentationProperties.DownscaledImageSize / (double)Math.Max(originalImage.Width, originalImage.Height);
Image2D <Color> downscaledImage = Image2D.LoadFromFile(this.segmentationProperties.ImageToSegment, scale);
this.segmentedImage = Image2D.ToRegularImage(downscaledImage);
// Load color models
ObjectBackgroundColorModels colorModels = ObjectBackgroundColorModels.LoadFromFile(this.segmentationProperties.ColorModel);
// Setup shape model
ShapeModel model = ShapeModel.LoadFromFile(this.segmentationProperties.ShapeModel);
this.segmentator.ShapeModel = model;
// Common settings
segmentator.ObjectColorUnaryTermWeight = this.segmentationProperties.ObjectColorUnaryTermWeight;
segmentator.BackgroundColorUnaryTermWeight = this.segmentationProperties.BackgroundColorUnaryTermWeight;
segmentator.ObjectShapeUnaryTermWeight = this.segmentationProperties.ObjectShapeUnaryTermWeight;
segmentator.BackgroundShapeUnaryTermWeight = this.segmentationProperties.BackgroundShapeUnaryTermWeight;
segmentator.ColorDifferencePairwiseTermWeight = this.segmentationProperties.ColorDifferencePairwiseTermWeight;
segmentator.ColorDifferencePairwiseTermCutoff = this.segmentationProperties.ColorDifferencePairwiseTermCutoff;
segmentator.ConstantPairwiseTermWeight = this.segmentationProperties.ConstantPairwiseTermWeight;
segmentator.ShapeEnergyWeight = this.segmentationProperties.ShapeEnergyWeight;
// Custom setup
if (this.segmentator is BranchAndBoundSegmentationAlgorithm)
{
this.SetupBranchAndBoundSegmentationAlgorithm((BranchAndBoundSegmentationAlgorithm)this.segmentator);
}
else if (this.segmentator is CoordinateDescentSegmentationAlgorithm)
{
this.SetupCoordinateDescentSegmentationAlgorithm((CoordinateDescentSegmentationAlgorithm)this.segmentator);
}
else if (this.segmentator is AnnealingSegmentationAlgorithm)
{
this.SetupAnnealingSegmentationAlgorithm((AnnealingSegmentationAlgorithm)this.segmentator);
}
else if (this.segmentator is SimpleSegmentationAlgorithm)
{
this.SetupSimpleSegmentationAlgorithm((SimpleSegmentationAlgorithm)this.segmentator);
}
// Show original image in status window)
this.currentImage.Image = (Image)this.segmentedImage.Clone();
// Run segmentation
SegmentationSolution solution = segmentator.SegmentImage(downscaledImage, colorModels);
// Re-run B&B segmentation with reduced constraints in two-step mode
if (this.segmentator is BranchAndBoundSegmentationAlgorithm && this.segmentationProperties.UseTwoStepApproach && !this.segmentator.WasStopped)
{
BranchAndBoundSegmentationAlgorithm branchAndBoundSegmentator =
(BranchAndBoundSegmentationAlgorithm)this.segmentator;
branchAndBoundSegmentator.MaxCoordFreedom = this.segmentationProperties.MaxCoordFreedom;
branchAndBoundSegmentator.MaxWidthFreedom = this.segmentationProperties.MaxWidthFreedom;
branchAndBoundSegmentator.StartConstraints = this.bestConstraints;
branchAndBoundSegmentator.ShapeEnergyLowerBoundCalculator = new ShapeEnergyLowerBoundCalculator(
this.segmentationProperties.LengthGridSize, this.segmentationProperties.AngleGridSize);
Console.WriteLine("Performing second pass...");
solution = segmentator.SegmentImage(downscaledImage, colorModels);
}
// Save mask as worker result
e.Result = solution;
}