AutoMaskingArgs
Inheritance: java.lang.Object
All Implemented Interfaces: com.aspose.imaging.masking.options.IMaskingArgs
public class AutoMaskingArgs implements IMaskingArgs
Represents the arguments that are specified for automated masking methods
Constructors
Constructor | Description |
---|---|
AutoMaskingArgs() |
Methods
Method | Description |
---|---|
getNumberOfObjects() | Gets the number of objects to separate initial image to (optional), default value is 2 (object and background). |
setNumberOfObjects(int value) | Sets the number of objects to separate initial image to (optional), default value is 2 (object and background). |
getObjectsRectangles() | Gets the objects rectangles that belong to separated objects (optional). |
setObjectsRectangles(Rectangle[] value) | Sets the objects rectangles that belong to separated objects (optional). |
getObjectsPoints() | Gets the points that belong to separated objects (optional) NumberOfObjects coordinates that belong to NumberOfObjects objects of initial image. |
setObjectsPoints(Point[][] value) | Sets the points that belong to separated objects (optional) NumberOfObjects coordinates that belong to NumberOfObjects objects of initial image. |
getOrphanedPoints() | Gets the points that no longer belong to any object (optional). |
setOrphanedPoints(Point[] value) | Sets the points that no longer belong to any object (optional). |
getPrecision() | Gets the precision of segmentation method (optional). |
setPrecision(double value) | Sets the precision of segmentation method (optional). |
getMaxIterationNumber() | Gets the maximum number of iterations. |
setMaxIterationNumber(int value) | Sets the maximum number of iterations. |
Example: This example shows how to decompose a raster image into multiple images using image masking and the K-means segmentation algorithm.
This example shows how to decompose a raster image into multiple images using image masking and the K-means segmentation algorithm. Image masking is an image processing technique that is used to split the background from the foreground image objects.
String dir = "c:\\temp\\";
com.aspose.imaging.RasterImage image = (com.aspose.imaging.RasterImage) com.aspose.imaging.Image.load(dir + "Blue hills.png");
try {
com.aspose.imaging.masking.options.AutoMaskingArgs args = new com.aspose.imaging.masking.options.AutoMaskingArgs();
// Set the number of clusters (separated objects). The default value is 2, the foreground object and the background.
args.setNumberOfObjects(3);
// Set the maximum number of iterations.
args.setMaxIterationNumber(50);
// Set the precision of segmentation method (optional)
args.setPrecision(1);
// Each cluster (segment) will be stored to a separate PNG file.
com.aspose.imaging.imageoptions.PngOptions exportOptions = new com.aspose.imaging.imageoptions.PngOptions();
exportOptions.setColorType(com.aspose.imaging.fileformats.png.PngColorType.TruecolorWithAlpha);
exportOptions.setSource(new com.aspose.imaging.sources.StreamSource(new java.io.ByteArrayInputStream(new byte[0])));
com.aspose.imaging.masking.options.MaskingOptions maskingOptions = new com.aspose.imaging.masking.options.MaskingOptions();
// Use K-means clustering.
// K-means clustering allows to split image into several independent clusters (segments).
maskingOptions.setMethod(com.aspose.imaging.masking.options.SegmentationMethod.KMeans);
maskingOptions.setDecompose(true);
maskingOptions.setArgs(args);
// The backgroung color will be orange.
maskingOptions.setBackgroundReplacementColor(com.aspose.imaging.Color.getOrange());
maskingOptions.setExportOptions(exportOptions);
// Create an instance of the ImageMasking class.
com.aspose.imaging.masking.ImageMasking masking = new com.aspose.imaging.masking.ImageMasking(image);
// Divide the source image into several clusters (segments).
com.aspose.imaging.masking.result.MaskingResult maskingResults = masking.decompose(maskingOptions);
try
{
// Obtain images from masking result and save them to PNG.
for (int i = 0; i < maskingResults.getLength(); i++) {
final IMaskingLayer resultsItem = maskingResults.get_Item(i);
String outputFileName = String.format("Blue hills.Segment%s.png", resultsItem.getObjectNumber());
Image resultImage = resultsItem.getImage();
try {
resultImage.save(dir + outputFileName);
} finally {
resultImage.close();
}
}
}
finally
{
maskingResults.close();
}
} finally {
image.close();
}
Example: This example shows how to specify suggestions for image masking algorithm to improve precision of segmentation (clustering) method.
This example shows how to specify suggestions for image masking algorithm to improve precision of segmentation (clustering) method. Image masking is an image processing technique that is used to split the background from the foreground image objects.
String dir = "c:\\temp\\";
com.aspose.imaging.RasterImage image = (com.aspose.imaging.RasterImage) com.aspose.imaging.Image.load(dir + "Gorilla.bmp");
try {
com.aspose.imaging.masking.options.AutoMaskingArgs args = new com.aspose.imaging.masking.options.AutoMaskingArgs();
// Suggestion #1.
// Analyze the image visually and set the area of interest. The result of segmentation will include only objects that will be completely located within this area.
args.setObjectsRectangles(new com.aspose.imaging.Rectangle[]
{
new com.aspose.imaging.Rectangle(86, 6, 270, 364),
});
// Suggestion #2.
// Analyze the image visually and set the points that belong to separated objects.
args.setObjectsPoints(new com.aspose.imaging.Point[][]
{
new com.aspose.imaging.Point[]{new com.aspose.imaging.Point(103, 326)},
new com.aspose.imaging.Point[]{new com.aspose.imaging.Point(280, 43)},
new com.aspose.imaging.Point[]{new com.aspose.imaging.Point(319, 86)},
});
// Each cluster (segment) will be stored to a separate PNG file.
com.aspose.imaging.imageoptions.PngOptions exportOptions = new com.aspose.imaging.imageoptions.PngOptions();
exportOptions.setColorType(com.aspose.imaging.fileformats.png.PngColorType.TruecolorWithAlpha);
exportOptions.setSource(new com.aspose.imaging.sources.StreamSource());
com.aspose.imaging.masking.options.MaskingOptions maskingOptions = new com.aspose.imaging.masking.options.MaskingOptions();
// Use GraphCut clustering.
maskingOptions.setMethod(com.aspose.imaging.masking.options.SegmentationMethod.GraphCut);
maskingOptions.setDecompose(false);
maskingOptions.setArgs(args);
// The background color will be orange.
maskingOptions.setBackgroundReplacementColor(com.aspose.imaging.Color.getOrange());
maskingOptions.setExportOptions(exportOptions);
// Create an instance of the ImageMasking class.
com.aspose.imaging.masking.ImageMasking masking = new com.aspose.imaging.masking.ImageMasking(image);
// Divide the source image into several clusters (segments).
com.aspose.imaging.masking.result.MaskingResult maskingResults = masking.decompose(maskingOptions);
try
{
// Obtain images from masking result and save them to PNG.
for (int i = 0; i < maskingResults.getLength(); i++) {
String outputFileName = String.format("Gorilla.Segment%s.png", maskingResults.get_Item(i).getObjectNumber());
Image resultImage = maskingResults.get_Item(i).getImage();
try {
resultImage.save(dir + outputFileName);
} finally {
resultImage.close();
}
}
}
finally
{
maskingResults.close();
}
} finally {
image.close();
}
Example: Using a segment mask to speed up the segmentation process
// Masking export options
com.aspose.imaging.imageoptions.PngOptions exportOptions = new com.aspose.imaging.imageoptions.PngOptions();
exportOptions.setColorType(com.aspose.imaging.fileformats.png.PngColorType.TruecolorWithAlpha);
exportOptions.setSource(new com.aspose.imaging.sources.StreamSource());
com.aspose.imaging.masking.options.MaskingOptions maskingOptions = new com.aspose.imaging.masking.options.MaskingOptions();
// Use GraphCut clustering.
maskingOptions.setMethod(com.aspose.imaging.masking.options.SegmentationMethod.GraphCut);
maskingOptions.setDecompose(false);
maskingOptions.setArgs(new com.aspose.imaging.masking.options.AutoMaskingArgs());
// The background color will be transparent.
maskingOptions.setBackgroundReplacementColor(com.aspose.imaging.Color.getTransparent());
maskingOptions.setExportOptions(exportOptions);
String dir = "c:\\temp\\";
com.aspose.imaging.RasterImage image = (com.aspose.imaging.RasterImage)com.aspose.imaging.Image.load(dir + "BigImage.jpg");
try
{
com.aspose.imaging.Size imageSize = image.getSize();
// Reducing image size to speed up the segmentation process
image.resizeHeightProportionally(600, com.aspose.imaging.ResizeType.HighQualityResample);
// Create an instance of the ImageMasking class.
com.aspose.imaging.masking.ImageMasking masking = new com.aspose.imaging.masking.ImageMasking(image);
// Divide the source image into several clusters (segments).
com.aspose.imaging.masking.result.MaskingResult maskingResult = masking.decompose(maskingOptions);
try
{
// Getting the foreground mask
com.aspose.imaging.RasterImage foregroundMask = maskingResult.get_Item(1).getMask();
try
{
// Increase the size of the mask to the size of the original image
foregroundMask.resize(imageSize.getWidth(), imageSize.getHeight(), com.aspose.imaging.ResizeType.NearestNeighbourResample);
// Applying the mask to the original image to obtain a foreground segment
com.aspose.imaging.RasterImage originImage = (com.aspose.imaging.RasterImage)com.aspose.imaging.Image.load(dir + "BigImage.jpg");
try
{
com.aspose.imaging.masking.ImageMasking.applyMask(originImage, foregroundMask, maskingOptions);
originImage.save(dir + "BigImage_foreground.png", exportOptions);
}
finally
{
originImage.close();
}
}
finally
{
foregroundMask.close();
}
}
finally
{
maskingResult.close();
}
}
finally
{
image.close();
}
Example: Saving the masking session to a file for long sessions, as well as for the possibility of resuming the session in another environment.
String dir = "c:\\temp\\";
String sessionBackupFile = dir + "session.bak";
// Masking export options
com.aspose.imaging.imageoptions.PngOptions exportOptions = new com.aspose.imaging.imageoptions.PngOptions();
exportOptions.setColorType(com.aspose.imaging.fileformats.png.PngColorType.TruecolorWithAlpha);
exportOptions.setSource(new com.aspose.imaging.sources.StreamSource());
com.aspose.imaging.masking.options.MaskingOptions maskingOptions = new com.aspose.imaging.masking.options.MaskingOptions();
// Use GraphCut clustering.
maskingOptions.setMethod(com.aspose.imaging.masking.options.SegmentationMethod.GraphCut);
maskingOptions.setDecompose(false);
maskingOptions.setArgs(new com.aspose.imaging.masking.options.AutoMaskingArgs());
// The background color will be orange.
maskingOptions.setBackgroundReplacementColor(com.aspose.imaging.Color.getOrange());
maskingOptions.setExportOptions(exportOptions);
// Starting a session for the first time and saving to a file
com.aspose.imaging.RasterImage image = (com.aspose.imaging.RasterImage)com.aspose.imaging.Image.load(dir + "Gorilla.bmp");
try
{
// Create an instance of the ImageMasking class.
com.aspose.imaging.masking.ImageMasking masking = new com.aspose.imaging.masking.ImageMasking(image);
com.aspose.imaging.masking.IMaskingSession session = masking.createSession(maskingOptions);
try
{
com.aspose.imaging.masking.result.MaskingResult maskingResult = session.decompose();
try
{
com.aspose.imaging.RasterImage segmentImage = maskingResult.get_Item(1).getImage();
try
{
segmentImage.save(dir + "step1.png");
}
finally
{
segmentImage.close();
}
}
finally
{
maskingResult.close();
}
session.save(sessionBackupFile);
}
finally
{
session.dispose();
}
}
finally
{
image.close();
}
// Resuming a masking session from a file
com.aspose.imaging.RasterImage image2 = (com.aspose.imaging.RasterImage)com.aspose.imaging.Image.load(dir + "Gorilla.bmp");
try
{
// Create an instance of the ImageMasking class.
com.aspose.imaging.masking.ImageMasking masking = new com.aspose.imaging.masking.ImageMasking(image2);
com.aspose.imaging.masking.IMaskingSession session = masking.loadSession(sessionBackupFile);
try
{
com.aspose.imaging.masking.options.AutoMaskingArgs args = new com.aspose.imaging.masking.options.AutoMaskingArgs();
// Analyze the image visually and set the points that belong to separated objects.
args.setObjectsPoints(new Point[][]
{
new Point[]
{
new Point(0, 0), new Point(0, 1), new Point(1, 0),
new Point(1, 1), new Point(2, 0), new Point(2, 1),
new Point(3, 0), new Point(3, 1)
},
});
com.aspose.imaging.masking.result.MaskingResult maskingResult = session.improveDecomposition(args);
try
{
// Explicit transfer of export options, since it is not serializable
maskingResult.MaskingOptions.setExportOptions(exportOptions);
com.aspose.imaging.RasterImage segmentImage = maskingResult.get_Item(1).getImage();
try
{
segmentImage.save(dir + "step2.png");
}
finally
{
segmentImage.close();
}
}
finally
{
maskingResult.close();
}
}
finally
{
session.dispose();
}
}
finally
{
image2.close();
}
AutoMaskingArgs()
public AutoMaskingArgs()
getNumberOfObjects()
public final int getNumberOfObjects()
Gets the number of objects to separate initial image to (optional), default value is 2 (object and background).
Value: The number of objects.
Returns: int - the number of objects to separate initial image to (optional), default value is 2 (object and background).
setNumberOfObjects(int value)
public final void setNumberOfObjects(int value)
Sets the number of objects to separate initial image to (optional), default value is 2 (object and background).
Value: The number of objects.
Parameters:
Parameter | Type | Description |
---|---|---|
value | int | the number of objects to separate initial image to (optional), default value is 2 (object and background). |
getObjectsRectangles()
public final Rectangle[] getObjectsRectangles()
Gets the objects rectangles that belong to separated objects (optional). This parameter is used to increase segmentation method precision.
Value: The objects rectangles.
Returns: com.aspose.imaging.Rectangle[] - the objects rectangles that belong to separated objects (optional).
setObjectsRectangles(Rectangle[] value)
public final void setObjectsRectangles(Rectangle[] value)
Sets the objects rectangles that belong to separated objects (optional). This parameter is used to increase segmentation method precision.
Value: The objects rectangles.
Parameters:
Parameter | Type | Description |
---|---|---|
value | Rectangle[] | the objects rectangles that belong to separated objects (optional). |
getObjectsPoints()
public final Point[][] getObjectsPoints()
Gets the points that belong to separated objects (optional) NumberOfObjects coordinates that belong to NumberOfObjects objects of initial image. This parameter is used to increase segmentation method precision.
Value: The objects points.
Returns: com.aspose.imaging.Point[][] - the points that belong to separated objects (optional) NumberOfObjects coordinates that belong to NumberOfObjects objects of initial image.
setObjectsPoints(Point[][] value)
public final void setObjectsPoints(Point[][] value)
Sets the points that belong to separated objects (optional) NumberOfObjects coordinates that belong to NumberOfObjects objects of initial image. This parameter is used to increase segmentation method precision.
Value: The objects points.
Parameters:
Parameter | Type | Description |
---|---|---|
value | Point[] | the points that belong to separated objects (optional) NumberOfObjects coordinates that belong to NumberOfObjects objects of initial image. |
getOrphanedPoints()
public final Point[] getOrphanedPoints()
Gets the points that no longer belong to any object (optional). This parameter is used only in case of re-segmentation.
Value: The orphaned points.
Returns: com.aspose.imaging.Point[] - the points that no longer belong to any object (optional).
setOrphanedPoints(Point[] value)
public final void setOrphanedPoints(Point[] value)
Sets the points that no longer belong to any object (optional). This parameter is used only in case of re-segmentation.
Value: The orphaned points.
Parameters:
Parameter | Type | Description |
---|---|---|
value | Point[] | the points that no longer belong to any object (optional). |
getPrecision()
public final double getPrecision()
Gets the precision of segmentation method (optional).
Value: The precision of segmentation method (optional).
Returns: double - the precision of segmentation method (optional).
setPrecision(double value)
public final void setPrecision(double value)
Sets the precision of segmentation method (optional).
Value: The precision of segmentation method (optional).
Parameters:
Parameter | Type | Description |
---|---|---|
value | double | the precision of segmentation method (optional). |
getMaxIterationNumber()
public final int getMaxIterationNumber()
Gets the maximum number of iterations.
Value: The maximum maximum number of iterations.
Returns: int - the maximum number of iterations.
setMaxIterationNumber(int value)
public final void setMaxIterationNumber(int value)
Sets the maximum number of iterations.
Value: The maximum maximum number of iterations.
Parameters:
Parameter | Type | Description |
---|---|---|
value | int | the maximum number of iterations. |