←Select platform

Objects Property

Summary

Gets the list of extracted objects.

Syntax
C#
Objective-C
C++/CLI
Java
Python
public ExObjObjectList Objects {get;} 
@property (nonatomic, strong, readonly, nullable) LTExObjObjectList * objects; 
public ExObjObjectList getObjects(); 
public:  
   property ExObjObjectList^ Objects 
   { 
      ExObjObjectList^ get() 
   } 
Objects # get  (ExObjResult) 

Property Value

The list of extracted objects.

Example
C#
Java
using Leadtools; 
using Leadtools.Codecs; 
using Leadtools.ImageProcessing; 
using Leadtools.ImageProcessing.Core; 
 
public void ExtractObjectsCommandExample() 
{ 
   using (RasterCodecs codecs = new RasterCodecs()) 
   // Load the original image 
   using (RasterImage inputImage = codecs.Load(Path.Combine(LEAD_VARS.ImagesDir, "demoicr2.tif"))) 
   { 
      // Setup the extraction options 
      ExtractObjectsCommand command = new ExtractObjectsCommand() 
      { 
         DetectChildren = true, 
         EightConnectivity = true, 
         Outline = true 
      }; 
 
      // Extract the objects 
      command.Run(inputImage); 
 
      using (ExObjData data = command.Data) 
      { 
         // Log the number of objects from the first list 
         ExObjObjectList objects = data[0].Objects; 
         Console.WriteLine($"Number of objects (before filtering): {objects.Count}"); 
 
         // Log the number of points around the first object (braces for scope) 
         { 
            int count = 0; 
            foreach (ExObjOutlinePoint point in objects.First().Outline) 
               count++; 
            Console.WriteLine($"First object's outline length: {count}"); 
         } 
 
         // Setup the filter options 
         ExObjFilterOptions filterOptions = new ExObjFilterOptions() 
         { 
            LargeObjectThreshold = -1, // No upper limit on size 
            SmallObjectThreshold = 10 // Remove objects smaller than 10x10 pixels 
         }; 
 
         // Filter the objects 
         data.FilterList(objects, filterOptions); 
 
         // Log the number of objects again 
         Console.WriteLine($"Number of objects (after filtering): {objects.Count}"); 
 
         // Setup the content bound options 
         ExObjContentBound contentBound = new ExObjContentBound(new LeadRect(192, 260, 323, 146)); 
         ExObjContentBoundOptions contentBoundOptions = new ExObjContentBoundOptions() 
         { 
            ObjectsOfInterest = null // Pass null to use every object in data 
         }; 
 
         // Calculate the content bounds 
         data.CalculateContentBound(new ExObjContentBound[] { contentBound }, contentBoundOptions); 
 
         // Setup the region options 
         ExObjRegionOptions regionOptions = new ExObjRegionOptions() 
         { 
            Horizontal = true 
         }; 
 
         // Calculate each object's region 
         data.CalculateRegion(objects, regionOptions); 
 
         // Create an output image 
         using (RasterImage outputImage = RasterImage.Create(inputImage.Width, inputImage.Height, 24, inputImage.XResolution, RasterColor.White)) 
         { 
            // Fill the output image with white 
            new FillCommand(RasterColor.White).Run(outputImage); 
 
            // Draw the content bound rects for the first word. Red for the input, green for the output. 
            outputImage.AddRectangleToRegion(null, contentBound.Input, RasterRegionCombineMode.Set); 
            new FillCommand(new RasterColor(255, 0, 0)).Run(outputImage); 
            outputImage.AddRectangleToRegion(null, contentBound.Content, RasterRegionCombineMode.Set); 
            new FillCommand(new RasterColor(0, 255, 0)).Run(outputImage); 
 
            // Populate the output image with each object's region 
            foreach (ExObjObject @object in objects) 
               foreach (ExObjSegment segment in @object.RegionHorizontal) 
               { 
                  // Update the region to the current segment 
                  outputImage.AddRectangleToRegion(null, segment.Bounds, RasterRegionCombineMode.Set); 
 
                  // Fill the region with black 
                  new FillCommand(RasterColor.Black).Run(outputImage); 
               } 
 
            // Clear the output image's region 
            outputImage.MakeRegionEmpty(); 
 
            // Save the output image 
            codecs.Save(outputImage, Path.Combine(LEAD_VARS.ImagesDir, "ExtractObjects.png"), RasterImageFormat.Png, 0); 
         } 
      } 
   } 
} 
 
static class LEAD_VARS 
{ 
   public const string ImagesDir = @"C:\LEADTOOLS23\Resources\Images"; 
} 
 
import java.io.File; 
import java.io.IOException; 
import java.util.ArrayList; 
import java.util.Collection; 
import java.util.Collections; 
import java.util.Iterator; 
 
import org.junit.*; 
import org.junit.runner.JUnitCore; 
import org.junit.runner.Result; 
import org.junit.runner.notification.Failure; 
import static org.junit.Assert.*; 
 
import leadtools.*; 
import leadtools.codecs.*; 
import leadtools.imageprocessing.FillCommand; 
import leadtools.imageprocessing.core.*; 
import leadtools.internal.Tuple; 
 
 
public void extractObjectsCommandExample() { 
 
   final String LEAD_VARS_IMAGES_DIR = "C:\\LEADTOOLS23\\Resources\\Images"; 
 
   RasterCodecs codecs = new RasterCodecs(); 
   // Load the original image 
   RasterImage inputImage = codecs.load(combine(LEAD_VARS_IMAGES_DIR, "demoicr2.tif")); 
 
   // Setup the extraction options 
   ExtractObjectsCommand command = new ExtractObjectsCommand(); 
   command.setDetectChildren(true); 
   command.setEightConnectivity(true); 
   command.setOutline(true); 
 
   // Extract the objects 
   command.run(inputImage); 
 
   ExObjData data = command.getData(); 
 
   // Log the number of objects from the first list 
   ExObjObjectList objects = data.iterator().next().getObjects(); 
   System.out.println("Number of objects (before filtering): " + objects.size()); 
 
   // Log the number of points around the first object (braces for scope) 
   System.out.println(objects.iterator().next().getOutline().size()); 
 
   // Setup the filter options 
   ExObjFilterOptions filterOptions = new ExObjFilterOptions(); 
   filterOptions.setLargeObjectThreshold(-1); 
   filterOptions.setSmallObjectThreshold(10); 
 
   // Filter the objects 
   data.filterList(objects, filterOptions); 
 
   // Log the number of objects again 
   System.out.println("Number of objects (after filtering): " + objects.size()); 
 
   // Setup the content bound options 
   ExObjContentBound contentBound = new ExObjContentBound(new LeadRect(192, 260, 323, 146)); 
   Collection<ExObjContentBound> col = Collections.singleton(contentBound); 
   ExObjContentBoundOptions contentBoundOptions = new ExObjContentBoundOptions(); 
   contentBoundOptions.setObjectsOfInterest(null); 
 
   // Calculate the content bounds 
   data.calculateContentBound(col, contentBoundOptions); 
 
   // Setup the region options 
   ExObjRegionOptions regionOptions = new ExObjRegionOptions(); 
   regionOptions.setHorizontal(true); 
 
   // Calculate each object's region 
   data.calculateRegion(objects, regionOptions); 
 
   // Create an output image 
   RasterImage outputImage = RasterImage.create(inputImage.getWidth(), inputImage.getHeight(), 24, 
         inputImage.getXResolution(), RasterColor.WHITE); 
 
   // Fill the output image with white 
   new FillCommand(RasterColor.WHITE).run(outputImage); 
 
   // Draw the content bound rects for the first word. Red for the input, green for 
   // the output. 
   outputImage.addRectangleToRegion(null, contentBound.getInput(), RasterRegionCombineMode.SET); 
   new FillCommand(new RasterColor(255, 0, 0)).run(outputImage); 
   outputImage.addRectangleToRegion(null, contentBound.getContent(), RasterRegionCombineMode.SET); 
   new FillCommand(new RasterColor(0, 255, 0)).run(outputImage); 
 
   // Populate the output image with each object's region 
   Iterator<ExObjObject> it = objects.iterator(); 
   while (it.hasNext()) { 
      Iterator<ExObjSegment> segments = it.next().getRegionHorizontal().iterator(); 
      while (segments.hasNext()) { 
         outputImage.addRectangleToRegion(null, segments.next().getBounds(), RasterRegionCombineMode.SET); 
         new FillCommand(RasterColor.BLACK).run(outputImage); 
      } 
   } 
 
   // Clear the output image's region 
   outputImage.makeRegionEmpty(); 
 
   // Save the output image 
   codecs.save(outputImage, combine(LEAD_VARS_IMAGES_DIR, "ExtractObjects.png"), RasterImageFormat.PNG, 0); 
 
   System.out.println("Command run and image saved to: " + combine(LEAD_VARS_IMAGES_DIR, "ExtractObjects.png")); 
   assertTrue(new File(combine(LEAD_VARS_IMAGES_DIR, "ExtractObjects.png")).exists()); 
 
   outputImage.dispose(); 
   data.dispose(); 
   inputImage.dispose(); 
   codecs.dispose(); 
} 
Requirements

Target Platforms

Help Version 23.0.2024.3.3
Products | Support | Contact Us | Intellectual Property Notices
© 1991-2024 LEAD Technologies, Inc. All Rights Reserved.

Leadtools.ImageProcessing.Core Assembly

Products | Support | Contact Us | Intellectual Property Notices
© 1991-2023 LEAD Technologies, Inc. All Rights Reserved.