Tutorial: Difference between revisions

Namespace

Emgu

All libraries implemented by Emgu® will be put under the namespace of Emgu.

Emgu.CV

The Emgu.CV namespace implement wrapper functions for OpenCV. To use this namespace in your code, it is recommended to include

using Emgu.CV;

in the begining of your C# code.

Function Mapping - Emgu.CV.CvInvoke

The CvInvoke class provides a way to directly invoke OpenCV function within .NET languages. Each method in this class corresponds to a function in OpenCV of the same name. For example, a call to

 
 IntPtr image = CvInvoke.cvCreateImage(new MCvSize(400, 300), CvEnum.IPL_DEPTH.IPL_DEPTH_8U, 1);

is equivalent to the following function call in C

 
 IplImage* image = cvCreateImage(cvSize(400, 300), IPL_DEPTH_8U, 1);

Both of which create a 400x300 of 8-bit unsigned grayscale image .

Enumeration Mapping - Emgu.CV.CvEnum

The CvEnum namespace provides direct mapping to opencv enumerations. For example, CvEnum.IPL_DEPTH.IPL_DEPTH_8U is equivalent to the value in opencv IPL_DEPTH_8U . Both of which has the value of 8.

Structure Mapping - Emgu.CV.Mxxx

This type of structure is a direct mapping to opencv structures. For example

• MIplImage is equivalent to IplImage structure in OpenCV
• MCvSize is equivalent to CvSize structure
• Mxxxx is equivalent to xxxx structure

Working with images

Generic Support

An Image is defined by its generic parametes: color and depth. To create a 8bit unsigned Grayscale image, in Emgu CV it is done by calling

Image<Gray, Byte> image = new Image<Gray, Byte>( width, height);

Not only this syntax make you aware the color and the depth of the image, it also restrict the way you use functions and capture errors in compile time. For example, the SetValue(C color, Image<Gray, Byte> mask) function in Image<C, D> class (version >= 1.2.2.0) will only accept colors of the same type, and mask has to be an 8-bit unsigned grayscale image. Any attemps to use a 16-bit floating point or non-grayscale image as a mask will results a compile time error!

Creating Image

Although it is possible to create image by calling CvInvoke.cvCreateImage, we suggest to construct a Image< Color, Depth> object instead. There are serveral advantage of using the Managed Image<Color, Depth> class, among those are

• Memory is automatically released when the garbage collector dispose the Image< Color, Depth> Object
• Image< Color, Depth> class contains advanced method that is not available on OpenCV, for example, generic operation

To create an 480x320 image with Bgr color and 8-bit unsigned value, in C# you can call

 Image<Bgr, Byte> img1 = new Image<Bgr, Byte>(480, 320);

Note that the image initialized this way contains random pixel values, if you wants to specify the background value of the image, let's say in Blue, in C# you write

 Image<Bgr, Byte> img1 = new Image<Bgr, Byte>(480, 320, new Bgr(255, 0, 0));

Creating image from file is also simple, in C# just call

 Image<Bgr, Byte> img1 = new Image<Bgr, Byte>("MyImage.jpg");

assuming the image file is call "MyImage.jpg"

Image Color

The first generic parameter of the Image class specific the color of the image type, for example Image<Gray, ...> img1; tells that img1 is a single channel gray color image.

Color Types supported in Emgu CV includes:

• Gray
• Bgr (Blue Green Red)
• Hsv (Hue Satuation Value)
• Hls (Hue Lightness Satuation)
• Lab (CIE L*a*b*)
• Luv (CIE L*u*v*)
• Xyz (CIE XYZ.Rec 709 with D65 white point)
• Ycc (YCrCb JPEG)

Automatic Garbage Collection

The Image class, implemented in C# will automatically take care of the memory management and garbage collection.

Once the garbage collector decided that there is no more reference to the Image object, it will call the Disposed method, which involves the FreeUnmanagedObjects method that release the unmanaged IplImage using CvInvoke.cvReleaseImage.

The time of which garbage collector decides to dispose the image is not gurantee, therefore, when working with large image, it is recommend to call the Dispose() method to explicitly release the object. Alternatively, use the using keyword in C# to limit the scope of the image

using (Image<Gray, Single> image = new Image<Gray, Single>(1000, 800))
{
   ... //do something here in the image
} //The image will be disposed here and memory freed

Image Depth

Image Depth is specified using the second generic parameter Depth Available Color Depths are:

• Byte
• Single (float)

Methods

Naming Convention

• Method XYZ in Image< Color, Depth> class corresponse to the OpenCV function cvXYZ. For example, Image< Color, Depth>.Not() function corresponse to cvNot function with the resulting image being returned.
• Method _XYZ is usually the same as Method XYZ except that the operation is performed inplace rather than returning a value. For example, Image< Color, Depth>._Not() function performs the bitwise inversion inplace.

Generic Operation

One of the advantage of using Emgu CV is the ability to perform generic operations.

It's best if I demostrate this using with example. Suppose we have an gray scale image of bytes

 Image<Gray, Byte> img1 = new Image<Gray, Byte>(400, 300, new Gray(30));

To invert all the pixels in this image we can call the function using plain old CvInvoke

 Image<Gray, Byte> img2 = img1.Not();

As an alternative, we can also use the generic method Convert available from the Image< Color, Depth> class

 Image<Gray, Byte> img3 = img1.Convert<Byte>( delegate(Byte b) { return (Byte) (255-b); } );

The resulting image img2 and img3 contains the same value for each pixel.

At first glance it wouldn't seems to be a big gain when using generic operations. In fact, since OpenCV already has an implementation of the Not function and performance-wise it is better than the generic version of the equailent Convert function call. However, there comes to cases when generic functions provide the flexibility with only minor performance penalty.

Let's say you have an Image<Gray, Byte> img1 with pixels set. and you wants to create a single channel float point image of the same size, when each pixel of the new image, corresponse to the old image, can be describe in the following delegate

 delegate(Byte b) { return (Single) Math.cos( b * b / 255.0); }

This operation can be completed as follows in Emgu CV

 Image<Gray, Single> img4 = img1.Convert<Single>( delegate(Byte b) { return (Single) Math.cos( b * b / 255.0); }  );

Which is simple and meaningfull. This operation in OpenCV is hard to perform since equivalent function such as Math.cos is not available.

Drawing Objects on Image

The Draw( ) method in Image< Color, Depth> can be used to draw different types of objects, including fonts, lines, circles, rectangles, boxes, ellipses as well as contours. Use the documentation and intellisense as a guideline to discover the many functionality of the Draw function.

Color and Depth Conversion

Converting an Image< Color, Depth> between different colors and depths are simple. For example, if you have Image<Bgr, Byte> img1 and you wants to convert it to a Grayscale image of Single, all you need to do is

 Image<Gray, Single> img2 = img1.Convert<Gray, Single>();

There is no need to worry about the color convertion code as it is handled by the Emgu CV library.

XML serialization

One of the future of Emgu CV is that Image< Color, Depth> can be XML serializated. You might ask why we need to serialization an Image. The answer is simple, we wants to use it in a web service!

Since the Image< Color, Depth> class implements ISerializable, when you work in WCF (Windows Communication Fundation), you are free to use Image< Color, Depth> type as parameters or return value of a web service.

This will be ideal, for example, if you are building a cluster of computers to recongnize different groups of object and have a center computer to coordinate the tasks. I will also be useful if your wants to implement remote monitoring software that constainly query image from a remote server, which use the Capture class in Emgu CV to capture images from camera.

Code Documentation

Xml Documentation

Documentation is emmbedded in the code using xml format, which can then be compiled as HTML documentation using Sandcastle.

Intellisense in Visual Studio

If you are using Visual Studio as your development tools, you will have intellisense support when developping Emgu CV applications. For example, if you wants to create an image directly using cvCreateImage function, which is wrapped by the CvInvoke Class, just type CvInvoke.

and a list of functions belongs to CvInvoke class is displayed along with a description for each of the function. Since you are creating an image, select the cvCreateImage function

The list of parameters for this function will be displayed as well as a description for each of the parameters.

Examples

Hello, World

We will start by the Hello World sample, written in C#

String win1 = "Test Window"; //The name of the window

//Create the window using the specific name
CvInvoke.cvNamedWindow(win1); 

//Create an image of 400x200 of Blue color
using (Image<Bgr, Byte> img = new Image<Bgr, byte>(400, 200, new Bgr(255, 0, 0))) 
using (Font f = new Font(CvEnum.FONT.CV_FONT_HERSHEY_COMPLEX, 1.0, 1.0)) //Create the font
{
  //Draw "Hello, world." on the image using the specific font
  img.Draw("Hello, world", f, new Point2D<int>(10, 80), new Bgr(0, 255, 0)); 

  CvInvoke.cvShowImage(win1, img.Ptr); //Show the image

  CvInvoke.cvWaitKey(0);  //Wait for the key pressing event

  CvInvoke.cvDestroyWindow(win1); //Destory the window
}

The above code will create an image of 400x200 with blue background color and the String "Hello, world" in green on the forground. The image will be displayed a window named "Test Window".