<< Chapter < Page
  Digital signal processing - dsp     Page 16 / 24
Chapter >> Page >

Listing 12 also signals the end of the constructor for the class named ImgMod29 .

Six different inner classes

We have finally gotten to the fun part of the program. This is the part where we write the code that determines how the surface elevations and the calibrationscale values are displayed. This part of the program consists of six different inner classes.

The fact that the classes are inner classes makes it possible for methods in the class to access instance variables and methods of the containing object oftype ImgMod29 . This makes the programming somewhat easier than would be the case if they were all top-level classes.

Subclasses of the canvas class

Each of the six inner classes is a subclass of the class named Canvas and each of the classes overrides the paint method. The code in the overridden paint methods for the classes that display the 3D surfaces

  • access the surface elevation data,
  • convert that data into colors and,
  • display those colors in the correct locations on the screen.

The names and behaviors of three of those three classes are:

  • CanvasType0surface - Displays a Grayscale plot
  • CanvasType1surface - Displays a Color Shift plot
  • CanvasType2surface - Displays a Color Contour plot

Associated directly with the three above classes are three other inner classes that are used to display the calibration scale immediately below theplot of the 3D surface. The names and behaviors of those three classes are:

  • CanvasType0scale - Displays a Grayscale calibration scale
  • CanvasType1scale - Displays a Color Shift calibration scale
  • CanvasType2scale - Displays a Color Contour calibration scale

The getCenter method

Before getting into the details of these inner classes, however, I will present and briefly discuss a method named getCenter , which is called by the constructor for each of the surface plotting classes.

The getCenter method is used to find the horizontal and vertical center of the surface. These values are used to position the optionalred axes that may be drawn on the surface. This method is shown in its entirety in Listing 13 .

Listing 13. The method named getCenter.
int horizCenter; int vertCenter;void getCenter(){ if(dataWidth%2 == 0){//evenhorizCenter = dataWidth * blockSize/2 + blockSize/2;}else{//odd horizCenter = dataWidth * blockSize/2;}//end elseif(dataHeight%2 == 0){//even vertCenter =dataHeight * blockSize/2 + blockSize/2; }else{//oddvertCenter = dataHeight * blockSize/2; }//end else}//end getCenter

Even or odd is very important

Note that the returned values depend on whether the dimensions of the surface are even or odd.

(For example, the center of a string of five blocks of pixels is the third block whereas the center of a string of six blocks of pixels is halfway between the third and fourth blocks.)

Now that you know about the difference between even and odd surface dimensions, the code in Listing 13 should be straightforward and should not require further discussion.

Grayscale plot format

Listing 14 shows the beginning of the class named CanvasType0surface and also shows the entire constructor for that class.

Get Jobilize Job Search Mobile App in your pocket Now!

Get it on Google Play Download on the App Store Now




Source:  OpenStax, Digital signal processing - dsp. OpenStax CNX. Jan 06, 2016 Download for free at https://legacy.cnx.org/content/col11642/1.38
Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'Digital signal processing - dsp' conversation and receive update notifications?

Ask