BeanShell Scripting
BeanShell is the scripting language which is similar both to the ImageJ macro language and to Java. In fact, you can even execute almost verbatim Java code, but the common case is to write scripts, i.e. leave out all the syntactic sugar to make your code part of a class.
BeanShell also does not require strict typing (read: you do not need to declare variables with types), making it easy to turn prototype code into proper Java after seeing that the code works.
Contents
Quickstart
If you are already familiar with Java or the macro language, the syntax of BeanShell will be familiar to you.
The obligatory Hello, World! example:
1 2 | // This prints 'Hello, World!' to the output area print( "Hello, World!" ); |
Variables can be assigned values:
1 2 | someName = 1 ; someName = "Hello" ; |
Variables are not strongly typed in BeanShell by default; If you use a variable name without specifying the type of it, you can assign anything to it. Optionally, you can declare variables with a data type, in which case the type is enforced:
1 2 | String s; s = 1 ; // this fails |
Note: The builtin functions of the ImageJ Macro language are not available in BeanShell.
Syntax
Variables
- A variable is a placeholder for a changing entity
- Each variable has a name
- Each variable has a value
- Values can be any data type (numeric, text, etc)
- Variables can be assigned new values
Set variables' values
Variables are assigned a value by statements of the form name = value ended by a semicolon. The value can be an expression.
1 2 3 4 | intensity = 255 ; value = 2 * 8 + 1 ; title = “Hello, World!”; text = “title”; |
Using variables
You can set a variable's value to the value of a second variable:
1 | text = title; |
Note that the variable name on the left hand side of the equal sign refers to the variable itself (not its value), but on the right hand side, the variable name refers to the current value stored in the variable.
As soon as the variables are assigned a new value, they simply forget the old value:
1 2 | x = y; y = x; |
After the first statement, x took on the value of y, so that the second statement does not change the value of y.
The right hand side of an assignment can contain complicated expressions:
1 | x = y * y – 2 * y + 3 ; |
Note that the right hand side needs to be evaluated first before the value is assigned to the variable:
1 | intensity = intensity * 2 ; |
This statement just doubled the value of intensity.
Comments
It is important to use comments in your source code, not only for other people to understand the intent of the code, but also for yourself, when you come back to your code in 6 months. Comments look like this:
1 2 3 4 | // This is a comment trying to help you to // remember what you meant to do here: a = Math.exp(x * Math.sin(y)) + Math.atan(x * y – a); |
You should not repeat the code in English, but describe the important aspects not conveyed by the code. For example, there might be a bug requiring a workaround, and you might want to explain that in the comments (lest you try to "fix" the workaround).
Comments are often abused to disable code, such as debugging statements
1 | // x = 10; // hard-code x to 10 for now, just for debugging |
If you have a substantial amount of things to say in a comment, you might use multi-line comments:
1 2 3 4 5 | /* Multi-line comments can be started by a slash followed by a star, and their end is marked by a star followed by a slash: */ |
Further reading
For more information, see BeanShell's Quickstart page.
Tips
You can source scripts (i.e. interpret another script before continuing to interpret the current script) using this line:
1 | this .interpreter.source( "the-other-script.bsh" ); |
Examples
Add CIEL*a*b numbers to the status bar
If your monitor is calibrated to sRGB, there is an easy way to do display also the L, a and b values in the status bar:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 | import color.CIELAB; import java.awt.Label; import java.awt.event.KeyEvent; import java.awt.event.KeyListener; import java.util.regex.Matcher; import java.util.regex.Pattern; // IJ1's API does not offer all I want setAccessibility( true ); // press Escape on the ImageJ window to stop it class Add_CIELab_to_Status extends Thread implements KeyListener { protected ImageJ ij; protected Label status; protected Pattern pattern = Pattern.compile( "^.* value=([0-9]*),([0-9]*),([0-9]*)$" ); protected float [] lab, rgb; public Add_CIELab_to_Status() { ij = IJ.getInstance(); status = ij.statusLine; ij.addKeyListener( this ); lab = new float [ 3 ]; rgb = new float [ 3 ]; } public void run() { try { for (;;) { String text = status.getText(); Matcher matcher = pattern.matcher(text); if (matcher.matches()) { for ( int i = 0 ; i < 3 ; i++) rgb[i] = Float.parseFloat(matcher.group(i + 1 )) / 255 ; CIELAB.sRGB2CIELAB(rgb, lab); status.setText(text + ", L=" + IJ.d2s(lab[ 0 ], 2 ) + ",a*=" + IJ.d2s(lab[ 1 ], 3 ) + ",b*=" + IJ.d2s(lab[ 2 ], 3 )); } Thread.sleep( 5 ); } } catch (InterruptedException e) {} } public void keyPressed(KeyEvent e) { if (e.getKeyCode() == KeyEvent.VK_ESCAPE) { ij.removeKeyListener( this ); interrupt(); } } public void keyReleased(KeyEvent e) {} public void keyTyped(KeyEvent e) {} } new Add_CIELab_to_Status().start(); |
This example starts a new thread (make sure to implement the run() method but actually call the start() method!) which polls the status bar.
It also registers itself as a key listener so it can stop the process when the user hits the Escape key when the main window is in focus.