just trying out things in java, found following issue.
DefaultAndStaticMethodMain.java:8: error: not a statement
implementation1::sendNotification;
^
1 error
Following is my code.
ParentInterface:
public interface ParentInterface {
default void callForCompletion() {
System.out.println("<<<< Notification sending completed. >>>>");
}
}
Child interface:
public interface ChildInterface extends ParentInterface {
public abstract void sendNotification();
static String printNotificationSentMessage() {
return "Notification is sent successfully.";
}
}
Implementation 1:
public class Implementation1 implements ChildInterface {
#Override
public void sendNotification() {
System.out.println("Implementation --- 1");
System.out.println("Sending notification via email >>>");
}
}
Implementation 2:
public class Implementation2 implements ChildInterface {
#Override
public void sendNotification() {
System.out.println("Implementation ---- 2.");
System.out.println("Sending notification via SMS >>>");
}
}
Main method:
public class DefaultAndStaticMethodMain {
public static void main(String[] args) {
Implementation1 implementation1 = new Implementation1();
implementation1::sendNotification; // Compilation error as shown above.
Implementation2 implementation2 = new Implementation2();
implementation2.sendNotification();
// Following works fine.
// Arrays.asList(implementation1, implementation2).stream().forEach(SomeInterfaceToBeRenamed::sendNotification);
}
}
I am not sure what am I doing wrong, I have JDK 13 installed in local machine and working with IntelliJ 2019.3 with JDK 11. I checked that IntelliJ supports JDK 13
Thanks.
Update
By mistake I left a semi-colon over there, removed it, please check again.
A method reference is not the same as a method call. Those are two distinct things.
A method call is a standalone expression, or, more precisely, an expression statement. That means that in your case implementation2.sendNotification() works, as you would expect.
A method reference, however,
is used to refer to the invocation of a method without actually performing the invocation
and is not a standalone expression. It can only be used where a lambda expression can also be used. A method reference as a standalone expression does not compile, just like an arithmetic expression without assignment (e.g. 3 + 17;). This is enforced by the Java Language Specification, § 14.8 and § 15.13.
More to read:
Please Explain Java 8 Method Reference to instance Method using class name
Method reference in Java 8
What do you intend for the implementation1::sendNotification; line to do? Judging by the implementation2.sendNotification(); line below it looks like you're trying to call sendNotification on implementation1, which is written like this:
implementation1.sendNotification();
The :: notation is a method reference, and (as the error message says) it an identifier, not a statement, and thus can't be a line on its own. Similarly you couldn't write implementation1; (a variable) or ChildInterface; (a class identifier) as a statement.
The .forEach(SomeInterfaceToBeRenamed::sendNotification); line compiles because you are passing the method reference to forEach(), and it in turn invokes each sendNotification() method.
I have simple Start class with public Start(String[] params) constructor, which I'm calling from a non-runnable JAR file from the level of other running Java program. Everything is working in runtime environment. The problem occurs, when I try to call newInstance() method, in order to invoke this Start class.
Class Start looks like this:
public class Start {
public Start(String[] params) {
/* initialize MainStage object */
MainStage stage = new MainStage(params);
stage.show();
// MainStage DO NOT have any restriction about params.length
}
}
And that's how I'm calling Start class:
String[] t = new String[] {"One", "Two", "Three"};
try {
Class<?> clazz = Class.forName("org.plugin.Start");
/* line below throws the mentioned exception */
clazz.getDeclaredConstructor(String[].class).newInstance((Object[]) t);
} catch (Exception e) {
e.printStackTrace();
}
It is worth mentioning, that everything except this IllegalArgumentException goes just perfect, that means - JAR is added to the runtime classpath, class Start is calling out without problem, when it has no parameters in its constructor.
You need to make an array of objects, and put t in it, like this:
clazz.getDeclaredConstructor(String[].class).newInstance(new Object[]{t});
Demo.
The reason Java tells you that you have passed an invalid number of parameters is that your code passes t, an array with three elements, to a constructor that takes a single array parameter. In other words, you were missing an extra level of indirection, because parameters that you pass to methods or constructors need to be wrapped in Object[] that has one element per function parameters.
I was trying to modify class dynamically, such as call sleep() before a line. I attached agent to a jvm during runtime using Attach method. Then I got target class from jvm, and modified it(Add a line to call sleep()). And I got redine class error. I am using JDK1.6. I am using ASM core API to modify class.
The Error:
Caused by: java.lang.UnsupportedOperationException: class redefinition failed: attempted to change the schema (add/remove fields)
at sun.instrument.InstrumentationImpl.retransformClasses0(Native Method)
at sun.instrument.InstrumentationImpl.retransformClasses(InstrumentationImpl.java:124)
Is there something wrong with ASM code? Actually my ASM code finished its job(to Add a line to call sleep()). Does current jvm not support retransform class? It seems failed to execute retransformClasses(). Does retransformClasses() not support the ASM operation(to add a line into a method to call sleep())? Any ideas? thx
EDIT:
The class which I want modify:
import java.util.concurrent.TimeUnit;
public class Person {
public String name = "abc";
public String address = "xxxxx" ;
public void setName(String name) {
this.name = name;
}
public String getName() {
return name;
}
public void sayHello() throws InterruptedException {
System.out.println("aaaaaaaaaa");
System.out.println("Hello World!");
TimeUnit.SECONDS.sleep(120);
System.out.println("dd");
}
public void sayHello2() {
System.out.println("aaaaaaaaaa1");
System.out.println("Hello World!2");
}
public static void main (String args[]) {
try {
Person p = new Person();
p.sayHello(); // linenumber #9. A line to call Sleep() should be added before #here.
p.sayHello2();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
}
My ASM code:
public void visitMethodInsn(int arg0, String arg1, String arg2, String arg3) {
Label la=new Label();
mv.visitLabel(la);
int linenumber=la.getOffset();
if(linenumber==9) {
mv.visitFieldInsn(Opcodes.GETSTATIC, "java/util/concurrent/TimeUnit", "SECONDS", "Ljava/util/concurrent/TimeUnit;");
mv.visitLdcInsn(new Long("5"));
mv.visitMethodInsn(Opcodes.INVOKEVIRTUAL, "java/util/concurrent/TimeUnit", "sleep", "(J)V");
super.visitMethodInsn(arg0, arg1, arg2, arg3);
}
}
Not looking at your code yet, I think I can suggest something. When a class is first loaded, in addition to storing the class's byte codes, the JVM also has tables where it keeps track of the types of fields and the signatures of methods in each class.
The error you are seeing would suggest that the class was loaded, this signature information was stored and then you tried to add the method after that.
If you instead put your agent jar onto the command line, you can do things before the class is loaded for the first time. If you add your method before the signature info is stored away, you should be good.
If you have to connect the agent after the process is already launched, you may be able to transform the class but you may only be able to transform it without changing the set of fields, their types, or the methods, or their signatures. In other words, you may be able to change the byte codes but you have to not invalidate the previously-stored meta information.
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You can create various Java code templates in Eclipse via
Window > Preferences > Java > Editor > Templates
e.g.
sysout is expanded to:
System.out.println(${word_selection}${});${cursor}
You can activate this by typing sysout followed by CTRL+SPACE
What useful Java code templates do you currently use? Include the name and description of it and why it's awesome.
I am looking for an original/novel use of a template rather than a built-in existing feature.
Create Log4J logger
Get swt color from display
Syncexec - Eclipse Framework
Singleton Pattern/Enum Singleton Generation
Readfile
Const
Traceout
Format String
Comment Code Review
String format
Try Finally Lock
Message Format i18n and log
Equalsbuilder
Hashcodebuilder
Spring Object Injection
Create FileOutputStream
The following code templates will both create a logger and create the right imports, if needed.
SLF4J
${:import(org.slf4j.Logger,org.slf4j.LoggerFactory)}
private static final Logger LOG = LoggerFactory.getLogger(${enclosing_type}.class);
Log4J 2
${:import(org.apache.logging.log4j.LogManager,org.apache.logging.log4j.Logger)}
private static final Logger LOG = LogManager.getLogger(${enclosing_type}.class);
Log4J
${:import(org.apache.log4j.Logger)}
private static final Logger LOG = Logger.getLogger(${enclosing_type}.class);
Source.
JUL
${:import(java.util.logging.Logger)}
private static final Logger LOG = Logger.getLogger(${enclosing_type}.class.getName());
Some additional templates here: Link I -
Link II
I like this one:
readfile
${:import(java.io.BufferedReader,
java.io.FileNotFoundException,
java.io.FileReader,
java.io.IOException)}
BufferedReader in = null;
try {
in = new BufferedReader(new FileReader(${fileName}));
String line;
while ((line = in.readLine()) != null) {
${process}
}
}
catch (FileNotFoundException e) {
logger.error(e) ;
}
catch (IOException e) {
logger.error(e) ;
} finally {
if(in != null) in.close();
}
${cursor}
UPDATE: The Java 7 version of this template is:
${:import(java.nio.file.Files,
java.nio.file.Paths,
java.nio.charset.Charset,
java.io.IOException,
java.io.BufferedReader)}
try (BufferedReader in = Files.newBufferedReader(Paths.get(${fileName:var(String)}),
Charset.forName("UTF-8"))) {
String line = null;
while ((line = in.readLine()) != null) {
${cursor}
}
} catch (IOException e) {
// ${todo}: handle exception
}
Format a string
MessageFormat - surround the selection with a MessageFormat.
${:import(java.text.MessageFormat)}
MessageFormat.format(${word_selection}, ${cursor})
This lets me move a cursor to a string, expand the selection to the entire string (Shift-Alt-Up), then Ctrl-Space twice.
Lock the selection
lock - surround the selected lines with a try finally lock. Assume the presence of a lock variable.
${lock}.acquire();
try {
${line_selection}
${cursor}
} finally {
${lock}.release();
}
NB ${line_selection} templates show up in the Surround With menu (Alt-Shift-Z).
I know I am kicking a dead post, but wanted to share this for completion sake:
A correct version of singleton generation template, that overcomes the flawed double-checked locking design (discussed above and mentioned else where)
Singleton Creation Template:
Name this createsingleton
static enum Singleton {
INSTANCE;
private static final ${enclosing_type} singleton = new ${enclosing_type}();
public ${enclosing_type} getSingleton() {
return singleton;
}
}
${cursor}
To access singletons generated using above:
Singleton reference Template:
Name this getsingleton:
${type} ${newName} = ${type}.Singleton.INSTANCE.getSingleton();
Append code snippet to iterate over Map.entrySet():
Template:
${:import(java.util.Map.Entry)}
for (Entry<${keyType:argType(map, 0)}, ${valueType:argType(map, 1)}> ${entry} : ${map:var(java.util.Map)}.entrySet())
{
${keyType} ${key} = ${entry}.getKey();
${valueType} ${value} = ${entry}.getValue();
${cursor}
}
Generated Code:
for (Entry<String, String> entry : properties.entrySet())
{
String key = entry.getKey();
String value = entry.getValue();
|
}
For log, a helpful little ditty to add in the member variable.
private static Log log = LogFactory.getLog(${enclosing_type}.class);
Create a mock with Mockito (in "Java statements" context):
${:importStatic('org.mockito.Mockito.mock')}${Type} ${mockName} = mock(${Type}.class);
And in "Java type members":
${:import(org.mockito.Mock)}#Mock
${Type} ${mockName};
Mock a void method to throw an exception:
${:import(org.mockito.invocation.InvocationOnMock,org.mockito.stubbing.Answer)}
doThrow(${RuntimeException}.class).when(${mock:localVar}).${mockedMethod}(${args});
Mock a void method to do something:
${:import(org.mockito.invocation.InvocationOnMock,org.mockito.stubbing.Answer)}doAnswer(new Answer<Object>() {
public Object answer(InvocationOnMock invocation) throws Throwable {
Object arg1 = invocation.getArguments()[0];
return null;
}
}).when(${mock:localVar}).${mockedMethod}(${args});
Verify mocked method called exactly once:
${:importStatic(org.mockito.Mockito.verify,org.mockito.Mockito.times)}
verify(${mock:localVar}, times(1)).${mockMethod}(${args});
Verify mocked method is never invoked:
${:importStatic(org.mockito.Mockito.verify,org.mockito.Mockito.never)}verify(${mock:localVar}, never()).${mockMethod}(${args});
New linked list using Google Guava (and similar for hashset and hashmap):
${import:import(java.util.List,com.google.common.collect.Lists)}List<${T}> ${newName} = Lists.newLinkedList();
Also I use a huge template that generates a Test class. Here is a shortened fragment of it that everyone interested should customize:
package ${enclosing_package};
import org.junit.*;
import static org.junit.Assert.*;
import static org.hamcrest.Matchers.*;
import static org.mockito.Matchers.*;
import static org.mockito.Mockito.*;
import org.mockito.Mockito;
import org.slf4j.Logger;
import org.mockito.InjectMocks;
import org.mockito.Mock;
import org.mockito.runners.MockitoJUnitRunner;
import org.junit.runner.RunWith;
// TODO autogenerated test stub
#RunWith(MockitoJUnitRunner.class)
public class ${primary_type_name} {
#InjectMocks
protected ${testedType} ${testedInstance};
${cursor}
#Mock
protected Logger logger;
#Before
public void setup() throws Exception {
}
#Test
public void shouldXXX() throws Exception {
// given
// when
// TODO autogenerated method stub
// then
fail("Not implemented.");
}
}
// Here goes mockito+junit cheetsheet
Null Checks!
if( ${word_selection} != null ){
${cursor}
}
if( ${word_selection} == null ){
${cursor}
}
One of my beloved is foreach:
for (${iterable_type} ${iterable_element} : ${iterable}) {
${cursor}
}
And traceout, since I'm using it a lot for tracking:
System.out.println("${enclosing_type}.${enclosing_method}()");
I just thought about another one and have found it over the Internet some day, const:
private static final ${type} ${name} = new ${type} ${cursor};
A little tip on sysout -- I like to renamed it to "sop". Nothing else in the java libs starts with "sop" so you can quickly type "sop" and boom, it inserts.
Throw an IllegalArgumentException with variable in current scope (illarg):
throw new IllegalArgumentException(${var});
Better
throw new IllegalArgumentException("Invalid ${var} " + ${var});
Nothing fancy for code production - but quite useful for code reviews
I have my template coderev low/med/high do the following
/**
* Code Review: Low Importance
*
*
* TODO: Insert problem with code here
*
*/
And then in the Tasks view - will show me all of the code review comments I want to bring up during a meeting.
Some more templates here.
Includes:
Create a date object from a particular date
Create a new generic ArrayList
Logger setup
Log with specified level
Create a new generic HashMap
Iterate through a map, print the keys and values
Parse a time using SimpleDateFormat
Read a file line by line
Log and rethrow a caught exeption
Print execution time of a block of code
Create periodic Timer
Write a String to a file
slf4j Logging
${imp:import(org.slf4j.Logger,org.slf4j.LoggerFactory)}
private static final Logger LOGGER = LoggerFactory
.getLogger(${enclosing_type}.class);
Bean Property
private ${Type} ${property};
public ${Type} get${Property}() {
return ${property};
}
public void set${Property}(${Type} ${property}) {
${propertyChangeSupport}.firePropertyChange("${property}", this.${property}, this.${property} = ${property});
}
PropertyChangeSupport
private PropertyChangeSupport ${propertyChangeSupport} = new PropertyChangeSupport(this);${:import(java.beans.PropertyChangeSupport,java.beans.PropertyChangeListener)}
public void addPropertyChangeListener(PropertyChangeListener listener) {
${propertyChangeSupport}.addPropertyChangeListener(listener);
}
public void addPropertyChangeListener(String propertyName, PropertyChangeListener listener) {
${propertyChangeSupport}.addPropertyChangeListener(propertyName, listener);
}
public void removePropertyChangeListener(PropertyChangeListener listener) {
${propertyChangeSupport}.removePropertyChangeListener(listener);
}
public void removePropertyChangeListener(String propertyName, PropertyChangeListener listener) {
${propertyChangeSupport}.removePropertyChangeListener(propertyName, listener);
}
Post Java 7, a great way to set up loggers which need (or prefer) static references to the enclosing class is to use the newly introduced MethodHandles API to get the runtime class in a static context.
An example snippet for SLF4J is:
private static final Logger logger = LoggerFactory.getLogger(MethodHandles.lookup().lookupClass());
Aside from being a simple snippet in any IDE, it is also less brittle if you refactor certain functionality into another class because you won't accidentally carry the class name with it.
Invoke code on the GUI thread
I bind the following template to the shortcut slater to quickly dispatch code on the GUI thread.
${:import(javax.swing.SwingUtilities)}
SwingUtilities.invokeLater(new Runnable() {
#Override
public void run() {
${cursor}
}
});
When testing around with code I sometimes missed out on deleting some syso s. So I made myself a template called syt.
System.out.println(${word_selection}${});//${todo}:remove${cursor}
Before I compile I always check my TODOs and will never forget to delete a System.out again.
strf -> String.format("msg", args) pretty simple but saves a bit of typing.
String.format("${cursor}",)
Get an SWT color from current display:
Display.getCurrent().getSystemColor(SWT.COLOR_${cursor})
Suround with syncexec
PlatformUI.getWorkbench().getDisplay().syncExec(new Runnable(){
public void run(){
${line_selection}${cursor}
}
});
Use the singleton design pattern:
/**
* The shared instance.
*/
private static ${enclosing_type} instance = new ${enclosing_type}();
/**
* Private constructor.
*/
private ${enclosing_type}() {
super();
}
/**
* Returns this shared instance.
*
* #returns The shared instance
*/
public static ${enclosing_type} getInstance() {
return instance;
}
And an equalsbuilder, hashcodebuilder adaptation:
${:import(org.apache.commons.lang.builder.EqualsBuilder,org.apache.commons.lang.builder.HashCodeBuilder)}
#Override
public boolean equals(Object obj) {
return EqualsBuilder.reflectionEquals(this, obj);
}
#Override
public int hashCode() {
return HashCodeBuilder.reflectionHashCode(this);
}
The template for the logger declaration is great.
I also create linfo, ldebug, lwarn, lerror for the log levels that I use more often.
lerror:
logger.error(${word_selection}${});${cursor}
Create everything for an event
Since events are kinda a pain to create in Java--all those interfaces, methods, and stuff to write just for 1 event--I made a simple template to create everything needed for 1 event.
${:import(java.util.List, java.util.LinkedList, java.util.EventListener, java.util.EventObject)}
private final List<${eventname}Listener> ${eventname}Listeners = new LinkedList<${eventname}Listener>();
public final void add${eventname}Listener(${eventname}Listener listener)
{
synchronized(${eventname}Listeners) {
${eventname}Listeners.add(listener);
}
}
public final void remove${eventname}Listener(${eventname}Listener listener)
{
synchronized(${eventname}Listeners) {
${eventname}Listeners.remove(listener);
}
}
private void raise${eventname}Event(${eventname}Args args)
{
synchronized(${eventname}Listeners) {
for(${eventname}Listener listener : ${eventname}Listeners)
listener.on${eventname}(args);
}
}
public interface ${eventname}Listener extends EventListener
{
public void on${eventname}(${eventname}Args args);
}
public class ${eventname}Args extends EventObject
{
public ${eventname}Args(Object source${cursor})
{
super(source);
}
}
If you have events that share a single EventObject, just delete the customized one inserted by the template and change the appropriate parts of raise___() and on____().
I had written a nice, little, elegant eventing mechanism using a generic interface and generic class, but it wouldn't work due to the way Java handles generics. =(
Edit:
1) I ran into the issue where threads were adding/removing listeners while an event was taking place. The List can't be modified while in use, so I added synchronized blocks where the list of listeners is being accessed or used, locking on the list itself.
Insert test methods should-given-when-then
I saw a similar version to this one recently while pair programming with a very good developer and friend, and I think it could be a nice addition to this list.
This template will create a new test method on a class, following the Given - When - Then approach from the behavior-driven development (BDD) paradigm on the comments, as a guide for structuring the code. It will start the method name with "should" and let you replace the rest of the dummy method name "CheckThisAndThat" with the best possible description of the test method responsibility. After filling the name, TAB will take you straight to the // Given section, so you can start typing your preconditions.
I have it mapped to the three letters "tst", with description "Test methods should-given-when-then" ;)
I hope you find it as useful as I did when I saw it:
#Test
public void should${CheckThisAndThat}() {
Assert.fail("Not yet implemented");
// Given
${cursor}
// When
// Then
}${:import(org.junit.Test, org.junit.Assert)}
Spring Injection
I know this is sort of late to the game, but here is one I use for Spring Injection in a class:
${:import(org.springframework.beans.factory.annotation.Autowired)}
private ${class_to_inject} ${var_name};
#Autowired
public void set${class_to_inject}(${class_to_inject} ${var_name}) {
this.${var_name} = ${var_name};
}
public ${class_to_inject} get${class_to_inject}() {
return this.${var_name};
}
Here is a constructor for non-instantiable classes:
// Suppress default constructor for noninstantiability
#SuppressWarnings("unused")
private ${enclosing_type}() {
throw new AssertionError();
}
This one is for custom exceptions:
/**
* ${cursor}TODO Auto-generated Exception
*/
public class ${Name}Exception extends Exception {
/**
* TODO Auto-generated Default Serial Version UID
*/
private static final long serialVersionUID = 1L;
/**
* #see Exception#Exception()
*/
public ${Name}Exception() {
super();
}
/**
* #see Exception#Exception(String)
*/
public ${Name}Exception(String message) {
super(message);
}
/**
* #see Exception#Exception(Throwable)
*/
public ${Name}Exception(Throwable cause) {
super(cause);
}
/**
* #see Exception#Exception(String, Throwable)
*/
public ${Name}Exception(String message, Throwable cause) {
super(message, cause);
}
}
I like a generated class comment like this:
/**
* I...
*
* $Id$
*/
The "I..." immediately encourages the developer to describe what the class does. I does seem to improve the problem of undocumented classes.
And of course the $Id$ is a useful CVS keyword.
I've had a lot of use of these snippets, looking for null values and empty strings.
I use the "argument test"-templates as the first code in my methods to check received arguments.
testNullArgument
if (${varName} == null) {
throw new NullPointerException(
"Illegal argument. The argument cannot be null: ${varName}");
}
You may want to change the exception message to fit your company's or project's standard. However, I do recommend having some message that includes the name of the offending argument. Otherwise the caller of your method will have to look in the code to understand what went wrong. (A NullPointerException with no message produces an exception with the fairly nonsensical message "null").
testNullOrEmptyStringArgument
if (${varName} == null) {
throw new NullPointerException(
"Illegal argument. The argument cannot be null: ${varName}");
}
${varName} = ${varName}.trim();
if (${varName}.isEmpty()) {
throw new IllegalArgumentException(
"Illegal argument. The argument cannot be an empty string: ${varName}");
}
You can also reuse the null checking template from above and implement this snippet to only check for empty strings. You would then use those two templates to produce the above code.
The above template, however, has the problem that if the in argument is final you will have to amend the produced code some (the ${varName} = ${varName}.trim() will fail).
If you use a lot of final arguments and want to check for empty strings but doesn't have to trim them as part of your code, you could go with this instead:
if (${varName} == null) {
throw new NullPointerException(
"Illegal argument. The argument cannot be null: ${varName}");
}
if (${varName}.trim().isEmpty()) {
throw new IllegalArgumentException(
"Illegal argument. The argument cannot be an empty string: ${varName}");
}
testNullFieldState
I also created some snippets for checking variables that is not sent as arguments (the big difference is the exception type, now being an IllegalStateException instead).
if (${varName} == null) {
throw new IllegalStateException(
"Illegal state. The variable or class field cannot be null: ${varName}");
}
testNullOrEmptyStringFieldState
if (${varName} == null) {
throw new IllegalStateException(
"Illegal state. The variable or class field cannot be null: ${varName}");
}
${varName} = ${varName}.trim();
if (${varName}.isEmpty()) {
throw new IllegalStateException(
"Illegal state. The variable or class field " +
"cannot be an empty string: ${varName}");
}
testArgument
This is a general template for testing a variable. It took me a few years to really learn to appreciate this one, now I use it a lot (in combination with the above templates of course!)
if (!(${varName} ${testExpression})) {
throw new IllegalArgumentException(
"Illegal argument. The argument ${varName} (" + ${varName} + ") " +
"did not pass the test: ${varName} ${testExpression}");
}
You enter a variable name or a condition that returns a value, followed by an operand ("==", "<", ">" etc) and another value or variable and if the test fails the resulting code will throw an IllegalArgumentException.
The reason for the slightly complicated if clause, with the whole expression wrapped in a "!()" is to make it possible to reuse the test condition in the exception message.
Perhaps it will confuse a colleague, but only if they have to look at the code, which they might not have to if you throw these kind of exceptions...
Here's an example with arrays:
public void copy(String[] from, String[] to) {
if (!(from.length == to.length)) {
throw new IllegalArgumentException(
"Illegal argument. The argument from.length (" +
from.length + ") " +
"did not pass the test: from.length == to.length");
}
}
You get this result by calling up the template, typing "from.length" [TAB] "== to.length".
The result is way funnier than an "ArrayIndexOutOfBoundsException" or similar and may actually give your users a chance to figure out the problem.
Enjoy!
I use this for MessageFormat (using Java 1.4). That way I am sure that I have no concatenations that are hard to extract when doing internationalization
i18n
String msg = "${message}";
Object[] params = {${params}};
MessageFormat.format(msg, params);
Also for logging:
log
if(logger.isDebugEnabled()){
String msg = "${message}"; //NLS-1
Object[] params = {${params}};
logger.debug(MessageFormat.format(msg, params));
}
My favorite few are...
1: Javadoc, to insert doc about the method being a Spring object injection method.
Method to set the <code>I${enclosing_type}</code> implementation that this class will use.
*
* #param ${enclosing_method_arguments}<code>I${enclosing_type}</code> instance
2: Debug window, to create a FileOutputStream and write the buffer's content's to a file.
Used for when you want to compare a buffer with a past run (using BeyondCompare), or if you can't view the contents of a buffer (via inspect) because its too large...
java.io.FileOutputStream fos = new java.io.FileOutputStream( new java.io.File("c:\\x.x"));
fos.write(buffer.toString().getBytes());
fos.flush();
fos.close();