com.pojosontheweb:ttt-maven-plugin

Typed Text Templates

License

License

Categories

Categories

Maven Build Tools
GroupId

GroupId

com.pojosontheweb
ArtifactId

ArtifactId

ttt-maven-plugin
Last Version

Last Version

0.1-beta6
Release Date

Release Date

Type

Type

maven-plugin
Description

Description

Typed Text Templates
Project URL

Project URL

http://maven.apache.org

Download ttt-maven-plugin

How to add to project

<plugin>
    <groupId>com.pojosontheweb</groupId>
    <artifactId>ttt-maven-plugin</artifactId>
    <version>0.1-beta6</version>
</plugin>

Dependencies

compile (3)

Group / Artifact Type Version
org.apache.maven : maven-plugin-api jar 3.0.5
org.apache.maven : maven-project jar 2.2.1
com.pojosontheweb : ttt-core jar 0.1-beta6

provided (1)

Group / Artifact Type Version
org.apache.maven.plugin-tools : maven-plugin-annotations jar 3.2

test (1)

Group / Artifact Type Version
junit : junit jar 4.11

Project Modules

There are no modules declared in this project.

Typed Text Templates (aka TTT)

Static-typed text templates for Java.

The problem

Most text templating libs do not provide strong, static typing.

JSP, for instance, can be statically typed and checked at compile-type, but they don't provide any signature. Therefore, you have no context, and no way to know what the page arguments can be. You usually get values from a non typed structure, like a Map<String,Object> (think about those casts when calling request.getAttribute() etc.). Same applies to Groovy templates and others.

Also, we'd like to be able to compose templates easily. And again, compile-time checked.

The idea

Just like a JSP, a TTT template is a mix of text and java code.

TTT uses a subset of the JSP syntax (see next section) : the templates can use script and/or expression blocks, mixed with plain text.

Most importantly, TTT templates define their signature, as typed arguments, just like a function would. The signature defines the variables available inside the template.

The templates are compiled at design-time to strong-typed Java code, that you use when you want to render templates.

This provides for real compile-time error checking. The signature is the template's context : only template args can be used when designing the template, and you need to pass those args when rendering the template.

Writing templates

Here's a simple template example from file Foo.ttt :

<%!
	String foo;
	int bar;
%>
<ul class="foo">
<% for (int i = 0 ; i < bar ; i++) { %>
	<div class="blah">
		hey, <%= foo %>
	</div>
	<li>
		<span>
			<%= i %>
		</span>
	</li>
<% } %>
</ul>

First declaration block is the template's signature, between <%! and %>. Arguments are declared like you declare local variables for a JSP. You don't need to set a value.

Our template therefore has 2 arguments here :

  1. foo (String)
  2. bar (int)

Following is some text, with some scriptlets and expressions, again, just like a regular JSP.

Comments

You may add a javadoc to the arguments of your template, it will be used in the generated classes. The TTT compiler will use the javadocs just before the arguments :

<%!
	/**
	 * the foo for this template 
	 * multi-line if you want
	 */
	Foo foo;
	
	...
%>

Apart from this, you can use JSP-like comments (enclosed in <%-- and --%>) in the text, and code comments (// ... or /* ... */) in scriptlets or expressions.

Nested Templates (composition)

You can nest templates easily by defining arguments that are templates themselves.

For example, here's an outer page template that "includes" a nested template (Wrapper.ttt):

<%!
	/**
	 * the page title (header)
	 */
	String title;
	
	/**
	 * the body of the page, rendered in body tag
	 */
	com.pojosontheweb.ttt.ITemplate nested;
%>
<html>
	<head>
		<%-- title arg used here --%>
		<title><%= title %></title>
	</head>
	<body>
		<%-- body is another template --%>
		<%= nested %>
	</body>
</html>

As you see, the nested arg of this template is of type com.pojosontheweb.ttt.ITemplate. This is the base type of all TTT templates.

When a template is passed to an expression (<%= template %>), it is evaluated and spit out int the output, transparently.

You can now pass any other template to this "wrapper", and render the whole thing :

Wrapper w = new Wrapper("My Title", new MyTemplate(foo, bar, baz));

Polymorphism

You don't have to use the ITemplate base interface when passing templates as arguments to other templates. For example, our Wrapper.ttt above might want to allow only certain templates as the body.

In order to do so, first define an empty interface for the template, right in your sources, that extends ITemplate :

public interface BodyTemplate extends ITemplate { 
}

Then, you can change the signature of the Wrapper.ttt template so that it accepts only BodyTemplate instances :

<%!
	...
	
	/**
	 * the body of the page, rendered in body tag 
	 * (must be a BodyTemplate !)
	 */
	com.myco.myapp.BodyTemplate nested;
%>

Then, you may choose to implement this interface in any template by using the extends page directive (MyBodyTemplate.ttt) :

<%@ page extends="com.myco.myapp.BodyTemplate" %>
<%!
	// template args here
	...
%>
Template text...

The generated template class (com.myco.myapp.MyBodyTemplate) will implement your BodyTemplate interface.

Compiling templates

.ttt files are compiled to Java source code. You use your own IDE/build system in order to compile those sources to Java bytecode.

Just like for any generated source code, you should put the generated sources into a specific folder, and will probably not even commit them into your VCS.

Templates can be compiled in several ways :

  • command-line
  • maven
  • IntelliJ IDEA plugin

Those are detailed below.

The generated Java class is an immutable class with :

  • a unique constructor which has the signature defined in the template
  • a void render(Writer out) method that spits out the template to a writer
  • possibly implementing an interface of your own (if you use the extends directive)

Rendering templates

Compiled templates are regular Java classes with a constructor and a rendermethod. :

// create a template instance by passing all required 
// args to the constructor
MyTemplate t = new MyTemplate(arg1, arg2, ..., argN);

Writer out = ... ;

// spit out the text into a writer 
t.render(out);

Very easy, and again, fully static typed.

Build

The TTT Compiler is written in Java. You can use it directly via API, or use build tools described below.

CLI

TTT Compiler provides a main class that can be used for CLI integration :

java -jar ttt-core-<version>-jar-with-dependencies.jar -src <srd_dir> -target <code_gen_dir> -clean

Maven plugin

The ttt-compiler-plugin can be used to compile templates as part of your maven build.

Put your templates under src/main/ttt, and add this plugin def to your pom.xml :

<plugin>
	<groupId>com.pojosontheweb</groupId>
	<artifactId>ttt-maven-plugin</artifactId>
	<version>VERSION GOES HERE</version>
	<executions>
		<execution>
			<id>ttt-compile</id>
			<phase>process-resources</phase>
			<goals>
				<goal>ttt</goal>
			</goals>
		</execution>
	</executions>
</plugin>

IntelliJ IDEA Plugin

The ttt-idea plugin compiles your .ttt files, with a pretty useful "compile-on-save" feature.

IDEA also has great support for JSP, so you probably want to associate the .ttt file type with the JSP editor. This way you'll have full code assist, refactor etc, in a transparent way.

com.pojosontheweb

POJOs on the Web

Versions

Version
0.1-beta6
0.1-beta5
0.1-beta4
0.1-beta3
0.1-beta2
0.1-beta
0.1-alpha4
0.1-alpha