Ant1.9 Action List

Precursor to Ant2

Peter Donald [peter@apache.org]

This document aims to contain a list of actions that people can take to produce Ant1.9. Ant1.9 is a refactoring of the Ant1.x line and a jump point for Ant2. Some changes will be backported to Ant1.x over time when they have proven themselves while other changes may only become available via Ant2.0. Ant1.9 is our melting pot where we can experiment and refactor without a thought to backwards compatability but only to the "right" way of doing things.

Introduction

This document will list a bunch of actions that will guide us in the evolution of Ant1.x and provide a solid basis on which to launch Ant2.0. Feel free to add to this list of actions as our vision of Ant2 solidifies. Associated with each action is a list of victims who have "volunteered" to have a go at the action and a status. The status just tells us where they are at while the victim column will tell us exactly who is doing what. It is fine for a group of people to work on a single area.




Action Victims Status
Create a Virtual Filesystem layer None Not Started
Formalize a naming scheme for task attributes/elements None Not Started
Design and implement s Selector API for Filesets and other Itemsets None Not Started
Develope the infrastructure for coloring (or "environmental" dependency analysis) None Not Started
Develope the infrastructure for structural dependency analysis None Not Started
Refactor the Exec infrastructure into JavaBeans Peter Donald 80%
Refactor the Java infrastructure into JavaBeans None Not Started
Design and implement a generic solution for creating Task facades None Not Started
Sketch out a basic way of separating all the tasks into type libraries None Not Started
Design and implement an API that allows mapping of file attributes during copy/move/etc tasks None Not Started
Design and implement an API so that Filters could be implemented as FilteredOutputStreams None Not Started
Design and implement a XML "catalog" so the snippets of XML can be injected based on URI rather than relative location None Not Started
Look at the feasability of i18n'ing tasks and the runtime None Not Started
Write a document describing the way that tasks should be written in context of Ant2 Peter Donald
(peter at apache.org)
Not Started
Design an API to embed Ant into other applications None Not Started
Design a TypeInfo system similar to BeanInfo to describe Tasks None Not Started
Design Antdoc to generate manual from .java files None Not Started

Virtual File System

There has long been a recognition that it would be nice if ant supported some notion of a virtual filesystem layer. This layer would allow you to treat resources located and retrieved from different mechanisms in a uniform way. For instance it would allow the copy task to copy from a http server, a cvs server, a ftp server or the local filesystem using a uniform mechanism. So instead of having separate tasks to operate on each different resource type we would use just one task that plugged into multiple filesystems.

When we are talking about a virtual filesystem or VFS, one of the concerns we must address is how to "name" the resource. In most cases a URL or URI style access will be sufficient but in other cases we may need to consider other options. So "cvs://localhost:/home/cvs/jakarta-avalon/README.txt?version=1.1", "ftp://some.server.com/dir/file.zip" and "file://C/WINDOWS/Desktop/MyFile.txt" are all examples of referring to different resources.

Another concern that must be addressed is capabilities of both the resources and the filesystem. For instance it is possible to both read and write to resources using the "file" protocol but only possible to write resources using "mailto". The act of copying a file to a "mailto" url would actuall post the files as resources while copying to a "file" would duplicate the resource somewhere on the local filesystem.

So we need to determine a list of capabilities. Some examples would be "read", "write", "list" (can you list dirs), "type" (can you get mime type), "access permissions" (can you tell if resource has permissions), "modify permissions" (can you modify permissions) etc. Some of these capabilities can be associated with the particular reosurces, while others may need to be associated with a whole filesystem/protocol (ie there is no standard mechanism to perform "list" on general "http" URLs). Thus a list of all these capabilities and mapping to various protocols will need to be established.

Next we need to determine if we are going to support the notion of "mounting" URLs. For instance if we need to copy files from a FTP server do we allways need to specify the full URL - no matter how convoluted it is (ie "ftp://fred:secret@some.server.com:28763/home/fred/project2/dir/file.zip") or can we mount this on a VFS and access it via that shorter url. ie We could mount "ftp://fred:secret@some.server.com:28763/home/fred/" onto "vfs:/home" and then just access the resources via "vfs:/home/project2/dir/file.zip". This would make dealing with large urls easier and more uniform.

So after we have decided what our options are we need to actually go about implementing the solution. It may be the case that existing VFS solutions could be reused with minor changes and thus we could save ourselves a lot of work. Candidates would be the Netbeans VFS, Suns XFile API or other available directory APIs (like JNDI). If none of them suit then we will need to write our own layer.

Naming

Currently Ant has a mixture of tasks from various stages it's evolution, with different authors and each utilizing different naming patterns. Some tasks use names such as "src" and "dest" while others use "file" and "tofile". It would be preferrable if consistent naming patterns were used. It is recomended that we come up with a "best practices" document to document our recomended naming patterns.

Before we can come up with such a document we need to identify common patterns through out the tasks. Several tasks have the notion of transforming input from a "source" to a "destination". So we should have consistent naming schemes for these attributes and elements. Analysis of existing tasks will likely bring out other similar patterns. Once we have identified and documented these similarities then we can establish conventions.

Selector API

Currently our filesets allow us to select a set of files based on name patterns. For instance we could create a set of all the files that end with ".java". However there are cases when you wish to select files based on their other attributes, such as if they are read only or if they are older than a specified date etc.

The selector API is one such mechanism to do this. The selector API will allow you to build file sets based on criteria other than name. Some possible criteria would be

If we end up supporting a VFS then we could expand the number of selectors considerably. A mock representation that has been proposed before is the following. Of course this is subject to change as soon as someone wants to tackle this action ;)

 

 <include>

   <selector type="name" value="**/*.java"/>

   <selector type="permission" value="r"/>



   <!-- could optionally be directory/or some other system specific features -->

   <selector type="type" value="file"/> 

   <selector type="modify-time" 

             operation="greater-than" 

             value="29th Feb 2003"/>

 </include>

Coloring API

When you execute a task such as "javac" there is two types of dependency information that is important to analyze before we determine if we need to recompile a file. Say we are compiling Foo.java, it may depend on the Bar.java file. We call this "structural" dependency information - the structure of the source file determines what other files it depend upon. However there is also "environmental" dependency information. For instance if the Foo.java file was compiled with debug="true" last run and this time needs to be compiled with debug="false" then it is out of date and needs to be recompiled. We call this "environmental" dependency information "coloring".

So we need to create an infrastructure that allows tasks to manage "coloring". So a task should be able to add coloring information for each resource processed. When the task comes to process the resource again it will detect if the coloring has changed and if it has will force a recompile.

An API for such a bean has yet to be established but an example API would be.


ColoringManager cm = ...;

cm.addColor( "debug", "true" );

cm.addColor( "optimize", "false" );

cm.setFileSet( myFileSet );

File[] files = cm.getOutOfDate();

    

Structural Dependency Utils

In the present ant, it is required that each task manage dependency separately. This makes it a lot of work to implement even simple dependency checking. To this day many of the core tasks do not implement it correctly. I am specifically talking about "structural" dependency information. The main reason is that it is painful to implement.

Some tasks do no dependency checking and will recompile/transform/etc everytime. Others may perform a simple dependency checking (ie if source file is newer than destination file then recompile). Ideally a dependency system would actually calculate the dependencies correctly. So we need to have some mechanism to determine that foo.c actually depends upon foo.h, bar.h and baz.h. As this information is particular to each different task we need to allow tasks to implement this behaviour. Possibly by supplying an interface of the form;


public interface DependencyGenerator

{

  File[] generateDependencies( File file );

}

    

Generating the dependency information is a costly operation and thus we do not want to be doing it everytime you run ant. We want to generate it on the initial build and then persist somewhere. Everytime a file is out of date, it's dependency information would be regenerated and stored in the dependency cache. Ideally this cache would also store the above mentioned coloring information. So the entry for foo.c may declare that it is dependent upon foo.h, bar.h and baz.h, aswell as being compiled with -O2 flag. If any of the dependencies have changed or are out of date then foo.c would need to be recompiled.

A possible API would be


DependencyManager dm = ...;

dm.setFileSet( myFileSet );

dm.setDependencyCache( myDependencyCacheFile );

File[] files = cm.getOutOfDate();

    

Refactor <exec> infrastructure into Beans

Exec and its related classes have currently evolved through several iterations and thus it is not as cleanly designed and as reusable as it could be. Someone needs to pull apart exec and analyze which parts can be turned into JavaBeans and decouple them from the Ant infrastructure. Once that is done it will make these beans much easier to reuse from other tasks without relying on gaining access to the other task instance.

Refactor <java> infrastructure into Beans

Much like Exec should be decoupled from Ant runtime, so should classes to implement java task for the same benefits.

Generic Task Facades

Currently we have a few tasks that have multiple implementations. For instance Javac task can actually call jikes, jvc, classic javac or modern javac. Similar things will be seen with the jspc task and the cc task (if it ever gets written). We need to examine this pattern and see if there is a way to generalize this and make it easier to write such tasks.

Task Packaging

We have already decided that we are going to package Ant tasks in separate jars and have some sort of descriptor that to describe the contents of the jar. However we have not yet decided how we will break up the tasks. Do we break up the tasks up into related tasks or into groups that ar elikely to be used together or what? A possible breakdown would be

Mapping File Attributes during transformation

When we are copying files from one location to another it is currently possible to rename them using a mapper. So we could rename Foo.java to Foo.java.bak. On occasion it is useful to modify file attributes other than its name in such operations. So we could copy the files to another location and make them read-only in one operation.

Filters extensions

This is partially related to the above action. Filters could be seen as a way to modify the content attribute of a file during a copy/move. It would be preferrable if filtering could be abstracted to use FilteredOutputStreams to perform the content modification. That way new Filter types could be constructed and used during file copy (ie an example would be a Perl FilterOutputStream that allowed you to use perl expressions to transform input).

XML Catalog to load XML Fragments

When including fragments of XML we are currently forced to use relative paths. However this is sometimes undesirable when a single fragment needs to be used across several projects in several different locations. Instead we could use a Catalog to name the fragment and then each developer would only need to install the fragment once and it would be accessible from all the projects.

i18n the Runtime and tasks

Look at the feasability of performing i18n on Ant runtime and core tasks. Look at how much work it will be and how useful it would be. Look at utilizing i18n from existing projects such as Avalon.

Embeddor API for Ant

Identify different environments in which it would be useful to embed Ant or an Ant-like tool. Identify what these environments are likely to demand in terms of API and support and then design a system that works in these environments without compromising ants core goal (ie a build system). Some suggestions for such an API include;

TypeInfo system

Add in the ability to represent tasks using specified meta-info, This would allow generation and manipulation of information such as what attributes are available, what elements are supported etc.

Antdoc

This is partially based on the above TypeInfo system. It involves the ability to take the TypeInfo made available and generate documentation for the tasks. This would allow multiple formats of documentaiton to be easily maintained and reduce the chance that documentation gets out of whack.