Skip to content

okellogg/libadalang

 
 

Repository files navigation

Libadalang

Libadalang is a library for parsing and semantic analysis of Ada code. It is meant as a building block for integration into other tools. (IDE, static analyzers, etc.)

Libadalang provides mainly the following services to users:

  • Complete syntactic analysis with error recovery, producing a precise syntax tree when the source is correct, and a best effort tree when the source is incorrect.

  • Semantic queries on top of the syntactic tree, such as, but not limited to:

    • Resolution of references (what a reference corresponds to)
    • Resolution of types (what is the type of an expression)
    • General cross references queries (find all references to this entity)

Libadalang does not (at the moment) provide full legality checks for the Ada language. If you want such a functionality, you’ll need to use a full Ada compiler, such as GNAT.

While it can be used in Ada (2012+) and Python (3.9 or Python 3.10) Libadalang also provides a low-level C API (meant to write bindings to other languages) and an experimental OCaml API.

If you have problems building or using Libadalang, or want to suggest enhancements, please open a GitHub issue. We also gladly accept pull requests!

Status of the project

Libadalang is still in development and we allow ourselves some headroom in terms of breaking backwards compatibility. If you want to use a stable version of Libadalang, you'll need to build from one of the stable branches, such as 19.1.

Libadalang currently:

  • Is able to parse 100% of Ada 2012 syntax, and presents a well formed tree for it. Support for Ada 2022 constructs is a work in progress.

  • Is able to recover most common syntax errors. The error messages are behind those of GNAT, but the recovery will potentially work better in many situations.

  • Provides name resolution/navigation.

  • Is able to handle some very simple incremental processing. Reparsing a source A and querying xref on a source B that depends on A is handled efficiently.

How to use Libadalang

There are several ways to get Libadalang:

  • Build it using the Libadalang Alire crate. This will only let you build the current and the previous releases (i.e. not the development version), but is by far the easiest way, as Alire automatically deals with dependencies.

  • Build it from Git repository sources: install all dependencies, generate its code and to build it. Please refer to the User Manual for detailed instructions.

  • Important: if you are an AdaCore customer with a GNAT Pro subscription, please get Libadalang through GNATtracker, as this is the only version of Libadalang that is covered by your support contract.

To learn how to use the API from Libadalang's the development branch, you can read the AdaCore Live Docs (updated daily).

Quick overview

Libadalang has a Python API, for easy prototyping and explorative programming. It ships with an executable named playground, that allows you to analyze Ada files and play with them in an interactive Python console.

Given the following main.adb Ada file:

with Ada.Text_IO; use Ada.Text_IO;

procedure Main is
begin
    Put_Line ("Hello World");
end Main;

You can start the playground on it:

% playground main.adb

--
-- libadalang playground
--

The file(s) passed as argument have been put into the `u` variable, or units if
there are multiple.

Enjoy!

In [1]: print(u.root.text)
with Ada.Text_IO; use Ada.Text_IO;

procedure Main is
begin
    Put_Line ("Hello World");
end Main;

In [2]: print(u.root.findall(mdl.CallExpr))
[<CallExpr 5:5-5:29>]

In [3]: print(u.root.findall(mdl.CallExpr)[0].text)
Put_Line ("Hello World")

The playground embeds the IPython interactive Python console, so you have a modern interactive programming environment. You can use tab completion to explore the Libadalang API.

Libadalang and ASIS

ASIS is widely used for static analysis of Ada code, and is an ISO standard. It is still the go-to tool if you want to create a tool that analyses Ada code. Also, as explained above, Libadalang is not mature yet, and cannot replace ASIS in tools that require semantic analysis.

However, there are a few reasons you might eventually choose to use Libadalang instead of ASIS:

  1. The ASIS standard has not yet been updated to the 2012 version of Ada. More generally, the advantages derived from ASIS being a standard also means that it will evolve very slowly.

  2. Syntax only tools will derive a lot of advantages on being based on Libadalang:

    • Libadalang will be completely tolerant to semantic errors. For example, a pretty-printer based on Libadalang will work whether your code is semantically correct or not, as long as it is syntactically correct.

    • Provided you only need syntax, Libadalang will be much faster than ASIS' main implementation (AdaCore's ASIS), because ASIS always does complete analysis of the input Ada code.

  3. The design of Libadalang's semantic analysis is lazy. It will only process semantic information on-demand, for specific portions of the code. It means that you can get up-to-date information for a correct portion of the code even if the file contains semantic errors.

  4. Libadalang has bindings to C and Python, and its design makes it easy to bind to new languages.

  5. Libadalang is suitable to write tools that work on code that is evolving dynamically. It can process code and changes to code incrementally. Thus, it is suitable as an engine for an IDE, unlike AdaCore's ASIS implementation.

  6. Libadalang is not tied to a particular compiler version. This combined with its staged and error tolerant design means that you can use it to detect bugs in Ada compilers/tools.

Implementation

The Libadalang project is based on the Langkit framework, so its Ada/Python/C/OCaml source code is not checked in this repository: it is instead generated from the Langkit language specification that you can find in ada/. This language specification, while embedded in Python syntax, is mostly its own language, the Langkit DSL, that is used to specify the part of Ada syntax and semantics that are of interest to us.

See the Developer Manual for more information about Libadalang's development.

About

Ada semantic analysis library.

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Ada 87.4%
  • Python 11.4%
  • C 0.5%
  • Java 0.2%
  • Makefile 0.1%
  • Batchfile 0.1%
  • Other 0.3%