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README.md

Chalk

Chalk is a small embeddable scripting language. It contains a compiler which produces byte-code, and a minimal stack-based VM interpreter. Notable features include:

  • C-like syntax
  • Built-in support for dictionaries, lists, and printf-like string formatting.
  • No build or runtime dependencies outside of the Minoca OS tree.
  • Simple bindings to C.
  • Single-threaded, but supports multiple "fibers" for cooperative scheduling.
  • Basic I/O, socket, and http libraries.
  • Reasonably fast
  • Easily embeddable in other applications, minimal C library requirements.

Chalk was made because I found myself wanting to program certain things in a higher level scripting language like Python, but was disappointed by the build dependency graph that gets pulled in. At the time Python (2) did not cross compile, which meant if I wanted to utilize Python natively from the Minoca build and test system it was a manual multistep process: cross-compile enough to run Minoca, then build enough within Minoca to get Python working, then finally bring the automation online. Sequencing this and managing the manual steps became enough of a headache that I decided I needed an in-tree scripting language.

Lua fit many of my requirements, but I found the syntax unappealing. With such a simple VM architecture, I also have designs on integrating the interpreter into the kernel for running safe functions from usermode within the kernel. No such plans have been implemented, but it was one of the reasons for implementing a minimal VM.

Syntax

Syntax is meant to be intuitive, and is best illustrated with an example:

// C++ style comments work
/* And so do
 * C-style
 */

// Import statements pull in other modules, either written in Chalk or C.
from app import argv;
from io import open;
from iobase import IoError;

// Basic classes with single inheritance are supported.
class MyFileReader {
    // private member variables
    var _lines;

    // Constructors, depending on number of parameters passed.
    function __init(path) {
        // Unininitialized local variables are Null.
        var file;

        // Exceptions look a lot like Python.
        try {
            file = open(path, "rb");

        } except IoError as e {
            // Basic functions are builtin to the Core module.
            Core.print("Couldn't open path %s" % path);
            Core.raise(e);
        }

        try {
            _lines = _file.readlines(-1);

        } finally {
            file.close();
        }

        // Each object also has a dictionary. Dictionary elements can be set
        // with the dot operator.
        this.lineCount = _lines.length();
        return this;
    }

    function getLine(lineNumber) {
        if (lineNumber >= this.lineCount) {
            // Python single quoted, double quoted, and triple quoted strings
            // are supported.
            return "";
        }

        // Lists are indexed by [].
        return _lines[lineNumber];
    }
}

function categorize(path) {
    var aCount;
    var firstChar;
    var reader = MyFileReader(path);
    var linesByLetter = {};

    // Iterators can take the traditional C-like syntax:
    // for(init; condition; iterator)
    // or the more high level style shown below.
    // Ranges can be exclusive on the end like below, or inclusive on the
    // end with 0...N.
    for (index in 0..reader.lineCount) {
        line = reader.getLine(index);
        if (line.length() == 0) {
            continue;
        }

        // Dictionaries can also be set with square brackets, and can test
        // for being empty with get().
        firstChar = line.charAt(0);
        if (linesByLetter.get(firstChar) == null) {
            linesByLetter[firstChar] = [];
        }

        linesByLetter[firstChar].append(line);
    }

    // Ok, the example's a little dumb.
    aCount = linesByLetter('a');
    if (aCount == null) {
        aCount = 0;
    }

    return aCount;
}

// Code can run at the module level, whenever the module is loaded.
// The app module gives us access to command line arguments.
if (argv.length() != 2) {
    Core.raise(ValueError("Please specify an argument!));
}

categorize(argv[1]);

Things using Chalk

  • Mingen - Our build tool in Minoca that generates Makefiles or Ninja files.
  • Msetup - Our OS installer uses a little bit of embedded Chalk to define board install recipes.
  • Santa - The Minoca package manager, build client and server, and CI infrastructure.

Development

Internal Compoments

This ck directory is divided into a few different components:

  • lib - This directory contains libchalk, a dynamic library containing the heart of the Chalk core.
    • Files that start with comp implement the bytecode compiler.
    • vm.c implements the core runtime VM.
    • vmsys.c and dlopen.c contain the bindings needed to use the VM with the standard C library.
    • The grammar is a generated C file called gram.c. It is created by the gramgen.c program.
    • core.c, dict.c, list.c, int.c, and value.c implement the core classes and objects built-in to chalk.
    • capi.c implements the language bindings to C code.
    • gc.c contains the garbage collector.
  • app - This directory contains the outer shell for the interactive Chalk interpreter. It's mostly a line-reader that feeds into libchalk.
  • modules - This directory contains the Chalk native modules, both those written in Chalk, and dynamic C modules. Chalk modules are loaded when imported for the first time.

Embedding Chalk

If you want to integrate chalk into your standard C application, just link against libchalk.so, and include minoca/lib/chalk.h. The main entry points for running Chalk code are CkCreateVm() and CkInterpret(). See app/chalk.c for how the interactive interpreter does this. With the CK_VM object, you can create multiple isolated Chalk instances.

If you want to do a deeper Chalk integration, and say don't have full C library support, you can implement the VM bindings in CK_CONFIGURATION, allowing you to cut nearly all of the C library dependencies.

Wishlist

Things that haven't been done yet but would be nice:

  • Concurrency - Chalk currently runs units of execution called Fibers in a cooperative fashion: fibers yield to each other, and only one Fiber runs at a time. It would be nice to get multithreading going, but there is no multithreading protection for the core objects, and adding a Big Interpreter Lock just seems dumb.
  • Signals - Chalk currently has no support for Unix signals that come in.
  • Refactoring module calls and __get(). There's an awkward syntax wart where if you want to do a __get() on something and then call the result, you have to use parentheses. For instance, if you've done an import os;, you'd have to do (os.open)(somePath), because open is an object inside the module os, not a method. This is because the syntax for a method call is identifier.identifier(...), and the syntax for a __get is identifier.identifier. It would be nice to clean this up where method calls are still just as fast, but are the same as object.__get("methodName")(). I guess we need "bound functions" for this, functions that are bound to a specific instance.
  • Metaprogramming - Being able to add methods to objects programmatically, and an eval function.