Welcome and thanks for coming. You're here because, for some reason, you're interested in Finch, a little programming language of mine. Finch is still very early in development so the only people likely to be interested in it are language nerds. Thus, the docs here will tend to assume you're one of those.

What is Finch?

Finch is a simple bytecode interpreted, purely object-oriented, prototype-based, dynamically-typed programming language. It's mostly inspired by Smalltalk, Self, and Javascript.

It is written in C++ with a hand-written lexer and parser. It has minimal dependencies. I want Finch to be:

Syntactically expressive yet minimal. Your code should look beautiful and do what you want.

An example of a small, clean C++ codebase for an interpreter. If you can read C++ and want to learn more about programming languages, I hope Finch's code will be a good primer.

A language in the Smalltalk family that's friendly to people coming from a text file and curly brace background.

A minimal prototype-based dynamic language. I think prototypes are a really cool paradigm, but Self goes too far, and Javascript doesn't go far enough.

Easily embeddable in other applications. I don't know if Finch ever will have real use, but if it does, it will likely be as a configuration or scripting language within a larger application, much like Lua.

A Taste of the Language

Here's a little example to get you going. This little program doesn't draw, but it will tell you what turns to make to draw a dragon curve:

// create an object and put it in a variable "dragon" dragon <- [ // define a "trace:" method for outputting the series of left and // right turns needed to draw a dragon curve. trace: depth { self trace-depth: depth turn: "R" write-line: "" // end the line } // the main recursive method trace-depth: n turn: turn { if: n > 0 then: { self trace-depth: n - 1 turn: "R" write: turn self trace-depth: n - 1 turn: "L" } } ] // now let's try it dragon trace: 5

Getting Started

Finch lives on github here: https://github.com/munificent/finch

To play around with it, sync it down. Finch uses GYP to generate projects or makefiles for your platform, which you then build to get an executable.

Download GYP from: http://code.google.com/p/gyp/ Clone the finch repo from github. In a terminal/command prompt, navigate to the root finch/ directory. Run GYP on this file: <path to gyp>/gyp --depth=1 Where <path to gyp> is wherever you downloaded GYP to in step 1. This should spit out a project/makefile in the root directory for your platform. Open that project in XCode or VS and build, or build the makefile. Ta-da! You should now have a Finch executable under a build/ directory.

Let me know if you run into any problems.

Running Finch

Once you've got it built and running, you'll be at the main interpreter prompt. Finch is a command-line app. If you run it without any arguments, it drops you into a REPL, an interactive session. You can type in chunks of code and it will interpret them immediately. (If you run it with a single argument, it expects that to be a path to a .fin script, and it will load and run that script.)

Once you're in the REPL, you can load and execute a script using load: . The path must be relative to where the executable is. If you've built from XCode, you can run the tests like this:

>> load: "../../test/test.fin"

If you built from a makefile, it's:

>> load: "test/test.fin"

Where to Go from Here

You should be good to start hacking some Finch code now. The other docs here can help get you started. The sample scripts and the tests will give you some ideas, along with the Finch-related posts on my blog.

If you have any questions or comments, holler at me.