# Lamb: A Lambda Calculus Engine ![Lamb screenshot](./misc/screenshot.png) ## Installation ### Method 1: PyPi (not yet) 1. Put this on PyPi 2. Write these instructions ### Method 2: Git 1. Clone this repository. 2. Make and enter a [virtual environment](https://docs.python.org/3/library/venv.html). 3. ``cd`` into this directory 4. Run ``pip install .`` 5. Run ``python .`` ------------------------------------------------- ## Usage Type lambda expressions into the prompt, and Lamb will evaluate them. \ Use your `\` (backslash) key to type a `λ`. \ To define macros, use `=`. For example, ``` ~~> T = λab.a ~~> F = λab.a ~~> NOT = λa.a F T ``` Note that there are spaces in `λa.a F T`. With no spaces, `aFT` will be parsed as one variable. \ Lambda functions can only take single-letter, lowercase arguments. `λA.A` is not valid syntax. \ Unbound variables (upper and lower case) that aren't macros will become free variables. Free variables will be shown with a `'`, like `a'`. Be careful, macros are case-sensitive. If you define a macro `MAC` and accidentally write `mac` in the prompt, `mac` will become a free variable. Numbers will automatically be converted to Church numerals. For example, the following line will reduce to `T`. ``` ~~> 3 NOT F ``` If an expression takes too long to evaluate, you may interrupt reduction with `Ctrl-C`. ------------------------------------------------- ## Commands Lamb comes with a few commands. Prefix them with a `:` `:help` Prints a help message `:clear` Clear the screen `:rlimit [int | None]` Set maximum reduction limit. `:rlimit none` sets no limit. `:macros` List macros in the current environment. `:mdel [macro]` Delete a macro `:save [filename]`\ `:load [filename]` Save or load the current environment to a file. The lines in a file look exactly the same as regular entries in the prompt, but must only contain macro definitions. ------------------------------------------------- ## Internals Lamb treats each λ expression as a binary tree. Variable binding and reduction are all simple operations on that tree. All this magic happens in [`nodes.py`](./lamb/nodes.py). **Highlights:** - `TreeWalker` is the iterator we (usually) use to traverse our tree. It walks the "perimeter" of the tree, visiting some nodes multiple times. - `Node` is the base class for all nodes. Any node has `.left` and `.right` elements, which may be `None` (empty). `Node`s also reference their parent and their direction relative to their parent, to make tree traversal easy. - Before any reduction is done, variables are bound via `bind_variables`. This prevents accidental conflicts common in many lambda parsers. ------------------------------------------------- ## Todo (pre-release, in this order): - Fix :save - Cleanup warnings - Truncate long expressions in warnings - Prevent macro-chaining recursion - Full-reduce option (expand all macros) - step-by-step reduction - Cleanup files - Update screenshot - Update documentation & "internals" section. - PyPi package ## Todo: - History queue + command indexing - Show history command - Better class mutation: when is a node no longer valid? - Loop detection - $\alpha$-equivalence check - Command-line options (load a file, run a set of commands) - Unchurch macro: make church numerals human-readable - Syntax highlighting: parenthesis, bound variables, macros, etc - Tests