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tools for working with chiklisp language; compiler, repl, python and wasm bindings

Project description

klvm_tools_rs

Theory of operation of the modern compiler: ./HOW_CHIKLISP_IS_COMPILED.md

This repo can be installed via cargo

cargo install klvm_tools_rs

or via pip

pip install klvm_tools_rs@git+https://github.com/Chik-Network/klvm_tools_rs.git@e17412032aa7d3b8b1d1f931893fb5802eee626a

Note: pip installs a subset of the tools installed by cargo, including brun, run, opc and opd.

The most current version of the language is in the nightly branch:

[nightly](https://github.com/Chik-Network/klvm_tools_rs/tree/nightly)

To install from a specific branch:

cargo install --no-default-features --git 'https://github.com/Chik-Network/klvm_tools_rs' --branch nightly

To install a git checkout into your current python environment (must be in some kind of venv or conda environment):

git clone https://github.com/Chik-Network/klvm_tools_rs
cd klvm_tools_rs
maturin develop

Install from PYPI:

pip install -i https://pypi.chiknetwork.com/nightlies/ klvm_tools_rs

Most people still compile chiklisp via python. One way to set up compilation in that way is like this:

import json
from klvm_tools_rs import compile_klvm

def compile_module_with_symbols(include_paths,source):
    path_obj = Path(source)
    file_path = path_obj.parent
    file_stem = path_obj.stem
    target_file = file_path / (file_stem + ".klvm.hex")
    sym_file = file_path / (file_stem + ".sym")
    compile_result = compile_klvm(source, str(target_file.absolute()), include_paths, True)
    symbols = compile_result['symbols']
    if len(symbols) != 0:
        with open(str(sym_file.absolute()),'w') as symfile:
            symfile.write(json.dumps(symbols))

The command line tools provided:

- run -- Compiles KLVM code from chiklisp

Most commonly, you'll compile chiklisp like this:

  ./target/debug/run -O -i include_dir chiklisp.clsp

'run' outputs the code resulting from compiling the program, or an error.

- repl -- Accepts chiklisp forms and expressions and produces results
          interactively.
          
Run like:

  ./target/debug/repl
  
Example session:

>>> (defmacro assert items
   (if (r items)
       (list if (f items) (c assert (r items)) (q . (x)))
     (f items)
     )
   )
(q)
>>> (assert 1 1 "hello")
(q . hello)
>>> (assert 1 0 "bye")
failed: CompileErr(Srcloc { file: "*macros*", line: 2, col: 26, until: Some(Until { line: 2, col: 82 }) }, "klvm raise in (8) (())")
>>> 

- cldb -- Stepwise run chiklisp programs with program readable yaml output.

  ./target/debug/cldb '(mod (X) (x X))' '(4)'
  ---
  - Arguments: (() (4))
    Operator: "4"
    Operator-Location: "*command*(1):11"
    Result-Location: "*command*(1):11"
    Row: "0"
    Value: (() 4)
  - Env: "4"
    Env-Args: ()
    Operator: "2"
    Operator-Location: "*command*(1):11"
    Result-Location: "*command*(1):13"
    Row: "1"
    Value: "4"
  - Arguments: (4)
    Failure: klvm raise in (8 5) (() 4)
    Failure-Location: "*command*(1):11"
    Operator: "8"
    Operator-Location: "*command*(1):13"

- brun -- Runs a "binary" program.  Instead of serving as a chiklisp
  compiler, instead runs klvm programs.

As 'brun' from the python code:

$ ./target/debug/run '(mod (X) (defun fact (N X) (if (> 2 X) N (fact (* X N) (- X 1)))) (fact 1 X))'
(a (q 2 2 (c 2 (c (q . 1) (c 5 ())))) (c (q 2 (i (> (q . 2) 11) (q . 5) (q 2 2 (c 2 (c (* 11 5) (c (- 11 (q . 1)) ()))))) 1) 1))
$ ./target/debug/brun '(a (q 2 2 (c 2 (c (q . 1) (c 5 ())))) (c (q 2 (i (> (q . 2) 11) (q . 5) (q 2 2 (c 2 (c (* 11 5) (c (- 11 (q . 1)) ()))))) 1) 1))' '(5)'
120

- opc -- crush klvm s-expression form to hex.

As 'opc' from the python code.

opc '(a (q 2 2 (c 2 (c (q . 1) (c 5 ())))) (c (q 2 (i (> (q . 2) 11) (q . 5) (q 2 2 (c 2 (c (* 11 5) (c (- 11 (q . 1)) ()))))) 1) 1))'
ff02ffff01ff02ff02ffff04ff02ffff04ffff0101ffff04ff05ff8080808080ffff04ffff01ff02ffff03ffff15ffff0102ff0b80ffff0105ffff01ff02ff02ffff04ff02ffff04ffff12ff0bff0580ffff04ffff11ff0bffff010180ff808080808080ff0180ff018080

- opd -- disassemble hex to s-expression form.

As 'opd' from the python code.

opd 'ff02ffff01ff02ff02ffff04ff02ffff04ffff0101ffff04ff05ff8080808080ffff04ffff01ff02ffff03ffff15ffff0102ff0b80ffff0105ffff01ff02ff02ffff04ff02ffff04ffff12ff0bff0580ffff04ffff11ff0bffff010180ff808080808080ff0180ff018080'
(a (q 2 2 (c 2 (c (q . 1) (c 5 ())))) (c (q 2 (i (> (q . 2) 11) (q . 5) (q 2 2 (c 2 (c (* 11 5) (c (- 11 (q . 1)) ()))))) 1) 1))

History

This is a second-hand port of chik's klvm tools to rust via the work of ChikMineJP porting to typescript. This would have been a lot harder to get to where it is without prior work mapping out the types of various semi-dynamic things (thanks, ChikMineJP).

Some reasons for doing this are:

  • Chik switched the klvm implementation to rust: klvm_rs, and this code may both pick up speed and track klvm better being in the same language.

  • I wrote a new compiler with a simpler, less intricate structure that should be easier to improve and verify in the future in ocaml: ochiklisp.

  • Also it's faster even in this unoptimized form.

All acceptance tests i've brought over so far work, and more are being added. As of now, I'm not aware of anything that shouldn't be authentic when running these command line tools from klvm_tools in their equivalents in this repository

  • opc

  • opd

  • run

  • brun

  • repl

argparse was ported to javascript and I believe I have faithfully reproduced it as it is used in cmds, so command line parsing should work similarly in all three versions.

The directory structure is expected to be:

src/classic  <-- any ported code with heritage pointing back to
                 the original chik repo.
                
src/compiler <-- a newer compiler (ochiklisp) with a simpler
                 structure.  Select new style compilation by
                 including a `(include *standard-cl-21*)`
                 form in your toplevel `mod` form.

Mac M1

Use cargo build --no-default-features due to differences in how mac m1 and other platforms handle python extensions.

Use with chik-blockchain

# Activate your venv, then
$ maturin develop --release

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