/hasktran

A compiler for FRACTRAN written in Haskell.

Primary LanguageHaskellMIT LicenseMIT

hasktran - A compiler for FRACTRAN written in Haskell.

See my writeup of this compiler.

This was inspired by Malisper's Common Lisp assembler for FRACTRAN, but of course, in a purely functional manner.

FRACTRAN programs have the type [repr [Rational]], where repr is an instance of the FracComp typeclass, from which the special forms (subi, while, goto etc.) can be derived, making the language Turing complete.

Here is an example FRACTRAN program written in Haskell, rather, a function that takes an Integer and produces a FRACTRAN program, not unlike Lisp macros.

Features

  • Embedding of DSL into Haskell using tagless final style
  • Support for high-level control flow constructs
  • Peephole optimization of compiled programs
sumTo :: FracComp repr => Integer -> [repr [Rational]]
sumTo n = [addi "c" 0, addi "n" n, while (jge "n" 0) [adds "c" "n", subi "n" 1]]

The following show the invocation of the assembler and naïve interpreter and peephole optimizer.

λ> runAssembler (sumTo 10)                      -- Program length: 31
Right [847425747 % 2,13 % 3,19 % 13,11 % 3,11 % 29,31 % 11,41 % 31,23
% 11,23 % 47,2279 % 23,59 % 301,59 % 41,67 % 413,329 % 67,61 % 59,73 %
61,83 % 73,71 % 61,71 % 97,445 % 71,707 % 89,103 % 5353,103 % 83,109 %
5459,5141 % 109,107 % 103,113 % 749,113 % 19,131 % 113,29 % 131,127 %
113]
λ> peepholeOptimize <$> runAssembler (sumTo 10) -- Program length: 25
Right [847425747 % 2,19 % 3,11 % 3,11 % 29,41 % 11,23 % 11,2279 %
47,59 % 301,59 % 41,67 % 413,329 % 67,61 % 59,83 % 61,71 % 61,445 %
97,707 % 89,103 % 5353,103 % 83,109 % 5459,5141 % 109,107 % 103,113 %
749,113 % 19,29 % 113,127 % 113]
λ> runAsm (sumTo 10)
[(Prime 97,55),(Prime 107,1)]

Thus showing the sum of the numbers from 1 to 10 inclusive is 55.

A pretty printer for FRACTRAN programs was also added, and thanks to the tagless final style, we are able to print high level constructs like while loops by writing the corresponding printer.

λ> :t pretty
pretty :: Traversable t => t (S a) -> Doc
λ> pretty (sumTo 10)
c += 0
n += 10
while n >= 0 {
  c += n
  n -= 1
}

Future plans

  • Pretty printer
  • Peephole optimization
  • Partial evaluator