cryptol-2.11.0: Cryptol: The Language of Cryptography
Copyright(c) 2013-2016 Galois Inc.
LicenseBSD3
Maintainercryptol@galois.com
Stabilityprovisional
Portabilityportable
Safe HaskellSafe-Inferred
LanguageHaskell2010

Cryptol.Transform.MonoValues

Description

This module implements a transformation, which tries to avoid exponential slow down in some cases. What's the problem? Consider the following (common) patterns:

   fibs = [0,1] # [ x + y | x <- fibs, y <- drop`{1} fibs ]

The type of fibs is:

   {a} (a >= 1, fin a) => [inf][a]

Here a is the number of bits to be used in the values computed by fibs. When we evaluate fibs, a becomes a parameter to fibs, which works except that now fibs is a function, and we don't get any of the memoization we might expect! What looked like an efficient implementation has all of a sudden become exponential!

Note that this is only a problem for polymorphic values: if fibs was already a function, it would not be that surprising that it does not get cached.

So, to avoid this, we try to spot recursive polymorphic values, where the recursive occurrences have the exact same type parameters as the definition. For example, this is the case in fibs: each recursive call to fibs is instantiated with exactly the same type parameter (i.e., a). The rewrite we do is as follows:

   fibs : {a} (a >= 1, fin a) => [inf][a]
   fibs = \{a} (a >= 1, fin a) -> fibs'
     where fibs' : [inf][a]
           fibs' = [0,1] # [ x + y | x <- fibs', y <- drop`{1} fibs' ]

After the rewrite, the recursion is monomorphic (i.e., we are always using the same type). As a result, fibs' is an ordinary recursive value, where we get the benefit of caching.

The rewrite is a bit more complex, when there are multiple mutually recursive functions. Here is an example:

   zig : {a} (a >= 2, fin a) => [inf][a]
   zig = [1] # zag

   zag : {a} (a >= 2, fin a) => [inf][a]
   zag = [2] # zig

This gets rewritten to:

   newName : {a} (a >= 2, fin a) => ([inf][a], [inf][a])
   newName = \{a} (a >= 2, fin a) -> (zig', zag')
     where
     zig' : [inf][a]
     zig' = [1] # zag'

     zag' : [inf][a]
     zag' = [2] # zig'

   zig : {a} (a >= 2, fin a) => [inf][a]
   zig = \{a} (a >= 2, fin a) -> (newName a <> <> ).1

   zag : {a} (a >= 2, fin a) => [inf][a]
   zag = \{a} (a >= 2, fin a) -> (newName a <> <> ).2

NOTE: We are assuming that no capture would occur with binders. For values, this is because we replaces things with freshly chosen variables. For types, this should be because there should be no shadowing in the types. XXX: Make sure that this really is the case for types!!

Synopsis

Documentation

rewModule :: Supply -> Module -> (Module, Supply) Source #

Note that this assumes that this pass will be run only once for each module, otherwise we will get name collisions.