semantic/src/Interpreter.hs

module Interpreter (interpret, Comparable) where

import Prelude hiding (lookup)
import Algorithm
import Diff
import Operation
import Patch
import SES
import Syntax
import Term
import Control.Monad.Free
import Control.Comonad.Cofree hiding (unwrap)
import qualified OrderedMap as Map
import OrderedMap ((!))
import Data.Maybe

hylo :: Functor f => (t -> f b -> b) -> (a -> (t, f a)) -> a -> b
hylo down up a = down annotation $ hylo down up <$> syntax where
  (annotation, syntax) = up a

-- | Constructs an algorithm and runs it
constructAndRun :: (Eq a, Eq annotation) => Comparable a annotation -> Term a annotation -> Term a annotation -> Maybe (Diff a annotation)
constructAndRun _ a b | a == b = hylo introduce eliminate <$> zipTerms a b where
  eliminate :: Cofree f a -> (a, f (Cofree f a))
  eliminate (extract :< unwrap) = (extract, unwrap)
  introduce :: (annotation, annotation) -> Syntax a (Diff a annotation) -> Diff a annotation
  introduce ann syntax = Free $ Annotated ann syntax
constructAndRun comparable a b | not $ comparable a b = Nothing
constructAndRun comparable (annotation1 :< a) (annotation2 :< b) =
  run comparable $ algorithm a b where
    algorithm (Indexed a') (Indexed b') = Free $ ByIndex a' b' (annotate . Indexed)
    algorithm (Keyed a') (Keyed b') = Free $ ByKey a' b' (annotate . Keyed)
    algorithm (Leaf a') (Leaf b') | a' == b' = annotate $ Leaf b'
    algorithm a' b' = Free $ Recursive (annotation1 :< a') (annotation2 :< b') Pure
    annotate = Pure . Free . Annotated (annotation1, annotation2)

-- | Runs the diff algorithm
run :: (Eq a, Eq annotation) => Comparable a annotation -> Algorithm a annotation (Diff a annotation) -> Maybe (Diff a annotation)
run _ (Pure diff) = Just diff

run comparable (Free (Recursive (annotation1 :< a) (annotation2 :< b) f)) = run comparable . f $ recur a b where
  recur (Indexed a') (Indexed b') | length a' == length b' = annotate . Indexed $ zipWith (interpret comparable) a' b'
  recur (Fixed a') (Fixed b') | length a' == length b' = annotate . Fixed $ zipWith (interpret comparable) a' b'
  recur (Keyed a') (Keyed b') | Map.keys a' == Map.keys b' = annotate . Keyed . Map.fromList . fmap repack $ Map.keys b'
    where
      repack key = (key, interpretInBoth key a' b')
      interpretInBoth key x y = interpret comparable (x ! key) (y ! key)
  recur _ _ = Pure $ Replace (annotation1 :< a) (annotation2 :< b)

  annotate = Free . Annotated (annotation1, annotation2)

run comparable (Free (ByKey a b f)) = run comparable $ f byKey where
  byKey = Map.unions [ deleted, inserted, patched ]
  deleted = (Pure . Delete) <$> Map.difference a b
  inserted = (Pure . Insert) <$> Map.difference b a
  patched = Map.intersectionWith (interpret comparable) a b

run comparable (Free (ByIndex a b f)) = run comparable . f $ ses (constructAndRun comparable) diffCost a b

type Comparable a annotation = Term a annotation -> Term a annotation -> Bool

interpret :: (Eq a, Eq annotation) => Comparable a annotation -> Term a annotation -> Term a annotation -> Diff a annotation
interpret comparable a b = fromMaybe (Pure $ Replace a b) $ constructAndRun comparable a b
Export `Comparable`. 2015-11-18 22:09:18 +03:00			`module Interpreter (interpret, Comparable) where`
Stub in interpretation. 2015-11-18 04:05:16 +03:00
Hide Prelude’s definition of `lookup`. 2015-12-12 01:19:14 +03:00			`import Prelude hiding (lookup)`
Stub in interpretation. 2015-11-18 04:05:16 +03:00			`import Algorithm`
			`import Diff`
Sort imports. 2015-11-27 17:51:59 +03:00			`import Operation`
Move Patch into its file. 2015-11-18 05:23:53 +03:00			`import Patch`
Move SES into its own file. 2015-11-18 18:11:05 +03:00			`import SES`
Sort imports. 2015-11-27 17:51:59 +03:00			`import Syntax`
Move the definition of Term into the Term module. 2015-11-18 22:28:16 +03:00			`import Term`
Sort imports. 2015-11-27 17:51:59 +03:00			`import Control.Monad.Free`
We don’t use unwrap and we would otherwise shadow it. 2015-11-27 20:07:04 +03:00			`import Control.Comonad.Cofree hiding (unwrap)`
Qualify the imports to make them easier to spot. 2015-12-15 02:06:56 +03:00			`import qualified OrderedMap as Map`
			`import OrderedMap ((!))`
Use fromMaybe to unpack with a default value. I was looking for exactly this! Very nice. 2015-11-27 17:53:37 +03:00			`import Data.Maybe`
Stub in interpretation. 2015-11-18 04:05:16 +03:00
Implement hylomorphism. 2015-11-19 22:56:35 +03:00			`hylo :: Functor f => (t -> f b -> b) -> (a -> (t, f a)) -> a -> b`
			`hylo down up a = down annotation $ hylo down up <$> syntax where`
			`(annotation, syntax) = up a`

Doc comments :tophat: @joshvera 2015-11-27 20:19:24 +03:00			`-- \| Constructs an algorithm and runs it`
Diffs are annotated. 2015-11-19 22:27:31 +03:00			`constructAndRun :: (Eq a, Eq annotation) => Comparable a annotation -> Term a annotation -> Term a annotation -> Maybe (Diff a annotation)`
constructAndRun for equal terms. 2015-11-19 22:56:45 +03:00			`constructAndRun _ a b \| a == b = hylo introduce eliminate <$> zipTerms a b where`
			`eliminate :: Cofree f a -> (a, f (Cofree f a))`
			`eliminate (extract :< unwrap) = (extract, unwrap)`
			`introduce :: (annotation, annotation) -> Syntax a (Diff a annotation) -> Diff a annotation`
			`introduce ann syntax = Free $ Annotated ann syntax`
If not comparable, don’t compare. 2015-11-18 22:13:13 +03:00			`constructAndRun comparable a b \| not $ comparable a b = Nothing`
Factor out annotation unpacking. 2015-11-19 22:36:14 +03:00			`constructAndRun comparable (annotation1 :< a) (annotation2 :< b) =`
Parameterize `interpret` by a `comparable` function. 2015-11-18 22:09:11 +03:00			`run comparable $ algorithm a b where`
Factor out the annotations. 2015-11-27 20:10:16 +03:00			`algorithm (Indexed a') (Indexed b') = Free $ ByIndex a' b' (annotate . Indexed)`
Avoid some other shadowing. 2015-11-27 20:12:49 +03:00			`algorithm (Keyed a') (Keyed b') = Free $ ByKey a' b' (annotate . Keyed)`
			`algorithm (Leaf a') (Leaf b') \| a' == b' = annotate $ Leaf b'`
			`algorithm a' b' = Free $ Recursive (annotation1 :< a') (annotation2 :< b') Pure`
Factor out the annotations. 2015-11-27 20:10:16 +03:00			`annotate = Pure . Free . Annotated (annotation1, annotation2)`
Stub in interpretation. 2015-11-18 04:05:16 +03:00
Doc comments :tophat: @joshvera 2015-11-27 20:19:24 +03:00			`-- \| Runs the diff algorithm`
Diffs are annotated. 2015-11-19 22:27:31 +03:00			`run :: (Eq a, Eq annotation) => Comparable a annotation -> Algorithm a annotation (Diff a annotation) -> Maybe (Diff a annotation)`
Parameterize `interpret` by a `comparable` function. 2015-11-18 22:09:11 +03:00			`run _ (Pure diff) = Just diff`
Spacing. 2015-11-18 05:26:07 +03:00
Factor out more annotation unpacking. 2015-11-19 22:37:19 +03:00			`run comparable (Free (Recursive (annotation1 :< a) (annotation2 :< b) f)) = run comparable . f $ recur a b where`
Use the factored-out annotations. 2015-11-27 19:46:25 +03:00			`recur (Indexed a') (Indexed b') \| length a' == length b' = annotate . Indexed $ zipWith (interpret comparable) a' b'`
			`recur (Fixed a') (Fixed b') \| length a' == length b' = annotate . Fixed $ zipWith (interpret comparable) a' b'`
Qualify the imports to make them easier to spot. 2015-12-15 02:06:56 +03:00			`recur (Keyed a') (Keyed b') \| Map.keys a' == Map.keys b' = annotate . Keyed . Map.fromList . fmap repack $ Map.keys b'`
Single-line formatting. 2015-11-27 17:55:29 +03:00			`where`
Break repacking out. 2015-11-18 05:16:39 +03:00			`repack key = (key, interpretInBoth key a' b')`
Use `!` instead of `lookup`. 2015-12-15 02:05:00 +03:00			`interpretInBoth key x y = interpret comparable (x ! key) (y ! key)`
Factor out more annotation unpacking. 2015-11-19 22:37:19 +03:00			`recur _ _ = Pure $ Replace (annotation1 :< a) (annotation2 :< b)`
Interpretation. 2015-11-18 04:13:48 +03:00
Extract the annotation of Free terms. 2015-11-27 19:46:12 +03:00			`annotate = Free . Annotated (annotation1, annotation2)`

Parameterize `interpret` by a `comparable` function. 2015-11-18 22:09:11 +03:00			`run comparable (Free (ByKey a b f)) = run comparable $ f byKey where`
Qualify the imports to make them easier to spot. 2015-12-15 02:06:56 +03:00			`byKey = Map.unions [ deleted, inserted, patched ]`
			`deleted = (Pure . Delete) <$> Map.difference a b`
			`inserted = (Pure . Insert) <$> Map.difference b a`
			`patched = Map.intersectionWith (interpret comparable) a b`
Interpret ByKey algorithms. 2015-11-18 11:21:27 +03:00
Rename `cost` to `diffCost`. 2015-11-27 20:06:14 +03:00			`run comparable (Free (ByIndex a b f)) = run comparable . f $ ses (constructAndRun comparable) diffCost a b`
SES over empty/non-empty lists. 2015-11-18 18:02:47 +03:00
Abstract Diff over an annotation type. 2015-11-19 00:23:47 +03:00			`type Comparable a annotation = Term a annotation -> Term a annotation -> Bool`
Parameterize `interpret` by a `comparable` function. 2015-11-18 22:09:11 +03:00
Diffs are annotated. 2015-11-19 22:27:31 +03:00			`interpret :: (Eq a, Eq annotation) => Comparable a annotation -> Term a annotation -> Term a annotation -> Diff a annotation`
Use fromMaybe to unpack with a default value. I was looking for exactly this! Very nice. 2015-11-27 17:53:37 +03:00			`interpret comparable a b = fromMaybe (Pure $ Replace a b) $ constructAndRun comparable a b`