mirror of
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Merge remote-tracking branch 'origin/master' into typescript-mapping
This commit is contained in:
commit
48d46489d1
@ -53,6 +53,7 @@ library
|
||||
, Renderer.TOC
|
||||
, SemanticDiff
|
||||
, SES
|
||||
, SES.Myers
|
||||
, Source
|
||||
, SourceSpan
|
||||
, SplitDiff
|
||||
@ -150,6 +151,7 @@ test-suite test
|
||||
, InterpreterSpec
|
||||
, PatchOutputSpec
|
||||
, RangeSpec
|
||||
, SES.Myers.Spec
|
||||
, SourceSpec
|
||||
, TermSpec
|
||||
, TOCSpec
|
||||
@ -183,6 +185,12 @@ test-suite test
|
||||
default-language: Haskell2010
|
||||
default-extensions: DeriveFunctor, DeriveGeneric, FlexibleContexts, FlexibleInstances, OverloadedStrings, NoImplicitPrelude, RecordWildCards
|
||||
|
||||
custom-setup
|
||||
setup-depends: base >= 4.8 && < 5
|
||||
, Cabal
|
||||
, directory
|
||||
, process
|
||||
|
||||
source-repository head
|
||||
type: git
|
||||
location: https://github.com/github/semantic-diff
|
||||
|
@ -33,7 +33,7 @@ import Diff
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||||
import Info
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import Patch
|
||||
import Prologue as P
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import qualified SES
|
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import SES
|
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import System.Random.Mersenne.Pure64
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import Term (Term, TermF)
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|
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@ -47,7 +47,7 @@ type Label f fields label = forall b. TermF f (Record fields) b -> label
|
||||
-- This implementation is based on the paper [_RWS-Diff—Flexible and Efficient Change Detection in Hierarchical Data_](https://github.com/github/semantic-diff/files/325837/RWS-Diff.Flexible.and.Efficient.Change.Detection.in.Hierarchical.Data.pdf).
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rws :: forall f fields.
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(GAlign f, Traversable f, Eq1 f, HasField fields Category, HasField fields (Maybe FeatureVector))
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=> SES.Cost (Term f (Record fields)) -- ^ A function computes a constant-time approximation to the edit distance between two terms.
|
||||
=> (These (Term f (Record fields)) (Term f (Record fields)) -> Int) -- ^ A function computes a constant-time approximation to the edit distance between two terms.
|
||||
-> (Term f (Record fields) -> Term f (Record fields) -> Bool) -- ^ A relation determining whether two terms can be compared.
|
||||
-> [Term f (Record fields)] -- ^ The list of old terms.
|
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-> [Term f (Record fields)] -- ^ The list of new terms.
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||||
@ -69,7 +69,7 @@ rws editDistance canCompare as bs
|
||||
|
||||
where
|
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minimumTermIndex = pred . maybe 0 getMin . getOption . foldMap (Option . Just . Min . termIndex)
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sesDiffs = SES.ses (gliftEq (==) `on` fmap category) cost as bs
|
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sesDiffs = ses (gliftEq (==) `on` fmap category) as bs
|
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|
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(featurizedAs, featurizedBs, _, _, countersAndDiffs, allDiffs) =
|
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foldl' (\(as, bs, counterA, counterB, diffs, allDiffs) diff -> case diff of
|
||||
@ -151,8 +151,6 @@ rws editDistance canCompare as bs
|
||||
diffs
|
||||
((termIndex &&& This . term) <$> unmappedA)
|
||||
|
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cost = these (const 1) (const 1) (const (const 0))
|
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|
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kdas = KdTree.build (elems . feature) featurizedAs
|
||||
kdbs = KdTree.build (elems . feature) featurizedBs
|
||||
|
||||
|
52
src/SES.hs
52
src/SES.hs
@ -1,53 +1,11 @@
|
||||
{-# LANGUAGE Strict #-}
|
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module SES where
|
||||
module SES
|
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( Comparable
|
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, Myers.ses
|
||||
) where
|
||||
|
||||
import Data.Array.MArray
|
||||
import Data.Array.ST
|
||||
import Data.These
|
||||
import Prologue
|
||||
|
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import qualified SES.Myers as Myers
|
||||
|
||||
-- | Edit constructor for two terms, if comparable. Otherwise returns Nothing.
|
||||
type Comparable term = term -> term -> Bool
|
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|
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-- | A function that computes the cost of an edit.
|
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type Cost term = These term term -> Int
|
||||
|
||||
-- | Find the shortest edit script (diff) between two terms given a function to compute the cost.
|
||||
ses :: Comparable term -> Cost term -> [term] -> [term] -> [These term term]
|
||||
ses canCompare cost as bs = runST $ do
|
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array <- newArray ((0, 0), (length bs, length as)) Nothing
|
||||
editScript <- diffAt array canCompare cost (0, 0) as bs
|
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pure $ fst <$> editScript
|
||||
|
||||
-- | Find the shortest edit script between two terms at a given vertex in the edit graph.
|
||||
diffAt :: STArray s (Int, Int) (Maybe [(These term term, Int)]) -> Comparable term -> Cost term -> (Int, Int) -> [term] -> [term] -> ST s [(These term term, Int)]
|
||||
diffAt array canCompare cost (i, j) as bs
|
||||
| (a : as') <- as, (b : bs') <- bs = do
|
||||
maybeDiff <- readArray array (i, j)
|
||||
case maybeDiff of
|
||||
Just diffs -> pure diffs
|
||||
Nothing -> do
|
||||
down <- recur (i, succ j) as' bs
|
||||
right <- recur (succ i, j) as bs'
|
||||
nomination <- best <$> if canCompare a b
|
||||
then do
|
||||
diagonal <- recur (succ i, succ j) as' bs'
|
||||
pure [ delete a down, insert b right, consWithCost cost (These a b) diagonal ]
|
||||
else pure [ delete a down, insert b right ]
|
||||
writeArray array (i, j) (Just nomination)
|
||||
pure nomination
|
||||
| null as = pure $ foldr insert [] bs
|
||||
| null bs = pure $ foldr delete [] as
|
||||
| otherwise = pure []
|
||||
where
|
||||
delete = consWithCost cost . This
|
||||
insert = consWithCost cost . That
|
||||
costOf [] = 0
|
||||
costOf ((_, c) : _) = c
|
||||
best = minimumBy (comparing costOf)
|
||||
recur = diffAt array canCompare cost
|
||||
|
||||
-- | Prepend an edit script and the cumulative cost onto the edit script.
|
||||
consWithCost :: Cost term -> These term term -> [(These term term, Int)] -> [(These term term, Int)]
|
||||
consWithCost cost edit rest = (edit, cost edit + maybe 0 snd (fst <$> uncons rest)) : rest
|
||||
|
415
src/SES/Myers.hs
Normal file
415
src/SES/Myers.hs
Normal file
@ -0,0 +1,415 @@
|
||||
{-# LANGUAGE GADTs, ImplicitParams, MultiParamTypeClasses, ScopedTypeVariables #-}
|
||||
module SES.Myers
|
||||
( MyersF(..)
|
||||
, EditScript
|
||||
, Step(..)
|
||||
, Myers
|
||||
, EditGraph(..)
|
||||
, Distance(..)
|
||||
, Diagonal(..)
|
||||
, Endpoint(..)
|
||||
, ses
|
||||
, runMyers
|
||||
, runMyersSteps
|
||||
, lcs
|
||||
, editDistance
|
||||
, MyersState(..)
|
||||
) where
|
||||
|
||||
import Control.Exception
|
||||
import Control.Monad.Free.Freer
|
||||
import qualified Data.Array as Array
|
||||
import Data.Ix
|
||||
import Data.Functor.Classes
|
||||
import Data.String
|
||||
import Data.These
|
||||
import GHC.Show hiding (show)
|
||||
import GHC.Stack
|
||||
import Prologue hiding (for, State, error)
|
||||
import qualified Prologue
|
||||
import Text.Show (showListWith)
|
||||
|
||||
-- | Operations in Myers’ algorithm.
|
||||
data MyersF a b result where
|
||||
SES :: MyersF a b (EditScript a b)
|
||||
LCS :: MyersF a b [(a, b)]
|
||||
EditDistance :: MyersF a b Int
|
||||
SearchUpToD :: Distance -> MyersF a b (Maybe (EditScript a b, Distance))
|
||||
SearchAlongK :: Distance -> Diagonal -> MyersF a b (Maybe (EditScript a b, Distance))
|
||||
MoveFromAdjacent :: Distance -> Diagonal -> MyersF a b (Endpoint a b)
|
||||
MoveDownFrom :: Endpoint a b -> MyersF a b (Endpoint a b)
|
||||
MoveRightFrom :: Endpoint a b -> MyersF a b (Endpoint a b)
|
||||
SlideFrom :: Endpoint a b -> MyersF a b (Endpoint a b)
|
||||
|
||||
GetK :: Diagonal -> MyersF a b (Endpoint a b)
|
||||
SetK :: Diagonal -> Endpoint a b -> MyersF a b ()
|
||||
|
||||
|
||||
-- | An edit script, i.e. a sequence of changes/copies of elements.
|
||||
type EditScript a b = [These a b]
|
||||
|
||||
-- | Steps in the execution of Myers’ algorithm, i.e. the sum of MyersF and State.
|
||||
data Step a b result where
|
||||
M :: HasCallStack => MyersF a b c -> Step a b c
|
||||
S :: State (MyersState a b) c -> Step a b c
|
||||
|
||||
type Myers a b = Freer (Step a b)
|
||||
|
||||
-- | Notionally the cartesian product of two sequences, represented as a simple wrapper around those arrays holding those sequences’ elements for O(1) lookups.
|
||||
data EditGraph a b = EditGraph { as :: !(Array.Array Int a), bs :: !(Array.Array Int b) }
|
||||
deriving (Eq, Show)
|
||||
|
||||
-- | Construct an edit graph from Foldable sequences.
|
||||
makeEditGraph :: (Foldable t, Foldable u) => t a -> u b -> EditGraph a b
|
||||
makeEditGraph as bs = EditGraph (Array.listArray (0, pred (length as)) (toList as)) (Array.listArray (0, pred (length bs)) (toList bs))
|
||||
|
||||
-- | An edit distance, i.e. a cardinal number of changes.
|
||||
newtype Distance = Distance { unDistance :: Int }
|
||||
deriving (Eq, Show)
|
||||
|
||||
-- | A diagonal in the edit graph of lists of lengths n and m, numbered from -m to n.
|
||||
newtype Diagonal = Diagonal { unDiagonal :: Int }
|
||||
deriving (Eq, Ix, Ord, Show)
|
||||
|
||||
-- | The endpoint of a path through the edit graph, represented as the x/y indices and the script of edits made to get to that point.
|
||||
data Endpoint a b = Endpoint { x :: !Int, y :: !Int, script :: !(EditScript a b) }
|
||||
deriving (Eq, Show)
|
||||
|
||||
|
||||
-- API
|
||||
|
||||
-- | Compute the shortest edit script using Myers’ algorithm.
|
||||
ses :: (HasCallStack, Foldable t, Foldable u) => (a -> b -> Bool) -> t a -> u b -> EditScript a b
|
||||
ses eq as bs = runMyers eq (makeEditGraph as bs) (M SES `Then` return)
|
||||
|
||||
|
||||
-- Evaluation
|
||||
|
||||
-- | Fully evaluate an operation in Myers’ algorithm given a comparator function and an edit graph.
|
||||
runMyers :: forall a b c. HasCallStack => (a -> b -> Bool) -> EditGraph a b -> Myers a b c -> c
|
||||
runMyers eq graph step = evalState (go step) (emptyStateForGraph graph)
|
||||
where go :: forall c. Myers a b c -> Prologue.State (MyersState a b) c
|
||||
go = iterFreerA algebra
|
||||
algebra :: forall c x. Step a b x -> (x -> Prologue.State (MyersState a b) c) -> Prologue.State (MyersState a b) c
|
||||
algebra step cont = case step of
|
||||
M m -> go (decompose' m) >>= cont
|
||||
S Get -> get >>= cont
|
||||
S (Put s) -> put s >>= cont
|
||||
decompose' :: forall c. MyersF a b c -> Myers a b c
|
||||
decompose' = decompose eq graph
|
||||
|
||||
-- | Fully evaluate an operation in Myers’ algorithm given a comparator function and an edit graph, returning a list of states and next steps.
|
||||
runMyersSteps :: HasCallStack => (a -> b -> Bool) -> EditGraph a b -> Myers a b c -> [(MyersState a b, Myers a b c)]
|
||||
runMyersSteps eq graph = go (emptyStateForGraph graph)
|
||||
where go state step = let ?callStack = popCallStack callStack in prefix state step $ case runMyersStep eq graph state step of
|
||||
Left result -> [ (state, return result) ]
|
||||
Right next -> uncurry go next
|
||||
prefix state step = case step of
|
||||
Then (M _) _ -> ((state, step) :)
|
||||
_ -> identity
|
||||
|
||||
-- | Evaluate one step in Myers’ algorithm given a comparator function and an edit graph, returning Either the final result, or the next state and step.
|
||||
runMyersStep :: HasCallStack => (a -> b -> Bool) -> EditGraph a b -> MyersState a b -> Myers a b c -> Either c (MyersState a b, Myers a b c)
|
||||
runMyersStep eq graph state step = let ?callStack = popCallStack callStack in case step of
|
||||
Return a -> Left a
|
||||
Then step cont -> case step of
|
||||
M myers -> Right (state, decompose eq graph myers >>= cont)
|
||||
|
||||
S Get -> Right (state, cont state)
|
||||
S (Put state') -> Right (state', cont ())
|
||||
|
||||
|
||||
-- | Decompose an operation in Myers’ algorithm into its continuation.
|
||||
--
|
||||
-- Dispatches to the per-operation run… functions which implement the meat of the algorithm.
|
||||
decompose :: HasCallStack => (a -> b -> Bool) -> EditGraph a b -> MyersF a b c -> Myers a b c
|
||||
decompose eq graph myers = let ?callStack = popCallStack callStack in case myers of
|
||||
SES -> runSES graph
|
||||
LCS -> runLCS graph
|
||||
EditDistance -> runEditDistance graph
|
||||
SearchUpToD d -> runSearchUpToD graph d
|
||||
SearchAlongK d k -> runSearchAlongK graph d k
|
||||
MoveFromAdjacent d k -> runMoveFromAdjacent graph d k
|
||||
MoveDownFrom e -> runMoveDownFrom graph e
|
||||
MoveRightFrom e -> runMoveRightFrom graph e
|
||||
|
||||
GetK k -> runGetK graph k
|
||||
SetK k x -> runSetK graph k x
|
||||
|
||||
SlideFrom from -> runSlideFrom eq graph from
|
||||
{-# INLINE decompose #-}
|
||||
|
||||
|
||||
-- | Compute the shortest edit script (diff) of an edit graph.
|
||||
runSES :: HasCallStack => EditGraph a b -> Myers a b (EditScript a b)
|
||||
runSES (EditGraph as bs)
|
||||
| null bs = return (This <$> toList as)
|
||||
| null as = return (That <$> toList bs)
|
||||
| otherwise = let ?callStack = popCallStack callStack in do
|
||||
result <- for [0..(length as + length bs)] (searchUpToD . Distance)
|
||||
case result of
|
||||
Just (script, _) -> return (reverse script)
|
||||
_ -> fail "no shortest edit script found in edit graph (this is a bug in SES.Myers)."
|
||||
|
||||
-- | Compute the longest common subsequence of an edit graph.
|
||||
runLCS :: HasCallStack => EditGraph a b -> Myers a b [(a, b)]
|
||||
runLCS (EditGraph as bs)
|
||||
| null as || null bs = return []
|
||||
| otherwise = let ?callStack = popCallStack callStack in do
|
||||
result <- M SES `Then` return
|
||||
return (catMaybes (these (const Nothing) (const Nothing) ((Just .) . (,)) <$> result))
|
||||
|
||||
-- | Compute the edit distance of an edit graph.
|
||||
runEditDistance :: HasCallStack => EditGraph a b -> Myers a b Int
|
||||
runEditDistance _ = let ?callStack = popCallStack callStack in length . filter (these (const True) (const True) (const (const False))) <$> (M SES `Then` return)
|
||||
|
||||
|
||||
-- | Search an edit graph for the shortest edit script up to a given proposed edit distance, building on the results of previous searches.
|
||||
runSearchUpToD :: HasCallStack => EditGraph a b -> Distance -> Myers a b (Maybe (EditScript a b, Distance))
|
||||
runSearchUpToD (EditGraph as bs) (Distance d) = let ?callStack = popCallStack callStack in
|
||||
for [ k | k <- [negate d, negate d + 2 .. d], inRange (negate m, n) k ] (searchAlongK (Distance d) . Diagonal)
|
||||
where (n, m) = (length as, length bs)
|
||||
|
||||
-- | Search an edit graph for the shortest edit script along a specific diagonal.
|
||||
runSearchAlongK :: HasCallStack => EditGraph a b -> Distance -> Diagonal -> Myers a b (Maybe (EditScript a b, Distance))
|
||||
runSearchAlongK (EditGraph as bs) d k = let ?callStack = popCallStack callStack in do
|
||||
Endpoint x y script <- moveFromAdjacent d k
|
||||
if x >= length as && y >= length bs then
|
||||
return (Just (script, d))
|
||||
else
|
||||
return Nothing
|
||||
|
||||
-- | Move onto a given diagonal from one of its in-bounds adjacent diagonals (if any), and slide down any diagonal edges eagerly.
|
||||
runMoveFromAdjacent :: HasCallStack => EditGraph a b -> Distance -> Diagonal -> Myers a b (Endpoint a b)
|
||||
runMoveFromAdjacent (EditGraph as bs) (Distance d) (Diagonal k) = let ?callStack = popCallStack callStack in do
|
||||
let (n, m) = (length as, length bs)
|
||||
from <- if d == 0 || k < negate m || k > n then
|
||||
-- The top-left corner, or otherwise out-of-bounds.
|
||||
return (Endpoint 0 0 [])
|
||||
else if k == negate d || k == negate m then
|
||||
-- The lower/left extent of the search region or edit graph, whichever is smaller.
|
||||
getK (Diagonal (succ k)) >>= moveDownFrom
|
||||
else if k /= d && k /= n then do
|
||||
-- Somewhere in the interior of the search region and edit graph.
|
||||
prev <- getK (Diagonal (pred k))
|
||||
next <- getK (Diagonal (succ k))
|
||||
if x prev < x next then
|
||||
moveDownFrom next
|
||||
else
|
||||
moveRightFrom prev
|
||||
else
|
||||
-- The upper/right extent of the search region or edit graph, whichever is smaller.
|
||||
getK (Diagonal (pred k)) >>= moveRightFrom
|
||||
endpoint <- slideFrom from
|
||||
setK (Diagonal k) endpoint
|
||||
return endpoint
|
||||
|
||||
-- | Move downward from a given vertex, inserting the element for the corresponding row.
|
||||
runMoveDownFrom :: HasCallStack => EditGraph a b -> Endpoint a b -> Myers a b (Endpoint a b)
|
||||
runMoveDownFrom (EditGraph _ bs) (Endpoint x y script) = return (Endpoint x (succ y) (if y < length bs then That (bs ! y) : script else script))
|
||||
|
||||
-- | Move rightward from a given vertex, deleting the element for the corresponding column.
|
||||
runMoveRightFrom :: HasCallStack => EditGraph a b -> Endpoint a b -> Myers a b (Endpoint a b)
|
||||
runMoveRightFrom (EditGraph as _) (Endpoint x y script) = return (Endpoint (succ x) y (if x < length as then This (as ! x) : script else script))
|
||||
|
||||
-- | Return the maximum extent reached and path taken along a given diagonal.
|
||||
runGetK :: HasCallStack => EditGraph a b -> Diagonal -> Myers a b (Endpoint a b)
|
||||
runGetK graph k = let ?callStack = popCallStack callStack in do
|
||||
v <- checkK graph k
|
||||
let (x, script) = v ! k in return (Endpoint x (x - unDiagonal k) script)
|
||||
|
||||
-- | Update the maximum extent reached and path taken along a given diagonal.
|
||||
runSetK :: HasCallStack => EditGraph a b -> Diagonal -> Endpoint a b -> Myers a b ()
|
||||
runSetK graph k (Endpoint x _ script) = let ?callStack = popCallStack callStack in do
|
||||
v <- checkK graph k
|
||||
put (MyersState (v Array.// [(k, (x, script))]))
|
||||
|
||||
-- | Slide down any diagonal edges from a given vertex.
|
||||
runSlideFrom :: HasCallStack => (a -> b -> Bool) -> EditGraph a b -> Endpoint a b -> Myers a b (Endpoint a b)
|
||||
runSlideFrom eq (EditGraph as bs) (Endpoint x y script)
|
||||
| x >= 0, x < length as
|
||||
, y >= 0, y < length bs
|
||||
, a <- as ! x
|
||||
, b <- bs ! y
|
||||
, a `eq` b = slideFrom (Endpoint (succ x) (succ y) (These a b : script))
|
||||
| otherwise = return (Endpoint x y script)
|
||||
|
||||
|
||||
-- Smart constructors
|
||||
|
||||
-- | Compute the longest common subsequence.
|
||||
lcs :: HasCallStack => Myers a b [(a, b)]
|
||||
lcs = M LCS `Then` return
|
||||
|
||||
-- | Compute the edit distance.
|
||||
editDistance :: HasCallStack => Myers a b Int
|
||||
editDistance = M EditDistance `Then` return
|
||||
|
||||
-- | Search an edit graph for the shortest edit script up to a given proposed edit distance, building on the results of previous searches.
|
||||
searchUpToD :: HasCallStack => Distance -> Myers a b (Maybe (EditScript a b, Distance))
|
||||
searchUpToD distance = M (SearchUpToD distance) `Then` return
|
||||
|
||||
-- | Search an edit graph for the shortest edit script along a specific diagonal.
|
||||
searchAlongK :: HasCallStack => Distance -> Diagonal -> Myers a b (Maybe (EditScript a b, Distance))
|
||||
searchAlongK d k = M (SearchAlongK d k) `Then` return
|
||||
|
||||
-- | Move onto a given diagonal from one of its in-bounds adjacent diagonals (if any), and slide down any diagonal edges eagerly.
|
||||
moveFromAdjacent :: HasCallStack => Distance -> Diagonal -> Myers a b (Endpoint a b)
|
||||
moveFromAdjacent d k = M (MoveFromAdjacent d k) `Then` return
|
||||
|
||||
-- | Move downward from a given vertex, inserting the element for the corresponding row.
|
||||
moveDownFrom :: HasCallStack => Endpoint a b -> Myers a b (Endpoint a b)
|
||||
moveDownFrom e = M (MoveDownFrom e) `Then` return
|
||||
|
||||
-- | Move rightward from a given vertex, deleting the element for the corresponding column.
|
||||
moveRightFrom :: HasCallStack => Endpoint a b -> Myers a b (Endpoint a b)
|
||||
moveRightFrom e = M (MoveRightFrom e) `Then` return
|
||||
|
||||
-- | Return the maximum extent reached and path taken along a given diagonal.
|
||||
getK :: HasCallStack => Diagonal -> Myers a b (Endpoint a b)
|
||||
getK diagonal = M (GetK diagonal) `Then` return
|
||||
|
||||
-- | Update the maximum extent reached and path taken along a given diagonal.
|
||||
setK :: HasCallStack => Diagonal -> Endpoint a b -> Myers a b ()
|
||||
setK diagonal x = M (SetK diagonal x) `Then` return
|
||||
|
||||
-- | Slide down any diagonal edges from a given vertex.
|
||||
slideFrom :: HasCallStack => Endpoint a b -> Myers a b (Endpoint a b)
|
||||
slideFrom from = M (SlideFrom from) `Then` return
|
||||
|
||||
|
||||
-- Implementation details
|
||||
|
||||
-- | The state stored by Myers’ algorithm; an array of m + n + 1 values indicating the maximum x-index reached and path taken along each diagonal.
|
||||
newtype MyersState a b = MyersState { unMyersState :: Array.Array Diagonal (Int, EditScript a b) }
|
||||
deriving (Eq, Show)
|
||||
|
||||
-- | State effect used in Myers.
|
||||
data State s a where
|
||||
Get :: State s s
|
||||
Put :: s -> State s ()
|
||||
|
||||
-- | Compute the empty state of length m + n + 1 for a given edit graph.
|
||||
emptyStateForGraph :: EditGraph a b -> MyersState a b
|
||||
emptyStateForGraph (EditGraph as bs) = let (n, m) = (length as, length bs) in
|
||||
MyersState (Array.listArray (Diagonal (negate m), Diagonal n) (repeat (0, [])))
|
||||
|
||||
-- | Evaluate some function for each value in a list until one returns a value or the list is exhausted.
|
||||
for :: [a] -> (a -> Myers c d (Maybe b)) -> Myers c d (Maybe b)
|
||||
for all run = foldr (\ a b -> (<|>) <$> run a <*> b) (return Nothing) all
|
||||
|
||||
|
||||
-- | Throw a failure. Used to indicate an error in the implementation of Myers’ algorithm.
|
||||
fail :: (HasCallStack, Monad m) => String -> m a
|
||||
fail s = let ?callStack = fromCallSiteList (filter ((/= "M") . fst) (getCallStack callStack)) in
|
||||
throw (MyersException s callStack)
|
||||
|
||||
-- | Bounds-checked indexing of arrays, preserving the call stack.
|
||||
(!) :: (HasCallStack, Ix i, Show i) => Array.Array i a -> i -> a
|
||||
v ! i | inRange (Array.bounds v) i = v Array.! i
|
||||
| otherwise = let ?callStack = fromCallSiteList (filter ((/= "M") . fst) (getCallStack callStack)) in
|
||||
throw (MyersException ("index " <> show i <> " out of bounds") callStack)
|
||||
|
||||
-- | Check that a given diagonal is in-bounds for the edit graph, returning the actual index to use and the state array.
|
||||
checkK :: HasCallStack => EditGraph a b -> Diagonal -> Myers a b (Array.Array Diagonal (Int, EditScript a b))
|
||||
checkK _ k = let ?callStack = popCallStack callStack in do
|
||||
v <- gets unMyersState
|
||||
unless (inRange (Array.bounds v) k) $ fail ("diagonal " <> show k <> " outside state bounds " <> show (Array.bounds v))
|
||||
return v
|
||||
|
||||
|
||||
-- | Lifted showing of arrays.
|
||||
liftShowsVector :: Show i => (Int -> a -> ShowS) -> ([a] -> ShowS) -> Int -> Array.Array i a -> ShowS
|
||||
liftShowsVector sp sl d = liftShowsPrec sp sl d . toList
|
||||
|
||||
-- | Lifted showing of operations in Myers’ algorithm.
|
||||
liftShowsMyersF :: (Int -> a -> ShowS) -> (Int -> b -> ShowS) -> Int -> MyersF a b c -> ShowS
|
||||
liftShowsMyersF sp1 sp2 d m = case m of
|
||||
SES -> showString "SES"
|
||||
LCS -> showString "LCS"
|
||||
EditDistance -> showString "EditDistance"
|
||||
SearchUpToD distance -> showsUnaryWith showsPrec "SearchUpToD" d distance
|
||||
SearchAlongK distance diagonal -> showsBinaryWith showsPrec showsPrec "SearchAlongK" d distance diagonal
|
||||
MoveFromAdjacent distance diagonal -> showsBinaryWith showsPrec showsPrec "MoveFromAdjacent" d distance diagonal
|
||||
MoveDownFrom endpoint -> showsUnaryWith (liftShowsEndpoint sp1 sp2) "MoveDownFrom" d endpoint
|
||||
MoveRightFrom endpoint -> showsUnaryWith (liftShowsEndpoint sp1 sp2) "MoveRightFrom" d endpoint
|
||||
GetK diagonal -> showsUnaryWith showsPrec "GetK" d diagonal
|
||||
SetK diagonal v -> showsBinaryWith showsPrec (liftShowsEndpoint sp1 sp2) "SetK" d diagonal v
|
||||
SlideFrom endpoint -> showsUnaryWith (liftShowsEndpoint sp1 sp2) "SlideFrom" d endpoint
|
||||
|
||||
-- | Lifted showing of ternary constructors.
|
||||
showsTernaryWith :: (Int -> a -> ShowS) -> (Int -> b -> ShowS) -> (Int -> c -> ShowS) -> String -> Int -> a -> b -> c -> ShowS
|
||||
showsTernaryWith sp1 sp2 sp3 name d x y z = showParen (d > 10) $
|
||||
showString name . showChar ' ' . sp1 11 x . showChar ' ' . sp2 11 y . showChar ' ' . sp3 11 z
|
||||
|
||||
-- | Lifted showing of State.
|
||||
liftShowsState :: (Int -> a -> ShowS) -> Int -> State a b -> ShowS
|
||||
liftShowsState sp d state = case state of
|
||||
Get -> showString "Get"
|
||||
Put s -> showsUnaryWith sp "Put" d s
|
||||
|
||||
-- | Lift value/list showing functions into a showing function for steps in Myers’ algorithm.
|
||||
liftShowsStep :: (Int -> a -> ShowS) -> ([a] -> ShowS) -> (Int -> b -> ShowS) -> ([b] -> ShowS) -> Int -> Step a b c -> ShowS
|
||||
liftShowsStep sp1 sl1 sp2 sl2 d step = case step of
|
||||
M m -> showsUnaryWith (liftShowsMyersF sp1 sp2) "M" d m
|
||||
S s -> showsUnaryWith (liftShowsState (liftShowsPrec2 sp1 sl1 sp2 sl2)) "S" d s
|
||||
|
||||
-- | Lifted showing of These.
|
||||
liftShowsThese :: (Int -> a -> ShowS) -> (Int -> b -> ShowS) -> Int -> These a b -> ShowS
|
||||
liftShowsThese sa sb d t = case t of
|
||||
This a -> showsUnaryWith sa "This" d a
|
||||
That b -> showsUnaryWith sb "That" d b
|
||||
These a b -> showsBinaryWith sa sb "These" d a b
|
||||
|
||||
-- | Lifted showing of edit scripts.
|
||||
liftShowsEditScript :: (Int -> a -> ShowS) -> (Int -> b -> ShowS) -> Int -> EditScript a b -> ShowS
|
||||
liftShowsEditScript sa sb _ = showListWith (liftShowsThese sa sb 0)
|
||||
|
||||
-- | Lifted showing of edit graph endpoints.
|
||||
liftShowsEndpoint :: (Int -> a -> ShowS) -> (Int -> b -> ShowS) -> Int -> Endpoint a b -> ShowS
|
||||
liftShowsEndpoint sp1 sp2 d (Endpoint x y script) = showsTernaryWith showsPrec showsPrec (liftShowsEditScript sp1 sp2) "Endpoint" d x y script
|
||||
|
||||
-- | Exceptions in Myers’ algorithm, along with a description and call stack.
|
||||
data MyersException = MyersException String CallStack
|
||||
deriving (Typeable)
|
||||
|
||||
|
||||
-- Instances
|
||||
|
||||
instance MonadState (MyersState a b) (Myers a b) where
|
||||
get = S Get `Then` return
|
||||
put a = S (Put a) `Then` return
|
||||
|
||||
instance Show2 MyersState where
|
||||
liftShowsPrec2 sp1 _ sp2 _ d (MyersState v) = showsUnaryWith showsStateVector "MyersState" d v
|
||||
where showsStateVector = showsWith liftShowsVector (showsWith liftShowsPrec (liftShowsEditScript sp1 sp2))
|
||||
showsWith g f = g f (showListWith (f 0))
|
||||
|
||||
instance Show s => Show1 (State s) where
|
||||
liftShowsPrec _ _ = liftShowsState showsPrec
|
||||
|
||||
instance Show s => Show (State s a) where
|
||||
showsPrec = liftShowsPrec (const (const identity)) (const identity)
|
||||
|
||||
instance Show2 EditGraph where
|
||||
liftShowsPrec2 sp1 sl1 sp2 sl2 d (EditGraph as bs) = showsBinaryWith (liftShowsVector sp1 sl1) (liftShowsVector sp2 sl2) "EditGraph" d as bs
|
||||
|
||||
instance Show2 Endpoint where
|
||||
liftShowsPrec2 sp1 _ sp2 _ = liftShowsEndpoint sp1 sp2
|
||||
|
||||
instance (Show a, Show b) => Show1 (MyersF a b) where
|
||||
liftShowsPrec _ _ = liftShowsMyersF showsPrec showsPrec
|
||||
|
||||
instance (Show a, Show b) => Show (MyersF a b c) where
|
||||
showsPrec = liftShowsMyersF showsPrec showsPrec
|
||||
|
||||
instance (Show a, Show b) => Show1 (Step a b) where
|
||||
liftShowsPrec _ _ = liftShowsStep showsPrec showList showsPrec showList
|
||||
|
||||
instance (Show a, Show b) => Show (Step a b c) where
|
||||
showsPrec = liftShowsStep showsPrec showList showsPrec showList
|
||||
|
||||
instance Exception MyersException
|
||||
|
||||
instance Show MyersException where
|
||||
showsPrec _ (MyersException s c) = showString "Exception: " . showString s . showChar '\n' . showString (prettyCallStack c)
|
25
test/SES/Myers/Spec.hs
Normal file
25
test/SES/Myers/Spec.hs
Normal file
@ -0,0 +1,25 @@
|
||||
module SES.Myers.Spec where
|
||||
|
||||
import Data.These
|
||||
import Prologue
|
||||
import SES.Myers
|
||||
import Test.Hspec
|
||||
import Test.Hspec.LeanCheck
|
||||
|
||||
spec :: Spec
|
||||
spec = do
|
||||
describe "ses" $ do
|
||||
prop "returns equal lists in These" $
|
||||
\ as -> (ses (==) as as :: EditScript Char Char) `shouldBe` zipWith These as as
|
||||
|
||||
prop "returns deletions in This" $
|
||||
\ as -> (ses (==) as [] :: EditScript Char Char) `shouldBe` fmap This as
|
||||
|
||||
prop "returns insertions in That" $
|
||||
\ bs -> (ses (==) [] bs :: EditScript Char Char) `shouldBe` fmap That bs
|
||||
|
||||
prop "returns all elements individually for disjoint inputs" $
|
||||
\ as bs -> length (ses (==) ((,) 0 <$> as :: [(Int, Char)]) ((,) 1 <$> bs :: [(Int, Char)])) `shouldBe` length as + length bs
|
||||
|
||||
prop "is lossless w.r.t. both input elements & ordering" $
|
||||
\ as bs -> foldr (\ each (as, bs) -> these (flip (,) bs. (:as)) ((,) as . (:bs)) (\ a b -> (a:as, b:bs)) each) ([], []) (ses (==) as bs :: EditScript Char Char) `shouldBe` (as, bs)
|
@ -9,6 +9,7 @@ import qualified SummarySpec
|
||||
import qualified InterpreterSpec
|
||||
import qualified PatchOutputSpec
|
||||
import qualified RangeSpec
|
||||
import qualified SES.Myers.Spec
|
||||
import qualified SourceSpec
|
||||
import qualified TermSpec
|
||||
import qualified TOCSpec
|
||||
@ -27,6 +28,7 @@ main = hspec . parallel $ do
|
||||
describe "Interpreter" InterpreterSpec.spec
|
||||
describe "PatchOutput" PatchOutputSpec.spec
|
||||
describe "Range" RangeSpec.spec
|
||||
describe "SES.Myers" SES.Myers.Spec.spec
|
||||
describe "Source" SourceSpec.spec
|
||||
describe "Term" TermSpec.spec
|
||||
describe "TOC" TOCSpec.spec
|
||||
|
10
test/fixtures/ruby/math-assignment.diffB-A.txt
vendored
10
test/fixtures/ruby/math-assignment.diffB-A.txt
vendored
@ -1,8 +1,7 @@
|
||||
(Program
|
||||
(OperatorAssignment
|
||||
{-(OperatorAssignment
|
||||
(Identifier)
|
||||
{ (IntegerLiteral)
|
||||
->(IntegerLiteral) })
|
||||
(IntegerLiteral))-}
|
||||
(OperatorAssignment
|
||||
(Identifier)
|
||||
(IntegerLiteral))
|
||||
@ -14,4 +13,7 @@
|
||||
(IntegerLiteral))
|
||||
(OperatorAssignment
|
||||
(Identifier)
|
||||
(IntegerLiteral)))
|
||||
(IntegerLiteral))
|
||||
{+(OperatorAssignment
|
||||
(Identifier)
|
||||
(IntegerLiteral))+})
|
||||
|
2
vendor/haskell-tree-sitter
vendored
2
vendor/haskell-tree-sitter
vendored
@ -1 +1 @@
|
||||
Subproject commit 825bdfaf9488a1be49f8f5d3921cdcd22b7a46cb
|
||||
Subproject commit c70bc6dafcbdc572082c46345e6425508ceaf43f
|
Loading…
Reference in New Issue
Block a user