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semantic/test/AlignmentSpec.hs

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{-# LANGUAGE DataKinds #-}
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module AlignmentSpec where
import Alignment
import Control.Monad.State
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import Data.Align hiding (align)
import Data.Bifunctor
import Data.Bifunctor.Join
import Data.Bifunctor.Join.Arbitrary ()
import Data.Functor.Both as Both
import Data.List (nub)
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import Data.Monoid hiding ((<>))
import Data.Record
import Data.String
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import Data.Text.Arbitrary ()
import Data.These
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import Patch
import Prologue hiding (fst, snd)
import qualified Prologue
import Range
import qualified Source
import SplitDiff
import Syntax
import Term
import Test.Hspec (Spec, describe, it, parallel)
import Test.Hspec.Expectations.Pretty
import Test.Hspec.QuickCheck
import Test.QuickCheck
import GHC.Show (Show(..))
spec :: Spec
spec = parallel $ do
describe "alignBranch" $ do
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it "produces symmetrical context" $
alignBranch getRange ([] :: [Join These (SplitDiff (Syntax String) (Record '[Range]))]) (both [Range 0 2, Range 2 4] [Range 0 2, Range 2 4]) `shouldBe`
[ Join (These (Range 0 2, [])
(Range 0 2, []))
, Join (These (Range 2 4, [])
(Range 2 4, []))
]
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it "produces asymmetrical context" $
alignBranch getRange ([] :: [Join These (SplitDiff (Syntax String) (Record '[Range]))]) (both [Range 0 2, Range 2 4] [Range 0 1]) `shouldBe`
[ Join (These (Range 0 2, [])
(Range 0 1, []))
, Join (This (Range 2 4, []))
]
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prop "covers every input line" $
\ elements -> let (_, children, ranges) = toAlignBranchInputs elements in
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join <$> (traverse (modifyJoin (fromThese [] []) . fmap (pure . Prologue.fst)) (alignBranch Prologue.snd children ranges)) `shouldBe` ranges
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prop "covers every input child" $
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\ elements -> let (_, children, ranges) = toAlignBranchInputs elements in
sort (nub (keysOfAlignedChildren (alignBranch Prologue.snd children ranges))) `shouldBe` sort (nub (catMaybes (branchElementKey <$> elements)))
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prop "covers every line of every input child" $
\ elements -> let (_, children, ranges) = toAlignBranchInputs elements in
sort (keysOfAlignedChildren (alignBranch Prologue.snd children ranges)) `shouldBe` sort (do
line <- children
these (pure . Prologue.fst) (pure . Prologue.fst) (\ (k1, _) (k2, _) -> [ k1, k2 ]) . runJoin $ line)
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describe "alignDiff" $ do
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it "aligns identical branches on a single line" $
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let sources = both (Source.fromList "[ foo ]") (Source.fromList "[ foo ]") in
align sources (pure (info 0 7) `branch` [ pure (info 2 5) `leaf` "foo" ]) `shouldBe` prettyDiff sources
[ Join (These (info 0 7 `branch` [ info 2 5 `leaf` "foo" ])
(info 0 7 `branch` [ info 2 5 `leaf` "foo" ])) ]
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it "aligns identical branches spanning multiple lines" $
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let sources = both (Source.fromList "[\nfoo\n]") (Source.fromList "[\nfoo\n]") in
align sources (pure (info 0 7) `branch` [ pure (info 2 5) `leaf` "foo" ]) `shouldBe` prettyDiff sources
[ Join (These (info 0 2 `branch` [])
(info 0 2 `branch` []))
, Join (These (info 2 6 `branch` [ info 2 5 `leaf` "foo" ])
(info 2 6 `branch` [ info 2 5 `leaf` "foo" ]))
, Join (These (info 6 7 `branch` [])
(info 6 7 `branch` []))
]
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it "aligns reformatted branches" $
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let sources = both (Source.fromList "[ foo ]") (Source.fromList "[\nfoo\n]") in
align sources (pure (info 0 7) `branch` [ pure (info 2 5) `leaf` "foo" ]) `shouldBe` prettyDiff sources
[ Join (That (info 0 2 `branch` []))
, Join (These (info 0 7 `branch` [ info 2 5 `leaf` "foo" ])
(info 2 6 `branch` [ info 2 5 `leaf` "foo" ]))
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, Join (That (info 6 7 `branch` []))
]
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it "aligns nodes following reformatted branches" $
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let sources = both (Source.fromList "[ foo ]\nbar\n") (Source.fromList "[\nfoo\n]\nbar\n") in
align sources (pure (info 0 12) `branch` [ pure (info 0 7) `branch` [ pure (info 2 5) `leaf` "foo" ], pure (info 8 11) `leaf` "bar" ]) `shouldBe` prettyDiff sources
[ Join (That (info 0 2 `branch` [ info 0 2 `branch` [] ]))
, Join (These (info 0 8 `branch` [ info 0 7 `branch` [ info 2 5 `leaf` "foo" ] ])
(info 2 6 `branch` [ info 2 6 `branch` [ info 2 5 `leaf` "foo" ] ]))
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, Join (That (info 6 8 `branch` [ info 6 7 `branch` [] ]))
, Join (These (info 8 12 `branch` [ info 8 11 `leaf` "bar" ])
(info 8 12 `branch` [ info 8 11 `leaf` "bar" ]))
, Join (These (info 12 12 `branch` [])
(info 12 12 `branch` []))
]
it "aligns identical branches with multiple children on the same line" $
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let sources = pure (Source.fromList "[ foo, bar ]") in
align sources (pure (info 0 12) `branch` [ pure (info 2 5) `leaf` "foo", pure (info 7 10) `leaf` "bar" ]) `shouldBe` prettyDiff sources
[ Join (runBothWith These (pure (info 0 12 `branch` [ info 2 5 `leaf` "foo", info 7 10 `leaf` "bar" ])) ) ]
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it "aligns insertions" $
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let sources = both (Source.fromList "a") (Source.fromList "a\nb") in
align sources (both (info 0 1) (info 0 3) `branch` [ pure (info 0 1) `leaf` "a", insert (info 2 3 `leaf` "b") ]) `shouldBe` prettyDiff sources
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[ Join (These (info 0 1 `branch` [ info 0 1 `leaf` "a" ])
(info 0 2 `branch` [ info 0 1 `leaf` "a" ]))
, Join (That (info 2 3 `branch` [ insert (info 2 3 `leaf` "b") ]))
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]
it "aligns total insertions" $
let sources = both (Source.fromList "") (Source.fromList "a") in
align sources (insert (info 0 1 `leaf` "a")) `shouldBe` prettyDiff sources
[ Join (That (insert (info 0 1 `leaf` "a"))) ]
it "aligns insertions into empty branches" $
let sources = both (Source.fromList "[ ]") (Source.fromList "[a]") in
align sources (pure (info 0 3) `branch` [ insert (info 1 2 `leaf` "a") ]) `shouldBe` prettyDiff sources
[ Join (That (info 0 3 `branch` [ insert (info 1 2 `leaf` "a") ]))
, Join (This (info 0 3 `branch` []))
]
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it "aligns symmetrically following insertions" $
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let sources = both (Source.fromList "a\nc") (Source.fromList "a\nb\nc") in
align sources (both (info 0 3) (info 0 5) `branch` [ pure (info 0 1) `leaf` "a", insert (info 2 3 `leaf` "b"), both (info 2 3) (info 4 5) `leaf` "c" ])
`shouldBe` prettyDiff sources
[ Join (These (info 0 2 `branch` [ info 0 1 `leaf` "a" ])
(info 0 2 `branch` [ info 0 1 `leaf` "a" ]))
, Join (That (info 2 4 `branch` [ insert (info 2 3 `leaf` "b") ]))
, Join (These (info 2 3 `branch` [ info 2 3 `leaf` "c" ])
(info 4 5 `branch` [ info 4 5 `leaf` "c" ]))
]
it "symmetrical nodes force the alignment of asymmetrical nodes on both sides" $
let sources = both (Source.fromList "[ a, b ]") (Source.fromList "[ b, c ]") in
align sources (pure (info 0 8) `branch` [ delete (info 2 3 `leaf` "a"), both (info 5 6) (info 2 3) `leaf` "b", insert (info 5 6 `leaf` "c") ]) `shouldBe` prettyDiff sources
[ Join (These (info 0 8 `branch` [ delete (info 2 3 `leaf` "a"), info 5 6 `leaf` "b" ])
(info 0 8 `branch` [ info 2 3 `leaf` "b", insert (info 5 6 `leaf` "c") ])) ]
it "when one of two symmetrical nodes must be split, splits the latter" $
let sources = both (Source.fromList "[ a, b ]") (Source.fromList "[ a\n, b\n]") in
align sources (both (info 0 8) (info 0 9) `branch` [ pure (info 2 3) `leaf` "a", both (info 5 6) (info 6 7) `leaf` "b" ]) `shouldBe` prettyDiff sources
[ Join (These (info 0 8 `branch` [ info 2 3 `leaf` "a", info 5 6 `leaf` "b" ])
(info 0 4 `branch` [ info 2 3 `leaf` "a" ]))
, Join (That (info 4 8 `branch` [ info 6 7 `leaf` "b" ]))
, Join (That (info 8 9 `branch` []))
]
it "aligns deletions before insertions" $
let sources = both (Source.fromList "[ a ]") (Source.fromList "[ b ]") in
align sources (pure (info 0 5) `branch` [ delete (info 2 3 `leaf` "a"), insert (info 2 3 `leaf` "b") ]) `shouldBe` prettyDiff sources
[ Join (This (info 0 5 `branch` [ delete (info 2 3 `leaf` "a") ]))
, Join (That (info 0 5 `branch` [ insert (info 2 3 `leaf` "b") ]))
]
it "aligns context-only lines symmetrically" $
let sources = both (Source.fromList "[\n a\n,\n b\n]") (Source.fromList "[\n a, b\n\n\n]") in
align sources (both (info 0 13) (info 0 12) `branch` [ pure (info 4 5) `leaf` "a", both (info 10 11) (info 7 8) `leaf` "b" ]) `shouldBe` prettyDiff sources
[ Join (These (info 0 2 `branch` [])
(info 0 2 `branch` []))
, Join (These (info 2 6 `branch` [ info 4 5 `leaf` "a" ])
(info 2 9 `branch` [ info 4 5 `leaf` "a", info 7 8 `leaf` "b" ]))
, Join (These (info 6 8 `branch` [])
(info 9 10 `branch` []))
, Join (This (info 8 12 `branch` [ info 10 11 `leaf` "b" ]))
, Join (These (info 12 13 `branch` [])
(info 10 11 `branch` []))
, Join (That (info 11 12 `branch` []))
]
it "aligns asymmetrical nodes preceding their symmetrical siblings conservatively" $
let sources = both (Source.fromList "[ b, c ]") (Source.fromList "[ a\n, c\n]") in
align sources (both (info 0 8) (info 0 9) `branch` [ insert (info 2 3 `leaf` "a"), delete (info 2 3 `leaf` "b"), both (info 5 6) (info 6 7) `leaf` "c" ]) `shouldBe` prettyDiff sources
[ Join (That (info 0 4 `branch` [ insert (info 2 3 `leaf` "a") ]))
, Join (These (info 0 8 `branch` [ delete (info 2 3 `leaf` "b"), info 5 6 `leaf` "c" ])
(info 4 8 `branch` [ info 6 7 `leaf` "c" ]))
, Join (That (info 8 9 `branch` []))
]
it "aligns symmetrical reformatted nodes" $
let sources = both (Source.fromList "a [ b ]\nc") (Source.fromList "a [\nb\n]\nc") in
align sources (pure (info 0 9) `branch` [ pure (info 0 1) `leaf` "a", pure (info 2 7) `branch` [ pure (info 4 5) `leaf` "b" ], pure (info 8 9) `leaf` "c" ]) `shouldBe` prettyDiff sources
[ Join (These (info 0 8 `branch` [ info 0 1 `leaf` "a", info 2 7 `branch` [ info 4 5 `leaf` "b" ] ])
(info 0 4 `branch` [ info 0 1 `leaf` "a", info 2 4 `branch` [] ]))
, Join (That (info 4 6 `branch` [ info 4 6 `branch` [ info 4 5 `leaf` "b" ] ]))
, Join (That (info 6 8 `branch` [ info 6 7 `branch` [] ]))
, Join (These (info 8 9 `branch` [ info 8 9 `leaf` "c" ])
(info 8 9 `branch` [ info 8 9 `leaf` "c" ]))
]
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describe "numberedRows" $ do
prop "counts only non-empty values" $
\ xs -> counts (numberedRows (xs :: [Join These Char])) `shouldBe` length . catMaybes <$> Join (unalign (runJoin <$> xs))
data BranchElement
= Child String (Join These String)
| Margin (Join These String)
deriving Show
branchElementKey :: BranchElement -> Maybe String
branchElementKey (Child key _) = Just key
branchElementKey _ = Nothing
toAlignBranchInputs :: [BranchElement] -> (Both (Source.Source Char), [Join These (String, Range)], Both [Range])
toAlignBranchInputs elements = (sources, join . (`evalState` both 0 0) . traverse go $ elements, ranges)
where go :: BranchElement -> State (Both Int) [Join These (String, Range)]
go child@(Child key _) = do
lines <- traverse (\ (Child _ contents) -> do
prev <- get
let next = (+) <$> prev <*> modifyJoin (fromThese 0 0) (length <$> contents)
put next
pure $! modifyJoin (runBothWith bimap (const <$> (Range <$> prev <*> next))) contents) (alignBranchElement child)
pure $! fmap ((,) key) <$> lines
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go (Margin contents) = do
prev <- get
put $ (+) <$> prev <*> modifyJoin (fromThese 0 0) (length <$> contents)
pure []
alignBranchElement element = case element of
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Child key contents -> Child key <$> joinCrosswalk lines contents
Margin contents -> Margin <$> joinCrosswalk lines contents
where lines = fmap toList . Source.actualLines . Source.fromList
sources = foldMap Source.fromList <$> bothContents elements
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ranges = fmap (filter (\ (Range start end) -> start /= end)) $ Source.actualLineRanges <$> (totalRange <$> sources) <*> sources
bothContents = foldMap (modifyJoin (fromThese [] []) . fmap (:[]) . branchElementContents)
branchElementContents (Child _ contents) = contents
branchElementContents (Margin contents) = contents
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keysOfAlignedChildren :: [Join These (Range, [(String, Range)])] -> [String]
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keysOfAlignedChildren lines = lines >>= these identity identity (<>) . runJoin . fmap (fmap Prologue.fst . Prologue.snd)
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joinCrosswalk :: Bicrosswalk p => Align f => (a -> f b) -> Join p a -> f (Join p b)
joinCrosswalk f = fmap Join . bicrosswalk f f . runJoin
instance Arbitrary BranchElement where
arbitrary = oneof [ key >>= \ key -> Child key <$> joinTheseOf (contents key)
, Margin <$> joinTheseOf margin ]
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where key = listOf1 (elements (['a'..'z'] <> ['A'..'Z'] <> ['0'..'9']))
contents key = wrap key <$> listOf (padding '*')
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wrap key contents = "(" <> key <> contents <> ")" :: String
margin = listOf (padding '-')
padding char = frequency [ (10, pure char)
, (1, pure '\n') ]
joinTheseOf g = oneof [ Join . This <$> g
, Join . That <$> g
, (Join .) . These <$> g <*> g ]
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shrink (Child key contents) = Child key <$> joinCrosswalk shrinkContents contents
where shrinkContents string = (++ suffix) . (prefix ++) <$> shrinkList (const []) (drop (length prefix) (take (length string - length suffix) string))
(prefix, suffix) = ('(' : key, ")" :: String)
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shrink (Margin contents) = Margin <$> joinCrosswalk (shrinkList (const [])) contents
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counts :: [Join These (Int, a)] -> Both Int
counts numbered = fromMaybe 0 . getLast . mconcat . fmap Last <$> Join (unalign (runJoin . fmap Prologue.fst <$> numbered))
align :: Both (Source.Source Char) -> ConstructibleFree (Patch (Term (Syntax String) (Record '[Range]))) (Both (Record '[Range])) -> PrettyDiff (SplitDiff (Syntax String) (Record '[Range]))
align sources = PrettyDiff sources . fmap (fmap (getRange &&& identity)) . alignDiff sources . deconstruct
info :: Int -> Int -> Record '[Range]
info start end = Range start end .: RNil
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prettyDiff :: Both (Source.Source Char) -> [Join These (ConstructibleFree (SplitPatch (Term (Syntax String) (Record '[Range]))) (Record '[Range]))] -> PrettyDiff (SplitDiff (Syntax String) (Record '[Range]))
prettyDiff sources = PrettyDiff sources . fmap (fmap ((getRange &&& identity) . deconstruct))
data PrettyDiff a = PrettyDiff { unPrettySources :: Both (Source.Source Char), unPrettyLines :: [Join These (Range, a)] }
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deriving Eq
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instance Show (PrettyDiff a) where
showsPrec _ (PrettyDiff sources lines) = (prettyPrinted ++) -- . (("\n" ++ show lines) ++)
where prettyPrinted = showLine (maximum (0 : (maximum . fmap length <$> shownLines))) <$> shownLines >>= ('\n':)
shownLines = catMaybes $ toBoth <$> lines
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showLine n line = uncurry ((<>) . (++ " | ")) (fromThese (replicate n ' ') (replicate n ' ') (runJoin (pad n <$> line)))
showDiff (range, _) = filter (/= '\n') . toList . Source.slice range
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pad n string = (<>) (take n string) (replicate (max 0 (n - length string)) ' ')
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toBoth them = showDiff <$> them `applyThese` modifyJoin (uncurry These) sources
newtype ConstructibleFree patch annotation = ConstructibleFree { deconstruct :: Free (CofreeF (Syntax String) annotation) patch }
class PatchConstructible p where
insert :: Term (Syntax String) (Record '[Range]) -> p
delete :: Term (Syntax String) (Record '[Range]) -> p
instance PatchConstructible (Patch (Term (Syntax String) (Record '[Range]))) where
insert = Insert
delete = Delete
instance PatchConstructible (SplitPatch (Term (Syntax String) (Record '[Range]))) where
insert = SplitInsert
delete = SplitDelete
instance PatchConstructible patch => PatchConstructible (ConstructibleFree patch annotation) where
insert = ConstructibleFree . pure . insert
delete = ConstructibleFree . pure . delete
class SyntaxConstructible s where
leaf :: annotation -> String -> s annotation
branch :: annotation -> [s annotation] -> s annotation
instance SyntaxConstructible (ConstructibleFree patch) where
leaf info = ConstructibleFree . free . Free . (info :<) . Leaf
branch info = ConstructibleFree . free . Free . (info :<) . Indexed . fmap deconstruct
instance SyntaxConstructible (Cofree (Syntax String)) where
info `leaf` value = cofree $ info :< Leaf value
info `branch` children = cofree $ info :< Indexed children