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