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module SplitSpec where
import Test.Hspec
import Split
import qualified Data.Set as Set
import Diff
import Range
import Test.Hspec.QuickCheck
import Test.QuickCheck hiding ( Fixed )
import Control.Comonad.Cofree
import Control.Monad.Free hiding ( unfold )
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import qualified Data.Maybe as Maybe
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import Patch
import Syntax
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import ArbitraryTerm
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instance Arbitrary a => Arbitrary ( Row a ) where
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arbitrary = oneof [
Row <$> arbitrary <*> arbitrary ]
instance Arbitrary HTML where
arbitrary = oneof [
Text <$> arbitrary ,
Span <$> arbitrary <*> arbitrary ,
const Break <$> ( arbitrary :: Gen () ) ]
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instance Arbitrary a => Arbitrary ( Line a ) where
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arbitrary = oneof [
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Line <$> arbitrary ,
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const EmptyLine <$> ( arbitrary :: Gen () ) ]
spec :: Spec
spec = do
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describe " splitAnnotatedByLines " $ do
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prop " outputs one row for single-line unchanged leaves " $
\ a -> let source = filter ( /= '\ n' ) a
range = totalRange source in
splitAnnotatedByLines ( source , source ) ( range , range ) ( mempty , mempty ) ( Leaf a ) ` shouldBe ` [
Row ( Line [ Free $ Annotated ( Info range mempty ) $ Leaf a ] ) ( Line [ Free $ Annotated ( Info range mempty ) $ Leaf a ] ) ]
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describe " annotatedToRows " $ do
it " outputs one row for single-line unchanged leaves " $
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annotatedToRows ( unchanged " a " " leaf " ( Leaf " " ) ) " a " " a " ` shouldBe ` [ Row ( Line [ span " a " ] ) ( Line [ span " a " ] ) ]
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it " outputs one row for single-line empty unchanged indexed nodes " $
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annotatedToRows ( unchanged " [] " " branch " ( Indexed [] ) ) " [] " " [] " ` shouldBe ` [ Row ( Line [ Ul ( Just " category-branch " ) [ Text " [] " ] ] ) ( Line [ Ul ( Just " category-branch " ) [ Text " [] " ] ] ) ]
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it " outputs one row for single-line non-empty unchanged indexed nodes " $
annotatedToRows ( unchanged " [ a, b ] " " branch " ( Indexed [
Free . offsetAnnotated 2 2 $ unchanged " a " " leaf " ( Leaf " " ) ,
Free . offsetAnnotated 5 5 $ unchanged " b " " leaf " ( Leaf " " )
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] ) ) " [ a, b ] " " [ a, b ] " ` shouldBe ` [ Row ( Line [ Ul ( Just " category-branch " ) [ Text " [ " , span " a " , Text " , " , span " b " , Text " ] " ] ] ) ( Line [ Ul ( Just " category-branch " ) [ Text " [ " , span " a " , Text " , " , span " b " , Text " ] " ] ] ) ]
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it " outputs one row for single-line non-empty formatted indexed nodes " $
annotatedToRows ( formatted " [ a, b ] " " [ a, b ] " " branch " ( Indexed [
Free . offsetAnnotated 2 2 $ unchanged " a " " leaf " ( Leaf " " ) ,
Free . offsetAnnotated 5 6 $ unchanged " b " " leaf " ( Leaf " " )
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] ) ) " [ a, b ] " " [ a, b ] " ` shouldBe ` [ Row ( Line [ Ul ( Just " category-branch " ) [ Text " [ " , span " a " , Text " , " , span " b " , Text " ] " ] ] ) ( Line [ Ul ( Just " category-branch " ) [ Text " [ " , span " a " , Text " , " , span " b " , Text " ] " ] ] ) ]
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it " outputs two rows for two-line non-empty unchanged indexed nodes " $
annotatedToRows ( unchanged " [ a, \ n b ] " " branch " ( Indexed [
Free . offsetAnnotated 2 2 $ unchanged " a " " leaf " ( Leaf " " ) ,
Free . offsetAnnotated 5 5 $ unchanged " b " " leaf " ( Leaf " " )
] ) ) " [ a, \ n b ] " " [ a, \ n b ] " ` shouldBe `
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[
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Row ( Line [ Ul ( Just " category-branch " ) [ Text " [ " , span " a " , Text " , " , Break ] ] )
( Line [ Ul ( Just " category-branch " ) [ Text " [ " , span " a " , Text " , " , Break ] ] ) ,
Row ( Line [ Ul ( Just " category-branch " ) [ span " b " , Text " ] " ] ] )
( Line [ Ul ( Just " category-branch " ) [ span " b " , Text " ] " ] ] )
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]
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it " outputs two rows for two-line non-empty formatted indexed nodes " $
annotatedToRows ( formatted " [ a, \ n b ] " " [ \ n a, \ n b ] " " branch " ( Indexed [
Free . offsetAnnotated 2 2 $ unchanged " a " " leaf " ( Leaf " " ) ,
Free . offsetAnnotated 5 5 $ unchanged " b " " leaf " ( Leaf " " )
] ) ) " [ a, \ n b ] " " [ \ n a, \ n b ] " ` shouldBe `
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[
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Row ( Line [ Ul ( Just " category-branch " ) [ Text " [ " , span " a " , Text " , " , Break ] ] )
( Line [ Ul ( Just " category-branch " ) [ Text " [ " , Break ] ] ) ,
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Row EmptyLine
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( Line [ Ul ( Just " category-branch " ) [ span " a " , Text " , " , Break ] ] ) ,
Row ( Line [ Ul ( Just " category-branch " ) [ span " b " , Text " ] " ] ] )
( Line [ Ul ( Just " category-branch " ) [ span " b " , Text " ] " ] ] )
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]
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it " " $
let ( sourceA , sourceB ) = ( " [ \ n a \ n , \ n b] " , " [a,b] " ) in
annotatedToRows ( formatted sourceA sourceB " branch " ( Indexed [
Free . offsetAnnotated 2 1 $ unchanged " a " " leaf " ( Leaf " " ) ,
Free . offsetAnnotated 6 3 $ unchanged " b " " leaf " ( Leaf " " )
] ) ) sourceA sourceB ` shouldBe `
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[
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Row ( Line [ Ul ( Just " category-branch " ) [ Text " [ " , Break ] ] )
( Line [ Ul ( Just " category-branch " ) [ Text " [ " , span " a " , Text " , " , span " b " , Text " ] " ] ] ) ,
Row ( Line [ Ul ( Just " category-branch " ) [ span " a " , Break ] ] )
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EmptyLine ,
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Row ( Line [ Ul ( Just " category-branch " ) [ Text " , " , Break ] ] )
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EmptyLine ,
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Row ( Line [ Ul ( Just " category-branch " ) [ span " b " , Text " ] " ] ] )
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EmptyLine
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]
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it " splits multi-line deletions across multiple rows " $
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let ( sourceA , sourceB ) = ( " /* \ n */ \ n a " , " a " ) in
annotatedToRows ( formatted sourceA sourceB " branch " ( Indexed [
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Pure . Delete $ ( Info ( Range 0 5 ) ( Set . fromList [ " leaf " ] ) :< Leaf " " ) ,
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Free . offsetAnnotated 6 0 $ unchanged " a " " leaf " ( Leaf " " )
] ) ) sourceA sourceB ` shouldBe `
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[
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Row ( Line [ Ul ( Just " category-branch " ) [ Div ( Just " delete " ) [ span " /* " , Break ] ] ] ) EmptyLine ,
Row ( Line [ Ul ( Just " category-branch " ) [ Div ( Just " delete " ) [ span " */ " ] , Break ] ] ) EmptyLine ,
Row ( Line [ Ul ( Just " category-branch " ) [ span " a " ] ] ) ( Line [ Ul ( Just " category-branch " ) [ span " a " ] ] )
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]
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describe " unicode " $
it " equivalent precomposed and decomposed characters are not equal " $
let ( sourceA , sourceB ) = ( " t \ 776 " , " \ 7831 " )
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syntax = Leaf . Pure $ Replace ( info sourceA " leaf " :< Leaf " " ) ( info sourceB " leaf " :< Leaf " " )
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in
annotatedToRows ( formatted sourceA sourceB " leaf " syntax ) sourceA sourceB ` shouldBe `
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[ Row ( Line [ span " t \ 776 " ] ) ( Line [ span " \ 7831 " ] ) ]
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describe " adjoinRowsBy " $ do
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prop " is identity on top of no rows " $
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\ a -> adjoinRowsBy openElement openElement [] a == [ a ]
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prop " appends onto open rows " $
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forAll ( ( arbitrary ` suchThat ` isOpen ) >>= \ a -> ( , ) a <$> ( arbitrary ` suchThat ` isOpen ) ) $
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\ ( a @ ( Row ( Line a1 ) ( Line b1 ) ) , b @ ( Row ( Line a2 ) ( Line b2 ) ) ) ->
adjoinRowsBy openElement openElement [ a ] b ` shouldBe ` [ Row ( Line $ a1 ++ a2 ) ( Line $ b1 ++ b2 ) ]
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prop " does not append onto closed rows " $
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forAll ( ( arbitrary ` suchThat ` isClosed ) >>= \ a -> ( , ) a <$> ( arbitrary ` suchThat ` isClosed ) ) $
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\ ( a , b ) -> adjoinRowsBy openElement openElement [ a ] b ` shouldBe ` [ b , a ]
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prop " does not promote elements through empty lines onto closed lines " $
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forAll ( ( arbitrary ` suchThat ` isClosed ) >>= \ a -> ( , ) a <$> ( arbitrary ` suchThat ` isClosed ) ) $
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\ ( a , b ) -> adjoinRowsBy openElement openElement [ Row EmptyLine EmptyLine , a ] b ` shouldBe ` [ b , Row EmptyLine EmptyLine , a ]
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prop " promotes elements through empty lines onto open lines " $
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forAll ( ( arbitrary ` suchThat ` isOpen ) >>= \ a -> ( , ) a <$> ( arbitrary ` suchThat ` isOpen ) ) $
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\ ( a , b ) -> adjoinRowsBy openElement openElement [ Row EmptyLine EmptyLine , a ] b ` shouldBe ` Row EmptyLine EmptyLine : adjoinRowsBy openElement openElement [ a ] b
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describe " termToLines " $ do
it " splits multi-line terms into multiple lines " $
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termToLines ( Info ( Range 0 5 ) ( Set . singleton " leaf " ) :< Leaf " " ) " /* \ n */ "
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` shouldBe `
( [
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Line [ span " /* " , Break ] ,
Line [ span " */ " ]
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] , Range 0 5 )
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describe " splitTermByLines " $ do
it " splits multi-line terms into multiple lines " $
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splitTermByLines ( Info ( Range 0 5 ) mempty :< Leaf " " ) " /* \ n */ "
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` shouldBe `
( [
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Line [ Info ( Range 0 3 ) mempty :< Leaf " " ] ,
Line [ Info ( Range 3 5 ) mempty :< Leaf " " ]
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] , Range 0 5 )
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describe " openLineBy " $ do
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it " produces the earliest non-empty line in a list, if open " $
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openLineBy openElement [
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Line [ Div ( Just " delete " ) [ span " */ " ] ] ,
Line [ Div ( Just " delete " ) [ span " * Debugging " , Break ] ] ,
Line [ Div ( Just " delete " ) [ span " /* " , Break ] ]
] ` shouldBe ` ( Just $ Line [ Div ( Just " delete " ) [ span " */ " ] ] )
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it " produces the earliest non-empty line in a list, if open " $
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openLineBy ( openTerm " \ n " ) [
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Line [ Info ( Range 1 2 ) mempty :< Leaf " " ] ,
Line [ Info ( Range 0 1 ) mempty :< Leaf " " ]
] ` shouldBe ` ( Just $ Line [ Info ( Range 1 2 ) mempty :< Leaf " " ] )
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it " returns Nothing if the earliest non-empty line is closed " $
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openLineBy openElement [
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Line [ Div ( Just " delete " ) [ span " * Debugging " , Break ] ]
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] ` shouldBe ` Nothing
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it " returns Nothing if the earliest non-empty line is closed " $
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openLineBy ( openTerm " \ n " ) [
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Line [ Info ( Range 0 1 ) mempty :< Leaf " " ]
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] ` shouldBe ` Nothing
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describe " openTerm " $ do
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it " returns Just the term if its substring does not end with a newline " $
let term = Info ( Range 0 2 ) mempty :< Leaf " " in openTerm " " term ` shouldBe ` Just term
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it " returns Nothing for terms whose substring ends with a newline " $
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openTerm " \ n " ( Info ( Range 0 2 ) mempty :< Leaf " " ) ` shouldBe ` Nothing
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where
rightRowText text = rightRow [ Text text ]
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rightRow xs = Row EmptyLine ( Line xs )
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leftRowText text = leftRow [ Text text ]
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leftRow xs = Row ( Line xs ) EmptyLine
rowText a b = Row ( Line [ Text a ] ) ( Line [ Text b ] )
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info source category = Info ( totalRange source ) ( Set . fromList [ category ] )
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unchanged source = formatted source source
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formatted source1 source2 category = Annotated ( info source1 category , info source2 category )
offsetInfo by ( Info ( Range start end ) categories ) = Info ( Range ( start + by ) ( end + by ) ) categories
offsetAnnotated by1 by2 ( Annotated ( left , right ) syntax ) = Annotated ( offsetInfo by1 left , offsetInfo by2 right ) syntax
span = Span ( Just " category-leaf " )
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isOpen ( Row a b ) = Maybe . isJust ( openLineBy openElement [ a ] ) && Maybe . isJust ( openLineBy openElement [ b ] )
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isClosed ( Row a @ ( Line _ ) b @ ( Line _ ) ) = Maybe . isNothing ( openLineBy openElement [ a ] ) && Maybe . isNothing ( openLineBy openElement [ b ] )
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isClosed ( Row _ _ ) = False