{-# OPTIONS_HADDOCK not-home #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE DeriveFoldable #-}
{-# LANGUAGE DeriveFunctor #-}
{-# LANGUAGE DeriveTraversable #-}
{-# LANGUAGE DoAndIfThenElse #-}
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE TupleSections #-}
module Hedgehog.Internal.Report (
Summary(..)
, Report(..)
, Progress(..)
, Result(..)
, FailureReport(..)
, FailedAnnotation(..)
, Style(..)
, Markup(..)
, renderProgress
, renderResult
, renderSummary
, renderDoc
, ppProgress
, ppResult
, ppSummary
, fromResult
, mkFailure
) where
import Control.Monad (zipWithM)
import Control.Monad.IO.Class (MonadIO(..))
import Control.Monad.Trans.Maybe (MaybeT(..))
import Data.Bifunctor (bimap, first, second)
import qualified Data.Char as Char
import Data.Either (partitionEithers)
import qualified Data.List as List
import Data.Map (Map)
import qualified Data.Map as Map
import Data.Maybe (mapMaybe, catMaybes)
import Data.Semigroup (Semigroup(..))
import Data.Traversable (for)
import Hedgehog.Internal.Config
import Hedgehog.Internal.Discovery (Pos(..), Position(..))
import qualified Hedgehog.Internal.Discovery as Discovery
import Hedgehog.Internal.Property (Coverage(..), Label(..), LabelName(..))
import Hedgehog.Internal.Property (CoverCount(..), CoverPercentage(..))
import Hedgehog.Internal.Property (PropertyName(..), Log(..), Diff(..))
import Hedgehog.Internal.Property (ShrinkCount(..), PropertyCount(..))
import Hedgehog.Internal.Property (TestCount(..), DiscardCount(..))
import Hedgehog.Internal.Property (coverPercentage, coverageFailures)
import Hedgehog.Internal.Property (labelCovered)
import Hedgehog.Internal.Seed (Seed)
import Hedgehog.Internal.Show
import Hedgehog.Internal.Source
import Hedgehog.Range (Size)
import System.Console.ANSI (ColorIntensity(..), Color(..))
import System.Console.ANSI (ConsoleLayer(..), ConsoleIntensity(..))
import System.Console.ANSI (SGR(..), setSGRCode)
import System.Directory (makeRelativeToCurrentDirectory)
#if mingw32_HOST_OS
import System.IO (hSetEncoding, stdout, stderr, utf8)
#endif
import Text.PrettyPrint.Annotated.WL (Doc, (<+>))
import qualified Text.PrettyPrint.Annotated.WL as WL
import Text.Printf (printf)
data FailedAnnotation =
FailedAnnotation {
failedSpan :: !(Maybe Span)
, failedValue :: !String
} deriving (Eq, Show)
data FailureReport =
FailureReport {
failureSize :: !Size
, failureSeed :: !Seed
, failureShrinks :: !ShrinkCount
, failureCoverage :: !(Maybe (Coverage CoverCount))
, failureAnnotations :: ![FailedAnnotation]
, failureLocation :: !(Maybe Span)
, failureMessage :: !String
, failureDiff :: !(Maybe Diff)
, failureFootnotes :: ![String]
} deriving (Eq, Show)
data Progress =
Running
| Shrinking !FailureReport
deriving (Eq, Show)
data Result =
Failed !FailureReport
| GaveUp
| OK
deriving (Eq, Show)
data Report a =
Report {
reportTests :: !TestCount
, reportDiscards :: !DiscardCount
, reportCoverage :: !(Coverage CoverCount)
, reportStatus :: !a
} deriving (Show, Functor, Foldable, Traversable)
data Summary =
Summary {
summaryWaiting :: !PropertyCount
, summaryRunning :: !PropertyCount
, summaryFailed :: !PropertyCount
, summaryGaveUp :: !PropertyCount
, summaryOK :: !PropertyCount
} deriving (Show)
instance Monoid Summary where
mempty =
Summary 0 0 0 0 0
mappend (Summary x1 x2 x3 x4 x5) (Summary y1 y2 y3 y4 y5) =
Summary
(x1 + y1)
(x2 + y2)
(x3 + y3)
(x4 + y4)
(x5 + y5)
instance Semigroup Summary where
(<>) = mappend
fromResult :: Result -> Summary
fromResult = \case
Failed _ ->
mempty { summaryFailed = 1 }
GaveUp ->
mempty { summaryGaveUp = 1 }
OK ->
mempty { summaryOK = 1 }
summaryCompleted :: Summary -> PropertyCount
summaryCompleted (Summary _ _ x3 x4 x5) =
x3 + x4 + x5
summaryTotal :: Summary -> PropertyCount
summaryTotal (Summary x1 x2 x3 x4 x5) =
x1 + x2 + x3 + x4 + x5
data Line a =
Line {
_lineAnnotation :: !a
, lineNumber :: !LineNo
, _lineSource :: !String
} deriving (Eq, Ord, Show, Functor)
data Declaration a =
Declaration {
declarationFile :: !FilePath
, declarationLine :: !LineNo
, _declarationName :: !String
, declarationSource :: !(Map LineNo (Line a))
} deriving (Eq, Ord, Show, Functor)
data Style =
StyleDefault
| StyleAnnotation
| StyleFailure
deriving (Eq, Ord, Show)
data Markup =
WaitingIcon
| WaitingHeader
| RunningIcon
| RunningHeader
| ShrinkingIcon
| ShrinkingHeader
| FailedIcon
| FailedText
| GaveUpIcon
| GaveUpText
| SuccessIcon
| SuccessText
| CoverageIcon
| CoverageText
| CoverageFill
| DeclarationLocation
| StyledLineNo !Style
| StyledBorder !Style
| StyledSource !Style
| AnnotationGutter
| AnnotationValue
| FailureArrows
| FailureGutter
| FailureMessage
| DiffPrefix
| DiffInfix
| DiffSuffix
| DiffSame
| DiffRemoved
| DiffAdded
| ReproduceHeader
| ReproduceGutter
| ReproduceSource
deriving (Eq, Ord, Show)
instance Semigroup Style where
(<>) x y =
case (x, y) of
(StyleFailure, _) ->
StyleFailure
(_, StyleFailure) ->
StyleFailure
(StyleAnnotation, _) ->
StyleAnnotation
(_, StyleAnnotation) ->
StyleAnnotation
(StyleDefault, _) ->
StyleDefault
takeAnnotation :: Log -> Maybe FailedAnnotation
takeAnnotation = \case
Annotation loc val ->
Just $ FailedAnnotation loc val
_ ->
Nothing
takeFootnote :: Log -> Maybe String
takeFootnote = \case
Footnote x ->
Just x
_ ->
Nothing
mkFailure ::
Size
-> Seed
-> ShrinkCount
-> Maybe (Coverage CoverCount)
-> Maybe Span
-> String
-> Maybe Diff
-> [Log]
-> FailureReport
mkFailure size seed shrinks mcoverage location message diff logs =
let
inputs =
mapMaybe takeAnnotation logs
footnotes =
mapMaybe takeFootnote logs
in
FailureReport size seed shrinks mcoverage inputs location message diff footnotes
ppShow :: Show x => x -> Doc a
ppShow =
WL.text . show
markup :: Markup -> Doc Markup -> Doc Markup
markup =
WL.annotate
gutter :: Markup -> Doc Markup -> Doc Markup
gutter m x =
markup m ">" <+> x
icon :: Markup -> Char -> Doc Markup -> Doc Markup
icon m i x =
markup m (WL.char i) <+> x
ppTestCount :: TestCount -> Doc a
ppTestCount = \case
TestCount 1 ->
"1 test"
TestCount n ->
ppShow n <+> "tests"
ppDiscardCount :: DiscardCount -> Doc a
ppDiscardCount = \case
DiscardCount 1 ->
"1 discard"
DiscardCount n ->
ppShow n <+> "discards"
ppShrinkCount :: ShrinkCount -> Doc a
ppShrinkCount = \case
ShrinkCount 1 ->
"1 shrink"
ShrinkCount n ->
ppShow n <+> "shrinks"
ppRawPropertyCount :: PropertyCount -> Doc a
ppRawPropertyCount (PropertyCount n) =
ppShow n
ppWithDiscardCount :: DiscardCount -> Doc Markup
ppWithDiscardCount = \case
DiscardCount 0 ->
mempty
n ->
" with" <+> ppDiscardCount n
ppShrinkDiscard :: ShrinkCount -> DiscardCount -> Doc Markup
ppShrinkDiscard s d =
case (s, d) of
(0, 0) ->
""
(0, _) ->
" and" <+> ppDiscardCount d
(_, 0) ->
" and" <+> ppShrinkCount s
(_, _) ->
"," <+> ppShrinkCount s <+> "and" <+> ppDiscardCount d
mapSource :: (Map LineNo (Line a) -> Map LineNo (Line a)) -> Declaration a -> Declaration a
mapSource f decl =
decl {
declarationSource =
f (declarationSource decl)
}
lineSpan :: Line a -> (ColumnNo, ColumnNo)
lineSpan (Line _ _ x0) =
let
(pre, x1) =
span Char.isSpace x0
(_, x2) =
span Char.isSpace (reverse x1)
start =
length pre
end =
start + length x2
in
(fromIntegral start, fromIntegral end)
takeLines :: Span -> Declaration a -> Map LineNo (Line a)
takeLines sloc =
fst . Map.split (spanEndLine sloc + 1) .
snd . Map.split (spanStartLine sloc - 1) .
declarationSource
readDeclaration :: MonadIO m => Span -> m (Maybe (Declaration ()))
readDeclaration sloc =
runMaybeT $ do
path <- liftIO . makeRelativeToCurrentDirectory $ spanFile sloc
(name, Pos (Position _ line0 _) src) <- MaybeT $
Discovery.readDeclaration path (spanEndLine sloc)
let
line =
fromIntegral line0
pure . Declaration path line name .
Map.fromList .
zip [line..] .
zipWith (Line ()) [line..] $
lines src
defaultStyle :: Declaration a -> Declaration (Style, [(Style, Doc Markup)])
defaultStyle =
fmap $ const (StyleDefault, [])
lastLineSpan :: Monad m => Span -> Declaration a -> MaybeT m (ColumnNo, ColumnNo)
lastLineSpan sloc decl =
case reverse . Map.elems $ takeLines sloc decl of
[] ->
MaybeT $ pure Nothing
x : _ ->
pure $
lineSpan x
ppFailedInputTypedArgument :: Int -> FailedAnnotation -> Doc Markup
ppFailedInputTypedArgument ix (FailedAnnotation _ val) =
WL.vsep [
WL.text "forAll" <> ppShow ix <+> "="
, WL.indent 2 . WL.vsep . fmap (markup AnnotationValue . WL.text) $ lines val
]
ppFailedInputDeclaration ::
MonadIO m
=> FailedAnnotation
-> m (Maybe (Declaration (Style, [(Style, Doc Markup)])))
ppFailedInputDeclaration (FailedAnnotation msloc val) =
runMaybeT $ do
sloc <- MaybeT $ pure msloc
decl <- fmap defaultStyle . MaybeT $ readDeclaration sloc
startCol <- fromIntegral . fst <$> lastLineSpan sloc decl
let
ppValLine =
WL.indent startCol .
(markup AnnotationGutter (WL.text "│ ") <>) .
markup AnnotationValue .
WL.text
valDocs =
fmap ((StyleAnnotation, ) . ppValLine) $
List.lines val
startLine =
fromIntegral $ spanStartLine sloc
endLine =
fromIntegral $ spanEndLine sloc
styleInput kvs =
foldr (Map.adjust . fmap . first $ const StyleAnnotation) kvs [startLine..endLine]
insertDoc =
Map.adjust (fmap . second $ const valDocs) endLine
pure $
mapSource (styleInput . insertDoc) decl
ppFailedInput ::
MonadIO m
=> Int
-> FailedAnnotation
-> m (Either (Doc Markup) (Declaration (Style, [(Style, Doc Markup)])))
ppFailedInput ix input = do
mdecl <- ppFailedInputDeclaration input
case mdecl of
Nothing ->
pure . Left $ ppFailedInputTypedArgument ix input
Just decl ->
pure $ Right decl
ppLineDiff :: LineDiff -> Doc Markup
ppLineDiff = \case
LineSame x ->
markup DiffSame $
" " <> WL.text x
LineRemoved x ->
markup DiffRemoved $
"- " <> WL.text x
LineAdded x ->
markup DiffAdded $
"+ " <> WL.text x
ppDiff :: Diff -> [Doc Markup]
ppDiff (Diff prefix removed infix_ added suffix diff) = [
markup DiffPrefix (WL.text prefix) <>
markup DiffRemoved (WL.text removed) <>
markup DiffInfix (WL.text infix_) <>
markup DiffAdded (WL.text added) <>
markup DiffSuffix (WL.text suffix)
] ++ fmap ppLineDiff (toLineDiff diff)
ppFailureLocation ::
MonadIO m
=> [Doc Markup]
-> Maybe Diff
-> Span
-> m (Maybe (Declaration (Style, [(Style, Doc Markup)])))
ppFailureLocation msgs mdiff sloc =
runMaybeT $ do
decl <- fmap defaultStyle . MaybeT $ readDeclaration sloc
(startCol, endCol) <- bimap fromIntegral fromIntegral <$> lastLineSpan sloc decl
let
arrowDoc =
WL.indent startCol $
markup FailureArrows (WL.text (replicate (endCol - startCol) '^'))
ppFailure x =
WL.indent startCol $
markup FailureGutter (WL.text "│ ") <> x
msgDocs =
fmap ((StyleFailure, ) . ppFailure . markup FailureMessage) msgs
diffDocs =
case mdiff of
Nothing ->
[]
Just diff ->
fmap ((StyleFailure, ) . ppFailure) (ppDiff diff)
docs =
[(StyleFailure, arrowDoc)] ++ msgDocs ++ diffDocs
startLine =
spanStartLine sloc
endLine =
spanEndLine sloc
styleFailure kvs =
foldr (Map.adjust . fmap . first $ const StyleFailure) kvs [startLine..endLine]
insertDoc =
Map.adjust (fmap . second $ const docs) endLine
pure $
mapSource (styleFailure . insertDoc) decl
ppDeclaration :: Declaration (Style, [(Style, Doc Markup)]) -> Doc Markup
ppDeclaration decl =
case Map.maxView $ declarationSource decl of
Nothing ->
mempty
Just (lastLine, _) ->
let
ppLocation =
WL.indent (digits + 1) $
markup (StyledBorder StyleDefault) "┏━━" <+>
markup DeclarationLocation (WL.text (declarationFile decl)) <+>
markup (StyledBorder StyleDefault) "━━━"
digits =
length . show . unLineNo $ lineNumber lastLine
ppLineNo =
WL.text . printf ("%" <> show digits <> "d") . unLineNo
ppEmptyNo =
WL.text $ replicate digits ' '
ppSource style n src =
markup (StyledLineNo style) (ppLineNo n) <+>
markup (StyledBorder style) "┃" <+>
markup (StyledSource style) (WL.text src)
ppAnnot (style, doc) =
markup (StyledLineNo style) ppEmptyNo <+>
markup (StyledBorder style) "┃" <+>
doc
ppLines = do
Line (style, xs) n src <- Map.elems $ declarationSource decl
ppSource style n src : fmap ppAnnot xs
in
WL.vsep (ppLocation : ppLines)
ppReproduce :: Maybe PropertyName -> Size -> Seed -> Doc Markup
ppReproduce name size seed =
WL.vsep [
markup ReproduceHeader
"This failure can be reproduced by running:"
, gutter ReproduceGutter . markup ReproduceSource $
"recheck" <+>
WL.text (showsPrec 11 size "") <+>
WL.text (showsPrec 11 seed "") <+>
maybe "<property>" (WL.text . unPropertyName) name
]
mergeLine :: Semigroup a => Line a -> Line a -> Line a
mergeLine (Line x no src) (Line y _ _) =
Line (x <> y) no src
mergeDeclaration :: Semigroup a => Declaration a -> Declaration a -> Declaration a
mergeDeclaration (Declaration file line name src0) (Declaration _ _ _ src1) =
Declaration file line name $
Map.unionWith mergeLine src0 src1
mergeDeclarations :: Semigroup a => [Declaration a] -> [Declaration a]
mergeDeclarations =
Map.elems .
Map.fromListWith mergeDeclaration .
fmap (\d -> ((declarationFile d, declarationLine d), d))
ppTextLines :: String -> [Doc Markup]
ppTextLines =
fmap WL.text . List.lines
ppFailureReport :: MonadIO m => Maybe PropertyName -> TestCount -> FailureReport -> m [Doc Markup]
ppFailureReport name tests (FailureReport size seed _ mcoverage inputs0 mlocation0 msg mdiff msgs0) = do
(msgs1, mlocation) <-
case mlocation0 of
Nothing ->
let
msgs1 =
msgs0 ++
(if null msg then [] else [msg])
docs =
concatMap ppTextLines msgs1 ++
maybe [] ppDiff mdiff
in
pure (docs, Nothing)
Just location0 ->
fmap (concatMap ppTextLines msgs0,) $
ppFailureLocation (fmap WL.text $ List.lines msg) mdiff location0
coverageLocations <-
case mcoverage of
Nothing ->
pure []
Just coverage ->
for (coverageFailures tests coverage) $ \(MkLabel _ mclocation _ count) ->
case mclocation of
Nothing ->
pure Nothing
Just clocation ->
let
coverageMsg =
WL.cat [
"Failed ("
, WL.annotate CoverageText $
ppCoverPercentage (coverPercentage tests count) <> " coverage"
, ")"
]
in
ppFailureLocation [coverageMsg] Nothing clocation
(args, idecls) <- fmap partitionEithers $ zipWithM ppFailedInput [0..] inputs0
let
decls =
mergeDeclarations .
catMaybes $
mlocation : coverageLocations <> fmap pure idecls
with xs f =
if null xs then
[]
else
[f xs]
whenSome f xs =
if null xs then
xs
else
f xs
bottom =
maybe [ppReproduce name size seed] (const []) mcoverage
pure .
whenSome (mempty :) .
whenSome (++ [mempty]) .
WL.punctuate WL.line .
fmap (WL.vsep . fmap (WL.indent 2)) .
fmap (id :: [Doc Markup] -> [Doc Markup]) .
filter (not . null) $
concat [
with args $
WL.punctuate WL.line
, with decls $
WL.punctuate WL.line . fmap ppDeclaration
, with msgs1 $
id
, with bottom $
id
]
ppName :: Maybe PropertyName -> Doc a
ppName = \case
Nothing ->
"<interactive>"
Just (PropertyName name) ->
WL.text name
ppProgress :: MonadIO m => Maybe PropertyName -> Report Progress -> m (Doc Markup)
ppProgress name (Report tests discards coverage status) =
case status of
Running ->
pure . WL.vsep $ [
icon RunningIcon '●' . WL.annotate RunningHeader $
ppName name <+>
"passed" <+>
ppTestCount tests <>
ppWithDiscardCount discards <+>
"(running)"
] ++
ppCoverage tests coverage
Shrinking failure ->
pure . icon ShrinkingIcon '↯' . WL.annotate ShrinkingHeader $
ppName name <+>
"failed after" <+>
ppTestCount tests <>
ppShrinkDiscard (failureShrinks failure) discards <+>
"(shrinking)"
ppResult :: MonadIO m => Maybe PropertyName -> Report Result -> m (Doc Markup)
ppResult name (Report tests discards coverage result) = do
case result of
Failed failure -> do
pfailure <- ppFailureReport name tests failure
pure . WL.vsep $ [
icon FailedIcon '✗' . WL.annotate FailedText $
ppName name <+>
"failed after" <+>
ppTestCount tests <>
ppShrinkDiscard (failureShrinks failure) discards <>
"."
] ++
ppCoverage tests coverage ++
pfailure
GaveUp ->
pure . WL.vsep $ [
icon GaveUpIcon '⚐' . WL.annotate GaveUpText $
ppName name <+>
"gave up after" <+>
ppDiscardCount discards <>
", passed" <+>
ppTestCount tests <>
"."
] ++
ppCoverage tests coverage
OK ->
pure . WL.vsep $ [
icon SuccessIcon '✓' . WL.annotate SuccessText $
ppName name <+>
"passed" <+>
ppTestCount tests <>
"."
] ++
ppCoverage tests coverage
ppCoverage :: TestCount -> Coverage CoverCount -> [Doc Markup]
ppCoverage tests x =
if Map.null (coverageLabels x) then
mempty
else
fmap (ppLabel tests (coverageWidth tests x)) .
List.sortOn labelLocation $
Map.elems (coverageLabels x)
data ColumnWidth =
ColumnWidth {
widthPercentage :: !Int
, widthMinimum :: !Int
, widthName :: !Int
, _widthNameFail :: !Int
}
instance Semigroup ColumnWidth where
(<>) (ColumnWidth p0 m0 n0 f0) (ColumnWidth p1 m1 n1 f1) =
ColumnWidth
(max p0 p1)
(max m0 m1)
(max n0 n1)
(max f0 f1)
instance Monoid ColumnWidth where
mempty =
ColumnWidth 0 0 0 0
mappend =
(<>)
coverageWidth :: TestCount -> Coverage CoverCount -> ColumnWidth
coverageWidth tests (Coverage labels) =
foldMap (labelWidth tests) labels
labelWidth :: TestCount -> Label CoverCount -> ColumnWidth
labelWidth tests x =
let
percentage =
length .
renderCoverPercentage .
coverPercentage tests $
labelAnnotation x
minimum_ =
if labelMinimum x == 0 then
0
else
length .
renderCoverPercentage $
labelMinimum x
name =
length .
unLabelName $
labelName x
nameFail =
if labelCovered tests x then
0
else
name
in
ColumnWidth percentage minimum_ name nameFail
ppLeftPad :: Int -> Doc a -> Doc a
ppLeftPad n doc =
let
ndoc =
length (show doc)
pad =
WL.text $
List.replicate (n - ndoc) ' '
in
pad <> doc
ppLabel :: TestCount -> ColumnWidth -> Label CoverCount -> Doc Markup
ppLabel tests w x@(MkLabel name _ minimum_ count) =
let
covered =
labelCovered tests x
ltext =
if not covered then
WL.annotate CoverageText
else
id
lborder =
WL.annotate (StyledBorder StyleDefault)
licon =
if not covered then
WL.annotate CoverageText "⚠ "
else
" "
lname =
WL.fill (widthName w) (ppLabelName name)
wminimum =
ppLeftPad (widthMinimum w) $
ppCoverPercentage minimum_
wcover i =
ppLeftPad (widthPercentage w + length i) $
WL.text i <>
ppCoverPercentage (coverPercentage tests count)
lminimum =
if widthMinimum w == 0 then
mempty
else if not covered then
" ✗ " <> wminimum
else if minimum_ == 0 then
" " <> ppLeftPad (widthMinimum w) ""
else
" ✓ " <> wminimum
lcover =
if widthMinimum w == 0 then
wcover ""
else if not covered then
wcover ""
else if minimum_ == 0 then
wcover ""
else
wcover ""
in
WL.hcat [
licon
, ltext lname
, lborder " "
, ltext lcover
, lborder " "
, ltext $ ppCoverBar (coverPercentage tests count) minimum_
, lborder ""
, ltext lminimum
]
ppLabelName :: LabelName -> Doc a
ppLabelName (LabelName name) =
WL.text name
ppCoverPercentage :: CoverPercentage -> Doc Markup
ppCoverPercentage =
WL.text . renderCoverPercentage
ppCoverBar :: CoverPercentage -> CoverPercentage -> Doc Markup
ppCoverBar (CoverPercentage percentage) (CoverPercentage minimum_) =
let
barWidth :: Int
barWidth =
20
coverageRatio :: Double
coverageRatio =
percentage / 100.0
coverageWidth_ :: Int
coverageWidth_ =
floor $
coverageRatio * fromIntegral barWidth
minimumRatio :: Double
minimumRatio =
minimum_ / 100.0
minimumWidth :: Int
minimumWidth =
floor $
minimumRatio * fromIntegral barWidth
index :: [a] -> Int
index xs =
floor $
((coverageRatio * fromIntegral barWidth) - fromIntegral coverageWidth_) *
fromIntegral (length xs)
part xs =
xs !! index xs
fillWidth =
barWidth - coverageWidth_ - 1
fillErrorWidth =
max 0 (minimumWidth - coverageWidth_ - 1)
fillSurplusWidth =
fillWidth - fillErrorWidth
bar :: (Char, [Char]) -> Doc Markup
bar (full, parts) =
WL.hcat [
WL.text $ replicate coverageWidth_ full
, if fillWidth >= 0 then
if index parts == 0 then
if fillErrorWidth > 0 then
WL.annotate FailedText $ WL.text [part parts]
else
WL.annotate CoverageFill $ WL.text [part parts]
else
WL.text [part parts]
else
""
, WL.annotate FailedText . WL.text $
replicate fillErrorWidth (head parts)
, WL.annotate CoverageFill . WL.text $
replicate fillSurplusWidth (head parts)
]
in
bar ('█', ['·', '▏', '▎', '▍', '▌', '▋', '▊', '▉'])
renderCoverPercentage :: CoverPercentage -> String
renderCoverPercentage (CoverPercentage percentage) =
printf "%.0f" percentage <> "%"
ppWhenNonZero :: Doc a -> PropertyCount -> Maybe (Doc a)
ppWhenNonZero suffix n =
if n <= 0 then
Nothing
else
Just $ ppRawPropertyCount n <+> suffix
annotateSummary :: Summary -> Doc Markup -> Doc Markup
annotateSummary summary =
if summaryFailed summary > 0 then
icon FailedIcon '✗' . WL.annotate FailedText
else if summaryGaveUp summary > 0 then
icon GaveUpIcon '⚐' . WL.annotate GaveUpText
else if summaryWaiting summary > 0 || summaryRunning summary > 0 then
icon WaitingIcon '○' . WL.annotate WaitingHeader
else
icon SuccessIcon '✓' . WL.annotate SuccessText
ppSummary :: MonadIO m => Summary -> m (Doc Markup)
ppSummary summary =
let
complete =
summaryCompleted summary == summaryTotal summary
prefix end =
if complete then
mempty
else
ppRawPropertyCount (summaryCompleted summary) <>
"/" <>
ppRawPropertyCount (summaryTotal summary) <+>
"complete" <> end
addPrefix xs =
if null xs then
prefix mempty : []
else
prefix ": " : xs
suffix =
if complete then
"."
else
" (running)"
in
pure .
annotateSummary summary .
(<> suffix) .
WL.hcat .
addPrefix .
WL.punctuate ", " $
catMaybes [
ppWhenNonZero "failed" (summaryFailed summary)
, ppWhenNonZero "gave up" (summaryGaveUp summary)
, if complete then
ppWhenNonZero "succeeded" (summaryOK summary)
else
Nothing
]
renderDoc :: MonadIO m => Maybe UseColor -> Doc Markup -> m String
renderDoc mcolor doc = do
let
dull =
SetColor Foreground Dull
vivid =
SetColor Foreground Vivid
bold =
SetConsoleIntensity BoldIntensity
start = \case
WaitingIcon ->
setSGRCode []
WaitingHeader ->
setSGRCode []
RunningIcon ->
setSGRCode []
RunningHeader ->
setSGRCode []
ShrinkingIcon ->
setSGRCode [vivid Red]
ShrinkingHeader ->
setSGRCode [vivid Red]
FailedIcon ->
setSGRCode [vivid Red]
FailedText ->
setSGRCode [vivid Red]
GaveUpIcon ->
setSGRCode [dull Yellow]
GaveUpText ->
setSGRCode [dull Yellow]
SuccessIcon ->
setSGRCode [dull Green]
SuccessText ->
setSGRCode [dull Green]
CoverageIcon ->
setSGRCode [dull Yellow]
CoverageText ->
setSGRCode [dull Yellow]
CoverageFill ->
setSGRCode [vivid Black]
DeclarationLocation ->
setSGRCode []
StyledLineNo StyleDefault ->
setSGRCode []
StyledSource StyleDefault ->
setSGRCode []
StyledBorder StyleDefault ->
setSGRCode []
StyledLineNo StyleAnnotation ->
setSGRCode [dull Magenta]
StyledSource StyleAnnotation ->
setSGRCode []
StyledBorder StyleAnnotation ->
setSGRCode []
AnnotationGutter ->
setSGRCode [dull Magenta]
AnnotationValue ->
setSGRCode [dull Magenta]
StyledLineNo StyleFailure ->
setSGRCode [vivid Red]
StyledSource StyleFailure ->
setSGRCode [vivid Red, bold]
StyledBorder StyleFailure ->
setSGRCode []
FailureArrows ->
setSGRCode [vivid Red]
FailureMessage ->
setSGRCode []
FailureGutter ->
setSGRCode []
DiffPrefix ->
setSGRCode []
DiffInfix ->
setSGRCode []
DiffSuffix ->
setSGRCode []
DiffSame ->
setSGRCode []
DiffRemoved ->
setSGRCode [dull Red]
DiffAdded ->
setSGRCode [dull Green]
ReproduceHeader ->
setSGRCode []
ReproduceGutter ->
setSGRCode []
ReproduceSource ->
setSGRCode []
end _ =
setSGRCode [Reset]
color <- resolveColor mcolor
let
display =
case color of
EnableColor ->
WL.displayDecorated start end id
DisableColor ->
WL.display
#if mingw32_HOST_OS
liftIO $ do
hSetEncoding stdout utf8
hSetEncoding stderr utf8
#endif
pure .
display .
WL.renderSmart 100 $
WL.indent 2 doc
renderProgress :: MonadIO m => Maybe UseColor -> Maybe PropertyName -> Report Progress -> m String
renderProgress mcolor name x =
renderDoc mcolor =<< ppProgress name x
renderResult :: MonadIO m => Maybe UseColor -> Maybe PropertyName -> Report Result -> m String
renderResult mcolor name x =
renderDoc mcolor =<< ppResult name x
renderSummary :: MonadIO m => Maybe UseColor -> Summary -> m String
renderSummary mcolor x =
renderDoc mcolor =<< ppSummary x