xml-conduit-1.10.1.0: test/unit.hs
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE OverloadedStrings #-}
import Control.Exception (Exception, toException,
fromException)
import Control.Monad.IO.Class (liftIO)
import qualified Data.ByteString.Char8 as S
import qualified Data.ByteString.Lazy.Char8 as L
import Data.Typeable (Typeable)
import Data.XML.Types
import Test.Hspec
import Test.HUnit hiding (Test)
import qualified Text.XML as Res
import qualified Text.XML.Cursor as Cu
import Text.XML.Stream.Parse (def)
import qualified Text.XML.Stream.Parse as P
import qualified Text.XML.Unresolved as D
import qualified Text.XML.Stream.Render.Internal as R
import Control.Monad
import qualified Data.Set as Set
import Data.Text (Text)
import qualified Data.Text as T
import Text.XML.Cursor (($.//), ($/), ($//), ($|),
(&.//), (&/), (&//))
import qualified Control.Monad.Trans.Resource as C
import Conduit (foldC, sinkList, yieldMany)
import Data.Conduit ((.|), runConduit,
runConduitRes, ConduitT)
import Data.Conduit.Attoparsec (ParseError(..))
import qualified Data.Conduit as C
import qualified Data.Conduit.List as CL
import qualified Data.Map as Map
import Text.Blaze (toMarkup)
import Text.Blaze.Renderer.String (renderMarkup)
main :: IO ()
main = hspec $ do
describe "XML parsing and rendering" $ do
it "is idempotent to parse and render a document" documentParseRender
it "has valid parser combinators" combinators
context "has working choose function" testChoose
it "has working many function" testMany
it "has working many' function" testMany'
it "has working manyYield function" testManyYield
it "has working takeContent function" testTakeContent
it "has working takeTree function" testTakeTree
it "has working takeAnyTreeContent function" testTakeAnyTreeContent
it "has working orE" testOrE
it "is idempotent to parse and pretty render a document" documentParsePrettyRender
it "ignores the BOM" parseIgnoreBOM
it "strips duplicated attributes" stripDuplicateAttributes
it "displays comments" testRenderComments
it "conduit parser" testConduitParser
it "can omit the XML declaration" omitXMLDeclaration
it "doesn't hang on malformed entity declarations" malformedEntityDeclaration
it "escapes <>'\"& as necessary" caseEscapesAsNecessary
it "preserves the order of attributes" casePreservesAttrOrder
context "correctly parses hexadecimal entities" hexEntityParsing
it "normalizes line endings" crlfToLfConversion
it "normalizes \\r at the end of a content" crlfToLfConversionCrAtEnd
it "normalizes multiple \\rs and \\r\\ns" crlfToLfConversionCrCrCr
context "generates events for rendering in a stream" streamRenderGenerateEvents
it "renders events from a stream" streamRender
describe "XML Cursors" $ do
it "has correct parent" cursorParent
it "has correct ancestor" cursorAncestor
it "has correct orSelf" cursorOrSelf
it "has correct preceding" cursorPreceding
it "has correct following" cursorFollowing
it "has correct precedingSibling" cursorPrecedingSib
it "has correct followingSibling" cursorFollowingSib
it "has correct descendant" cursorDescendant
it "has correct check" cursorCheck
it "has correct check with lists" cursorPredicate
it "has correct checkNode" cursorCheckNode
it "has correct checkElement" cursorCheckElement
it "has correct checkName" cursorCheckName
it "has correct anyElement" cursorAnyElement
it "has correct element" cursorElement
it "has correct laxElement" cursorLaxElement
it "has correct content" cursorContent
it "has correct attribute" cursorAttribute
it "has correct laxAttribute" cursorLaxAttribute
it "has correct &* and $* operators" cursorDeep
it "has correct force" cursorForce
it "has correct forceM" cursorForceM
it "has correct hasAttribute" cursorHasAttribute
it "has correct attributeIs" cursorAttributeIs
describe "resolved" $ do
it "identifies unresolved entities" resolvedIdentifies
it "decodeHtmlEntities" testHtmlEntities
it "works for resolvable entities" resolvedAllGood
it "ignores custom entities when psResolveEntities is False" dontResolveEntities
it "merges adjacent content nodes" resolvedMergeContent
it "understands inline entity declarations" resolvedInline
it "understands complex inline with markup" resolvedInlineComplex
it "can expand inline entities recursively" resolvedInlineRecursive
it "doesn't explode with an inline entity loop" resolvedInlineLoop
it "doesn't explode with the billion laughs attack" billionLaughs
it "allows entity expansion size limit to be adjusted" thousandLaughs
it "ignores parameter entity declarations" parameterEntity
it "doesn't break on [] in doctype comments" doctypeComment
it "skips element declarations in doctype" doctypeElements
it "skips processing instructions in doctype" doctypePI
describe "pretty" $ do
it "works" casePretty
describe "top level namespaces" $ do
it "works" caseTopLevelNamespace
it "works with prefix" caseTopLevelNamespacePrefix
it "handles conflicts" caseTLNConflict
describe "blaze-html instances" $ do
it "works" caseBlazeHtml
describe "attribute reordering" $ do
it "works" caseAttrReorder
describe "ordering attributes explicitly" $ do
it "works" caseOrderAttrs
it "parsing CDATA" caseParseCdata
it "retains namespaces when asked" caseRetainNamespaces
it "handles iso-8859-1" caseIso8859_1
it "renders CDATA when asked" caseRenderCDATA
it "escapes CDATA closing tag in CDATA" caseEscapesCDATA
documentParseRender :: IO ()
documentParseRender =
mapM_ go docs
where
go x = x @=? D.parseLBS_ def (D.renderLBS def x)
docs =
[ Document (Prologue [] Nothing [])
(Element "foo" [] [])
[]
, D.parseLBS_ def
"<?xml version=\"1.0\"?><!DOCTYPE foo>\n<foo/>"
, D.parseLBS_ def
"<?xml version=\"1.0\"?><!DOCTYPE foo>\n<foo><nested>&ignore;</nested></foo>"
, D.parseLBS_ def
"<foo><![CDATA[this is some<CDATA content>]]></foo>"
, D.parseLBS_ def
"<foo bar='baz&bin'/>"
, D.parseLBS_ def
"<foo><?instr this is a processing instruction?></foo>"
, D.parseLBS_ def
"<foo><!-- this is a comment --></foo>"
]
documentParsePrettyRender :: IO ()
documentParsePrettyRender =
L.unpack (D.renderLBS def { R.rsPretty = True } (D.parseLBS_ def doc)) @?= L.unpack doc
where
doc = L.unlines
[ "<?xml version=\"1.0\" encoding=\"UTF-8\"?>"
, "<foo>"
, " <?bar bar?>"
, " text"
, " <?bin bin?>"
, "</foo>"
]
combinators :: Assertion
combinators = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tag' "hello" (P.requireAttr "world") $ \world -> do
liftIO $ world @?= "true"
P.force "need child1" $ P.tagNoAttr "{mynamespace}child1" $ return ()
P.force "need child2" $ P.tagNoAttr "child2" $ return ()
P.force "need child3" $ P.tagNoAttr "child3" $ do
x <- P.contentMaybe
liftIO $ x @?= Just "combine <all> &content"
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello world='true'>"
, "<?this should be ignored?>"
, "<child1 xmlns='mynamespace'/>"
, "<!-- this should be ignored -->"
, "<child2> </child2>"
, "<child3>combine <all> <![CDATA[&content]]></child3>\n"
, "</hello>"
]
testChoose :: Spec
testChoose = do
it "can choose between elements"
testChooseEitherElem
it "can choose between elements and text, returning text"
testChooseElemOrTextIsText
it "can choose between elements and text, returning elements"
testChooseElemOrTextIsElem
it "can choose between text and elements, returning text"
testChooseTextOrElemIsText
it "can choose between text and elements, returning elements"
testChooseTextOrElemIsElem
it "can choose between text and elements, when the text is encoded"
testChooseElemOrTextIsEncoded
it "can choose between text and elements, when the text is encoded, NBSP"
testChooseElemOrTextIsEncodedNBSP
it "can choose between elements and text, when the text is whitespace"
testChooseElemOrTextIsWhiteSpace
it "can choose between text and elements, when the text is whitespace"
testChooseTextOrElemIsWhiteSpace
it "can choose between text and elements, when the whitespace is both literal and encoded"
testChooseElemOrTextIsChunkedText
it "can choose between text and elements, when the text is chunked the other way"
testChooseElemOrTextIsChunkedText2
testChooseElemOrTextIsText :: Assertion
testChooseElemOrTextIsText = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.tagNoAttr "failure" $ return "boom"
, P.contentMaybe
]
liftIO $ x @?= Just " something "
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, " something "
, "</hello>"
]
testChooseElemOrTextIsEncoded :: Assertion
testChooseElemOrTextIsEncoded = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.tagNoAttr "failure" $ return "boom"
, P.contentMaybe
]
liftIO $ x @?= Just "\x20something\x20"
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, " something "
, "</hello>"
]
testChooseElemOrTextIsEncodedNBSP :: Assertion
testChooseElemOrTextIsEncodedNBSP = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.tagNoAttr "failure" $ return "boom"
, P.contentMaybe
]
liftIO $ x @?= Just "\160something\160"
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, " something "
, "</hello>"
]
testChooseElemOrTextIsWhiteSpace :: Assertion
testChooseElemOrTextIsWhiteSpace = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.tagNoAttr "failure" $ return "boom"
, P.contentMaybe
]
liftIO $ x @?= Just "\x20\x20\x20"
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello> </hello>"
]
testChooseTextOrElemIsWhiteSpace :: Assertion
testChooseTextOrElemIsWhiteSpace = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.contentMaybe
, P.tagNoAttr "failure" $ return "boom"
]
liftIO $ x @?= Just "\x20\x20\x20"
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello> </hello>"
]
testChooseElemOrTextIsChunkedText :: Assertion
testChooseElemOrTextIsChunkedText = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.tagNoAttr "failure" $ return "boom"
, P.contentMaybe
]
liftIO $ x @?= Just "\x20\x20\x20"
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>   </hello>"
]
testChooseElemOrTextIsChunkedText2 :: Assertion
testChooseElemOrTextIsChunkedText2 = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.tagNoAttr "failure" $ return "boom"
, P.contentMaybe
]
liftIO $ x @?= Just "\x20\x20\x20"
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>   </hello>"
]
testChooseElemOrTextIsElem :: Assertion
testChooseElemOrTextIsElem = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.tagNoAttr "success" $ return "success"
, P.contentMaybe
]
liftIO $ x @?= Just "success"
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, "<success/>"
, "</hello>"
]
testChooseTextOrElemIsText :: Assertion
testChooseTextOrElemIsText = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.contentMaybe
, P.tagNoAttr "failure" $ return "boom"
]
liftIO $ x @?= Just " something "
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, " something "
, "</hello>"
]
testChooseTextOrElemIsElem :: Assertion
testChooseTextOrElemIsElem = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.contentMaybe
, P.tagNoAttr "success" $ return "success"
]
liftIO $ x @?= Just "success"
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, "<success/>"
, "</hello>"
]
testChooseEitherElem :: Assertion
testChooseEitherElem = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.choose
[ P.tagNoAttr "failure" $ return 1
, P.tagNoAttr "success" $ return 2
]
liftIO $ x @?= Just (2 :: Int)
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, "<success/>"
, "</hello>"
]
testManyYield :: Assertion
testManyYield = do
-- Basically the same as testMany, but consume the streamed result
result <- runConduitRes $
P.parseLBS def input .| helloParser
.| CL.consume
length result @?= 5
where
helloParser = void $ P.tagNoAttr "hello" $ P.manyYield successParser
successParser = P.tagNoAttr "success" $ return ()
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, "<success/>"
, "<success/>"
, "<success/>"
, "<success/>"
, "<success/>"
, "</hello>"
]
testTakeContent :: Assertion
testTakeContent = do
result <- runConduitRes $ P.parseLBS def input .| rootParser
result @?= Just
[ EventContent (ContentText "Hello world !")
]
where
rootParser = P.tagNoAttr "root" $ void (P.takeContent >> P.takeContent) .| CL.consume
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<root>"
, "Hello world !"
, "</root>"
]
testTakeTree :: Assertion
testTakeTree = do
result <- runConduitRes $ P.parseLBS def input .| rootParser
result @?=
[ EventBeginDocument
, EventBeginDoctype "foo" Nothing
, EventEndDoctype
, EventBeginElement "a" []
, EventBeginElement "em" []
, EventContent (ContentText "Hello world !")
, EventEndElement "em"
, EventEndElement "a"
]
where
rootParser = void (P.takeTree "a" P.ignoreAttrs) .| CL.consume
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<a>"
, "<em>Hello world !</em>"
, "</a>"
, "<b>"
, "</b>"
]
testTakeAnyTreeContent :: Assertion
testTakeAnyTreeContent = do
result <- runConduitRes $ P.parseLBS def input .| rootParser
result @?= Just
[ EventBeginElement "b" []
, EventContent (ContentText "Hello ")
, EventBeginElement "em" []
, EventContent (ContentText "world")
, EventEndElement "em"
, EventContent (ContentText " !")
, EventEndElement "b"
]
where
rootParser = P.tagNoAttr "root" $ (P.takeAnyTreeContent >> void P.ignoreAnyTreeContent) .| CL.consume
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<root>"
, "<b>Hello <em>world</em> !</b> Welcome !"
, "</root>"
]
testMany :: Assertion
testMany = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.many $ P.tagNoAttr "success" $ return ()
liftIO $ length x @?= 5
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, "<success/>"
, "<success/>"
, "<success/>"
, "<success/>"
, "<success/>"
, "</hello>"
]
testMany' :: Assertion
testMany' = runConduitRes $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.many' $ P.tagNoAttr "success" $ return ()
liftIO $ length x @?= 5
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, "<success/>"
, "<success/>"
, "<success/>"
, "<foobar/>"
, "<success/>"
, "<foo><bar attr=\"1\">some content</bar></foo>"
, "<success/>"
, "</hello>"
]
testOrE :: IO ()
testOrE = runConduitRes $ runConduit $ P.parseLBS def input .| do
P.force "need hello" $ P.tagNoAttr "hello" $ do
x <- P.tagNoAttr "failure" (return 1) `P.orE`
P.tagNoAttr "success" (return 2)
y <- P.tag' "success" (P.requireAttr "failure") (const $ return 1) `P.orE`
P.tag' "success" (P.requireAttr "success") (const $ return 2)
liftIO $ x @?= Just (2 :: Int)
liftIO $ y @?= Just (2 :: Int)
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, "<success/>"
, "<success success=\"0\"/>"
, "</hello>"
]
testConduitParser :: Assertion
testConduitParser = do
x <- runConduitRes
$ P.parseLBS def input
.| (P.force "need hello" $ P.tagNoAttr "hello" f)
.| CL.consume
liftIO $ x @?= [1, 1, 1]
where
input = L.concat
[ "<?xml version='1.0'?>"
, "<!DOCTYPE foo []>\n"
, "<hello>"
, "<item/>"
, "<item/>"
, "<item/>"
, "</hello>"
]
f :: C.MonadThrow m => ConduitT Event Int m ()
f = do
ma <- P.tagNoAttr "item" (return 1)
maybe (return ()) (\a -> C.yield a >> f) ma
omitXMLDeclaration :: Assertion
omitXMLDeclaration = Res.renderLBS settings input @?= spec
where
settings = def { Res.rsXMLDeclaration = False }
input = Res.Document (Prologue [] Nothing [])
(Res.Element "foo" Map.empty [Res.NodeContent "bar"])
[]
spec = "<foo>bar</foo>"
malformedEntityDeclaration :: Assertion
malformedEntityDeclaration = do -- missing > after bim
assertBool "raises ParseError" $
case Res.parseLBS Res.def "<!DOCTYPE foo [<!ENTITY bim \"Hello\"]><foo></foo>" of
Left e -> case fromException e of
Just (ParseError ["DOCTYPE"] _ _) -> True
_ -> False
_ -> False
caseEscapesAsNecessary :: Assertion
caseEscapesAsNecessary = do
let doc = Res.Document (Res.Prologue [] Nothing [])
(Res.Element "a" (Map.fromList [("attr", "'<&val>'")])
[Res.NodeContent "'\"<&test]]>\"'"])
[]
result = Res.renderLBS def doc
result `shouldBe` "<?xml version=\"1.0\" encoding=\"UTF-8\"?><a attr=\"'<&val>'\">'\"<&test]]>\"'</a>"
casePreservesAttrOrder :: Assertion
casePreservesAttrOrder = do
let doc = Document (Prologue [] Nothing [])
(Element "doc" [] [
NodeElement (Element "el" [("attr1", [ContentText "1"]), ("attr2", [ContentText "2"])] []),
NodeElement (Element "el" [("attr2", [ContentText "2"]), ("attr1", [ContentText "1"])] [])
])
[]
rendered = "<?xml version=\"1.0\" encoding=\"UTF-8\"?><doc><el attr1=\"1\" attr2=\"2\"/><el attr2=\"2\" attr1=\"1\"/></doc>"
renderResult = D.renderLBS def doc
parseResult = D.parseLBS def rendered
renderResult `shouldBe` rendered
parseResult `shouldSatisfy` either (const False) (doc==)
hexEntityParsing :: Spec
hexEntityParsing = do
it "rejects leading 0x" $
go "<foo>�xff;</foo>" @?= Nothing
it "rejects leading 0X" $
go "<foo>�Xff;</foo>" @?= Nothing
it "accepts lowercase hex digits" $
go "<foo>ÿ</foo>" @?= Just (spec "\xff")
it "accepts uppercase hex digits" $
go "<foo>ÿ</foo>" @?= Just (spec "\xff")
--Note: this must be rejected, because, according to the XML spec, a
--legal EntityRef's entity matches Name, which can't start with a
--hash.
it "rejects trailing junk" $
go "<foo>ÿhello;</foo>" @?= Nothing
--Some of these next tests are XML 1.0 specific (i.e., they would
--differ for XML 1.1), but approximately no-one uses XML 1.1.
it "rejects illegal character #x0" $
go "<foo>�</foo>" @?= Nothing
it "rejects illegal character #xFFFE" $
go "<foo></foo>" @?= Nothing
it "rejects illegal character #xFFFF" $
go "<foo></foo>" @?= Nothing
it "rejects illegal character #xD900" $
go "<foo>�</foo>" @?= Nothing
it "rejects illegal character #xC" $
go "<foo></foo>" @?= Nothing
it "rejects illegal character #x1F" $
go "<foo></foo>" @?= Nothing
it "accepts astral plane character" $
go "<foo>􀛿</foo>" @?= Just (spec "\x1006ff")
it "accepts custom character references" $
go' customSettings "<foo></foo>" @?= Just (spec "\xff")
where
spec content = Document (Prologue [] Nothing [])
(Element "foo" [] [NodeContent (ContentText content)])
[]
go = either (const Nothing) Just . D.parseLBS def
go' settings = either (const Nothing) Just . D.parseLBS settings
customSettings = def { P.psDecodeIllegalCharacters = customDecoder }
customDecoder 12 = Just '\xff'
customDecoder _ = Nothing
name :: [Cu.Cursor] -> [Text]
name [] = []
name (c:cs) = ($ name cs) $ case Cu.node c of
Res.NodeElement e -> ((Res.nameLocalName $ Res.elementName e) :)
_ -> id
cursor :: Cu.Cursor
cursor =
Cu.fromDocument $ Res.parseLBS_ def input
where
input = L.concat
[ "<foo attr=\"x\">"
, "<bar1/>"
, "<bar2>"
, "<baz1/>"
, "<baz2 attr=\"y\"/>"
, "<baz3>a</baz3>"
, "</bar2>"
, "<bar3>"
, "<bin1/>"
, "b"
, "<bin2/>"
, "<bin3/>"
, "</bar3>"
, "<Bar1 xmlns=\"http://example.com\" Attr=\"q\"/>"
, "</foo>"
]
bar2, baz2, bar3, bin2 :: Cu.Cursor
bar2 = Cu.child cursor !! 1
baz2 = Cu.child bar2 !! 1
bar3 = Cu.child cursor !! 2
bin2 = Cu.child bar3 !! 1
cursorParent, cursorAncestor, cursorOrSelf, cursorPreceding, cursorFollowing,
cursorPrecedingSib, cursorFollowingSib, cursorDescendant, cursorCheck,
cursorPredicate, cursorCheckNode, cursorCheckElement, cursorCheckName,
cursorAnyElement, cursorElement, cursorLaxElement, cursorContent,
cursorAttribute, cursorLaxAttribute, cursorHasAttribute,
cursorAttributeIs, cursorDeep, cursorForce, cursorForceM,
resolvedIdentifies, resolvedAllGood, dontResolveEntities,
resolvedMergeContent, testHtmlEntities
:: Assertion
cursorParent = name (Cu.parent bar2) @?= ["foo"]
cursorAncestor = name (Cu.ancestor baz2) @?= ["bar2", "foo"]
cursorOrSelf = name (Cu.orSelf Cu.ancestor baz2) @?= ["baz2", "bar2", "foo"]
cursorPreceding = do
name (Cu.preceding baz2) @?= ["baz1", "bar1"]
name (Cu.preceding bin2) @?= ["bin1", "baz3", "baz2", "baz1", "bar2", "bar1"]
cursorFollowing = do
name (Cu.following baz2) @?= ["baz3", "bar3", "bin1", "bin2", "bin3", "Bar1"]
name (Cu.following bar2) @?= ["bar3", "bin1", "bin2", "bin3", "Bar1"]
cursorPrecedingSib = name (Cu.precedingSibling baz2) @?= ["baz1"]
cursorFollowingSib = name (Cu.followingSibling baz2) @?= ["baz3"]
cursorDescendant = (name $ Cu.descendant cursor) @?= T.words "bar1 bar2 baz1 baz2 baz3 bar3 bin1 bin2 bin3 Bar1"
cursorCheck = null (cursor $.// Cu.check (const False)) @?= True
cursorPredicate = (name $ cursor $.// Cu.check Cu.descendant) @?= T.words "foo bar2 baz3 bar3"
cursorCheckNode = (name $ cursor $// Cu.checkNode f) @?= T.words "bar1 bar2 bar3"
where f (Res.NodeElement e) = "bar" `T.isPrefixOf` Res.nameLocalName (Res.elementName e)
f _ = False
cursorCheckElement = (name $ cursor $// Cu.checkElement f) @?= T.words "bar1 bar2 bar3"
where f e = "bar" `T.isPrefixOf` Res.nameLocalName (Res.elementName e)
cursorCheckName = (name $ cursor $// Cu.checkName f) @?= T.words "bar1 bar2 bar3"
where f n = "bar" `T.isPrefixOf` nameLocalName n
cursorAnyElement = (name $ cursor $// Cu.anyElement) @?= T.words "bar1 bar2 baz1 baz2 baz3 bar3 bin1 bin2 bin3 Bar1"
cursorElement = (name $ cursor $// Cu.element "bar1") @?= ["bar1"]
cursorLaxElement = (name $ cursor $// Cu.laxElement "bar1") @?= ["bar1", "Bar1"]
cursorContent = do
Cu.content cursor @?= []
(cursor $.// Cu.content) @?= ["a", "b"]
cursorAttribute = Cu.attribute "attr" cursor @?= ["x"]
cursorLaxAttribute = (cursor $.// Cu.laxAttribute "Attr") @?= ["x", "y", "q"]
cursorHasAttribute = (length $ cursor $.// Cu.hasAttribute "attr") @?= 2
cursorAttributeIs = (length $ cursor $.// Cu.attributeIs "attr" "y") @?= 1
cursorDeep = do
(Cu.element "foo" &/ Cu.element "bar2" &// Cu.attribute "attr") cursor @?= ["y"]
(return &.// Cu.attribute "attr") cursor @?= ["x", "y"]
(cursor $.// Cu.attribute "attr") @?= ["x", "y"]
(cursor $/ Cu.element "bar2" &// Cu.attribute "attr") @?= ["y"]
(cursor $/ Cu.element "bar2" &/ Cu.element "baz2" >=> Cu.attribute "attr") @?= ["y"]
null (cursor $| Cu.element "foo") @?= False
cursorForce = do
Cu.force DummyEx [] @?= (Nothing :: Maybe Integer)
Cu.force DummyEx [1] @?= Just (1 :: Int)
Cu.force DummyEx [1,2] @?= Just (1 :: Int)
cursorForceM = do
Cu.forceM DummyEx [] @?= (Nothing :: Maybe Integer)
Cu.forceM DummyEx [Just 1, Nothing] @?= Just (1 :: Int)
Cu.forceM DummyEx [Nothing, Just (1 :: Int)] @?= Nothing
data DummyEx = DummyEx
deriving (Show, Typeable)
instance Exception DummyEx
showEq :: (Show a, Show b) => Either a b -> Either a b -> Assertion
showEq x y = show x @=? show y
resolvedIdentifies =
Left (toException $ Res.UnresolvedEntityException $ Set.fromList ["foo", "bar", "baz"]) `showEq`
Res.parseLBS def
"<root attr='&bar;'>&foo; --- &baz; &foo;</root>"
testHtmlEntities =
Res.parseLBS_ def
{ P.psDecodeEntities = P.decodeHtmlEntities
} xml1 @=? Res.parseLBS_ def xml2
where
xml1 = "<root> </root>"
xml2 = "<root> </root>"
resolvedAllGood =
D.parseLBS_ def xml @=?
Res.toXMLDocument (Res.parseLBS_ def xml)
where
xml = "<foo><bar/><baz/></foo>"
dontResolveEntities =
D.parseLBS_ settings xml @=? expectedDocument
where
settings = def { P.psIgnoreInternalEntityDeclarations = True }
xml = mconcat
[ "<!DOCTYPE mydt [ <!ENTITY foo \"fooby\" > ]>"
, "<root>>&foo;&bar;</root>"
]
expectedDocument =
Document
(Prologue [] (Just (Doctype "mydt" Nothing)) [])
(Element "root" mempty
[ NodeContent (ContentText ">")
, NodeContent (ContentEntity "foo")
, NodeContent (ContentEntity "bar")
])
[]
resolvedMergeContent =
Res.documentRoot (Res.parseLBS_ def xml) @=?
Res.Element "foo" Map.empty [Res.NodeContent "bar&baz"]
where
xml = "<foo>bar&baz</foo>"
parseIgnoreBOM :: Assertion
parseIgnoreBOM = do
either (const $ Left (1 :: Int)) Right (Res.parseText Res.def "\xfeef<foo/>") @?=
either (const $ Left (2 :: Int)) Right (Res.parseText Res.def "<foo/>")
stripDuplicateAttributes :: Assertion
stripDuplicateAttributes = do
"<?xml version=\"1.0\" encoding=\"UTF-8\"?><foo bar=\"baz\"/>" @=?
D.renderLBS def (Document (Prologue [] Nothing []) (Element "foo" [("bar", [ContentText "baz"]), ("bar", [ContentText "bin"])] []) [])
"<?xml version=\"1.0\" encoding=\"UTF-8\"?><foo x:bar=\"baz\" xmlns:x=\"namespace\"/>" @=?
D.renderLBS def (Document (Prologue [] Nothing []) (Element "foo"
[ ("x:bar", [ContentText "baz"])
, (Name "bar" (Just "namespace") (Just "x"), [ContentText "bin"])
] []) [])
testRenderComments :: Assertion
testRenderComments =do
"<?xml version=\"1.0\" encoding=\"UTF-8\"?><foo><!--comment--></foo>"
@=? D.renderLBS def (Document (Prologue [] Nothing [])
(Element "foo" [] [NodeComment "comment"]) [])
resolvedInline :: Assertion
resolvedInline = do
Res.Document _ root _ <- return $ Res.parseLBS_ Res.def "<!DOCTYPE foo[<!ENTITY bar \"baz\">]><foo>&bar;</foo>"
root @?= Res.Element "foo" Map.empty [Res.NodeContent "baz"]
Res.Document _ root2 _ <- return $ Res.parseLBS_ Res.def "<!DOCTYPE foo [<!ENTITY bar \"baz\">]><foo bar='&bar;'/>"
root2 @?= Res.Element "foo" (Map.singleton "bar" "baz") []
resolvedInlineComplex :: Assertion
resolvedInlineComplex = do
Res.Document _ root _ <- return $ Res.parseLBS_ Res.def "<!DOCTYPE foo [<!ENTITY bar \"<p>baz &bim;</p>\"><!ENTITY bim \"Hello\">]><foo>&bar;</foo>"
root @?= Res.Element "foo" Map.empty [Res.NodeElement (Res.Element "p" Map.empty [Res.NodeContent "baz Hello"])]
Res.Document _ root2 _ <- return $ Res.parseLBS_ Res.def "<!DOCTYPE foo [<!ENTITY bar \"<p>baz</p>\">]><foo class=\"&bar;\"/>"
root2 @?= Res.Element "foo" (Map.fromList [("class","baz")]) []
resolvedInlineRecursive :: Assertion
resolvedInlineRecursive = do
Res.Document _ root _ <- return $ Res.parseLBS_ Res.def
"<!DOCTYPE foo [<!ENTITY bim \"baz\"><!ENTITY bar \"&bim;I&\">]><foo>&bar;</foo>"
root @?= Res.Element "foo" Map.empty [Res.NodeContent "bazI&"]
resolvedInlineLoop :: Assertion
resolvedInlineLoop = do
res <- return $ Res.parseLBS Res.def
"<!DOCTYPE foo [<!ENTITY bim \"&bim;\">]><foo>&bim;</foo>"
Left (toException $ Res.UnresolvedEntityException (Set.fromList ["bim"]))
`showEq` res
res2 <- return $ Res.parseLBS Res.def
"<!DOCTYPE foo [<!ENTITY bim \"&bim;\">]><foo class=\"&bim;\"/>"
Left (toException $ Res.UnresolvedEntityException (Set.fromList ["bim"]))
`showEq` res2
billionLaughs :: Assertion
billionLaughs = do
res <- return $ Res.parseLBS Res.def
"<?xml version=\"1.0\"?><!DOCTYPE lolz [<!ENTITY lol \"lol\"><!ELEMENT lolz (#PCDATA)><!ENTITY lol1 \"&lol;&lol;&lol;&lol;&lol;&lol;&lol;&lol;&lol;&lol;\"><!ENTITY lol2 \"&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;\"><!ENTITY lol3 \"&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;\"><!ENTITY lol4 \"&lol3;&lol3;&lol3;&lol3;&lol3;&lol3;&lol3;&lol3;&lol3;&lol3;\"><!ENTITY lol5 \"&lol4;&lol4;&lol4;&lol4;&lol4;&lol4;&lol4;&lol4;&lol4;&lol4;\"><!ENTITY lol6 \"&lol5;&lol5;&lol5;&lol5;&lol5;&lol5;&lol5;&lol5;&lol5;&lol5;\"><!ENTITY lol7 \"&lol6;&lol6;&lol6;&lol6;&lol6;&lol6;&lol6;&lol6;&lol6;&lol6;\"><!ENTITY lol8 \"&lol7;&lol7;&lol7;&lol7;&lol7;&lol7;&lol7;&lol7;&lol7;&lol7;\"><!ENTITY lol9 \"&lol8;&lol8;&lol8;&lol8;&lol8;&lol8;&lol8;&lol8;&lol8;&lol8;\">]><lolz>&lol9;</lolz>"
Left (toException $ Res.UnresolvedEntityException (Set.fromList ["lol9"]))
`showEq` res
thousandLaughs :: Assertion
thousandLaughs = do
res <- return $ Res.parseLBS Res.def{ P.psEntityExpansionSizeLimit = 2999 }
"<?xml version=\"1.0\"?><!DOCTYPE lolz [<!ENTITY lol \"lol\"><!ELEMENT lolz (#PCDATA)><!ENTITY lol1 \"&lol;&lol;&lol;&lol;&lol;&lol;&lol;&lol;&lol;&lol;\"><!ENTITY lol2 \"&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;\"><!ENTITY lol3 \"&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;\">]><lolz>&lol3;</lolz>"
Left (toException $ Res.UnresolvedEntityException (Set.fromList ["lol3"]))
`showEq` res
-- Raise the entity expansion limit and it should work:
Right (Res.Document {Res.documentRoot = Res.Element{ Res.elementNodes = [Res.NodeContent t] }}) <- return $ Res.parseLBS Res.def{ P.psEntityExpansionSizeLimit = 3001 } "<?xml version=\"1.0\"?><!DOCTYPE lolz [<!ENTITY lol \"lol\"><!ELEMENT lolz (#PCDATA)><!ENTITY lol1 \"&lol;&lol;&lol;&lol;&lol;&lol;&lol;&lol;&lol;&lol;\"><!ENTITY lol2 \"&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;&lol1;\"><!ENTITY lol3 \"&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;&lol2;\">]><lolz>&lol3;</lolz>"
t @?= T.replicate 1000 "lol"
parameterEntity :: Assertion
parameterEntity = do
let res = Res.parseLBS Res.def "<!DOCTYPE foo [<!ENTITY % bim \"Hello\">]><foo>&bim;</foo>"
Left (toException $ Res.UnresolvedEntityException (Set.fromList ["bim"]))
`showEq` res
doctypeComment :: Assertion
doctypeComment = do
Res.Document _ root _ <- return $ Res.parseLBS_
Res.def "<!DOCTYPE foo [<!-- [comment] --> <!ENTITY bar \"baz\">]><foo>&bar;</foo>"
root @?= Res.Element "foo" Map.empty [Res.NodeContent "baz"]
doctypeElements :: Assertion
doctypeElements = do
Res.Document _ root _ <- return $ Res.parseLBS_
Res.def "<!DOCTYPE foo [<!ELEMENT assessment (#PCDATA)>\n<!ELEMENT textbooks(author,title)>\n<!ATTLIST assessment assessment_type (exam | assignment) #IMPLIED>\n<!ENTITY bar \"baz\">]><foo>&bar;</foo>"
root @?= Res.Element "foo" Map.empty [Res.NodeContent "baz"]
doctypePI :: Assertion
doctypePI = do
Res.Document _ root _ <- return $ Res.parseLBS_
Res.def "<!DOCTYPE foo [<?foobar \"[baz]\"?><!ENTITY bar \"baz\">]><foo>&bar;</foo>"
root @?= Res.Element "foo" Map.empty [Res.NodeContent "baz"]
casePretty :: Assertion
casePretty = do
let pretty = S.unlines
[ "<?xml version=\"1.0\" encoding=\"UTF-8\"?>"
, "<!DOCTYPE foo>"
, "<foo bar=\"bar\" baz=\"baz\">"
, " <foo"
, " bar=\"bar\""
, " baz=\"baz\""
, " bin=\"bin\">"
, " Hello World"
, " </foo>"
, " <foo/>"
, " <?foo bar?>"
, " <!-- foo bar baz bin -->"
, " <bar>"
, " bar content"
, " </bar>"
, "</foo>"
]
doctype = Res.Doctype "foo" Nothing
doc = Res.Document (Res.Prologue [] (Just doctype) []) root []
root = Res.Element "foo" (Map.fromList [("bar", "bar"), ("baz", "baz")])
[ Res.NodeElement $ Res.Element "foo" (Map.fromList [("bar", "bar"), ("baz", "baz"), ("bin", "bin")])
[ Res.NodeContent " Hello World\n\n"
, Res.NodeContent " "
]
, Res.NodeElement $ Res.Element "foo" Map.empty []
, Res.NodeInstruction $ Res.Instruction "foo" "bar"
, Res.NodeComment "foo bar\n\r\nbaz \tbin "
, Res.NodeElement $ Res.Element "bar" Map.empty [Res.NodeContent "bar content"]
]
pretty @=? S.concat (L.toChunks $ Res.renderLBS def { R.rsPretty = True } doc)
caseTopLevelNamespace :: Assertion
caseTopLevelNamespace = do
let lbs = S.concat
[ "<?xml version=\"1.0\" encoding=\"UTF-8\"?>"
, "<foo xmlns:bar=\"baz\">"
, "<subfoo bar:bin=\"\"/>"
, "</foo>"
]
rs = def { D.rsNamespaces = [("bar", "baz")] }
doc = Res.Document (Res.Prologue [] Nothing [])
(Res.Element "foo" Map.empty
[ Res.NodeElement
$ Res.Element "subfoo" (Map.singleton "{baz}bin" "") []
])
[]
lbs @=? S.concat (L.toChunks $ Res.renderLBS rs doc)
caseTopLevelNamespacePrefix :: Assertion
caseTopLevelNamespacePrefix = do
let lbs = S.concat
[ "<?xml version=\"1.0\" encoding=\"UTF-8\"?>"
, "<foo xmlns:bar=\"baz\">"
, "<subfoo bar:bin=\"\"/>"
, "</foo>"
]
rs = def { D.rsNamespaces = [("bar", "baz")] }
doc = Res.Document (Res.Prologue [] Nothing [])
(Res.Element "foo" Map.empty
[ Res.NodeElement
$ Res.Element "subfoo" (Map.fromList [(Name "bin" (Just "baz") (Just "bar"), "")]) []
])
[]
lbs @=? S.concat (L.toChunks $ Res.renderLBS rs doc)
caseTLNConflict :: Assertion
caseTLNConflict = do
let lbs = S.concat
[ "<?xml version=\"1.0\" encoding=\"UTF-8\"?>"
, "<foo xmlns:bar=\"something\" bar:x=\"y\">"
, "<subfoo xmlns:bar_=\"baz\" bar_:bin=\"\"/>"
, "</foo>"
]
rs = def { D.rsNamespaces = [("bar", "baz")] }
doc = Res.Document (Res.Prologue [] Nothing [])
(Res.Element "foo" (Map.fromList [(Name "x" (Just "something") (Just "bar"), "y")])
[ Res.NodeElement
$ Res.Element "subfoo" (Map.fromList [(Name "bin" (Just "baz") (Just "bar"), "")]) []
])
[]
lbs @=? S.concat (L.toChunks $ Res.renderLBS rs doc)
caseBlazeHtml :: Assertion
caseBlazeHtml =
expected @=? str
where
str = renderMarkup $ toMarkup $ Res.Document (Res.Prologue [] Nothing []) root []
root :: Res.Element
root = Res.Element "html" Map.empty
[ Res.NodeElement $ Res.Element "head" Map.empty
[ Res.NodeElement $ Res.Element "title" Map.empty [Res.NodeContent "Test"]
, Res.NodeElement $ Res.Element "script" Map.empty
[Res.NodeContent "if (5 < 6 || 8 > 9) alert('Hello World!');"]
, Res.NodeElement $ Res.Element "{http://www.snoyman.com/xml2html}ie-cond" (Map.singleton "cond" "lt IE 7")
[Res.NodeElement $ Res.Element "link" (Map.singleton "href" "ie6.css") []]
, Res.NodeElement $ Res.Element "style" Map.empty
[Res.NodeContent "body > h1 { color: red }"]
]
, Res.NodeElement $ Res.Element "body" Map.empty
[ Res.NodeElement $ Res.Element "h1" Map.empty [Res.NodeContent "Hello World!"]
]
]
expected :: String
expected = concat
[ "<!DOCTYPE HTML>\n"
, "<html><head><title>Test</title><script>if (5 < 6 || 8 > 9) alert('Hello World!');</script>"
, "<!--[if lt IE 7]><link href=\"ie6.css\" /><![endif]-->"
, "<style>body > h1 { color: red }</style>"
, "</head>"
, "<body><h1>Hello World!</h1></body></html>"
]
caseAttrReorder :: Assertion
caseAttrReorder = do
let lbs = S.concat
[ "<?xml version=\"1.0\" encoding=\"UTF-8\"?>"
, "<foo c=\"c\" b=\"b\" a=\"a\">"
, "<bar a=\"a\" b=\"b\" c=\"c\"/>"
, "</foo>"
]
rs = def { Res.rsAttrOrder = \name' m ->
case name' of
"foo" -> reverse $ Map.toAscList m
_ -> Map.toAscList m
}
attrs = Map.fromList [("a", "a"), ("b", "b"), ("c", "c")]
doc = Res.Document (Res.Prologue [] Nothing [])
(Res.Element "foo" attrs
[ Res.NodeElement
$ Res.Element "bar" attrs []
])
[]
lbs @=? S.concat (L.toChunks $ Res.renderLBS rs doc)
caseOrderAttrs :: Assertion
caseOrderAttrs = do
let lbs = S.concat
[ "<?xml version=\"1.0\" encoding=\"UTF-8\"?>"
, "<foo c=\"c\" b=\"b\" a=\"a\">"
, "<bar a=\"a\" b=\"b\" c=\"c\"/>"
, "</foo>"
]
rs = def { Res.rsAttrOrder = Res.orderAttrs
[("foo", ["c", "b"])]
}
attrs = Map.fromList [("a", "a"), ("b", "b"), ("c", "c")]
doc = Res.Document (Res.Prologue [] Nothing [])
(Res.Element "foo" attrs
[ Res.NodeElement
$ Res.Element "bar" attrs []
])
[]
lbs @=? S.concat (L.toChunks $ Res.renderLBS rs doc)
caseParseCdata :: Assertion
caseParseCdata = do
let lbs = "<a><![CDATA[www.google.com]]></a>"
doc = Res.Document (Res.Prologue [] Nothing [])
(Res.Element "a" Map.empty
[ Res.NodeContent "www.google.com"
])
[]
Res.parseLBS_ def lbs @?= doc
caseRetainNamespaces :: Assertion
caseRetainNamespaces = do
let lbs = "<foo xmlns:bar='baz'><bar:bin/><bin3 xmlns='bin4'></bin3></foo>"
doc = Res.parseLBS_ def { Res.psRetainNamespaces = True } lbs
doc `shouldBe` Res.Document
(Res.Prologue [] Nothing [])
(Res.Element
"foo"
(Map.singleton "xmlns:bar" "baz")
[ Res.NodeElement $ Res.Element
"{baz}bin"
Map.empty
[]
, Res.NodeElement $ Res.Element
"{bin4}bin3"
(Map.singleton "xmlns" "bin4")
[]
])
[]
caseIso8859_1 :: Assertion
caseIso8859_1 = do
let lbs = "<?xml version=\"1.0\" encoding=\"iso-8859-1\"?><foo>\232</foo>"
doc = Res.parseLBS_ def lbs
doc `shouldBe` Res.Document
(Res.Prologue [] Nothing [])
(Res.Element
"foo"
Map.empty
[Res.NodeContent "\232"])
[]
caseRenderCDATA :: Assertion
caseRenderCDATA = do
let doc = Res.Document (Res.Prologue [] Nothing [])
(Res.Element "a" Map.empty
[ Res.NodeContent "www.google.com"
])
[]
withoutCDATA = Res.renderLBS def doc
withCDATA = Res.renderLBS (def { Res.rsUseCDATA = const True }) doc
withCDATA `shouldBe` "<?xml version=\"1.0\" encoding=\"UTF-8\"?><a><![CDATA[www.google.com]]></a>"
withoutCDATA `shouldBe` "<?xml version=\"1.0\" encoding=\"UTF-8\"?><a>www.google.com</a>"
caseEscapesCDATA :: Assertion
caseEscapesCDATA = do
let doc = Res.Document (Res.Prologue [] Nothing [])
(Res.Element "a" Map.empty
[ Res.NodeContent "]]>"
])
[]
result = Res.renderLBS (def { Res.rsUseCDATA = const True }) doc
result `shouldBe` "<?xml version=\"1.0\" encoding=\"UTF-8\"?><a><![CDATA[]]]]><![CDATA[>]]></a>"
crlfToLfConversion :: Assertion
crlfToLfConversion = (elementContent $ documentRoot crlfDoc) `shouldBe` crlfContent
where
crlfDoc = D.parseLBS_ def "<crlf>Hello,\rWorld!\r\nWe don't like your kind of line endings around here.\r\n</crlf>"
crlfContent = [ContentText "Hello,\nWorld!\nWe don't like your kind of line endings around here.\n"]
crlfToLfConversionCrAtEnd :: Assertion
crlfToLfConversionCrAtEnd = (elementContent $ documentRoot doc) `shouldBe` content
where
doc = D.parseLBS_ def "<crlf>Hello, World!\r</crlf>"
content = [ContentText "Hello, World!\n"]
crlfToLfConversionCrCrCr :: Assertion
crlfToLfConversionCrCrCr = (elementContent $ documentRoot doc) `shouldBe` content
where
doc = D.parseLBS_ def "<crlf>\r\r\r\n\r\r\r</crlf>"
content = [ContentText "\n\n\n\n\n\n"]
streamRenderGenerateEvents :: Spec
streamRenderGenerateEvents = do
it "generates events for a document" $ do
emptyDoc <- runConduit $ R.document mempty .| sinkList
emptyDoc @?= [EventBeginDocument, EventEndDocument]
nonEmptyDoc <- runConduit $
R.document (R.tag "foo" mempty $ R.content "...") .| sinkList
nonEmptyDoc @?=
[ EventBeginDocument
, EventBeginElement "foo" []
, EventContent $ ContentText "..."
, EventEndElement "foo"
, EventEndDocument
]
it "generates events for a tag" $ do
emptyTag <- runConduit $ R.tag "foo" mempty mempty .| sinkList
emptyTag @?= [EventBeginElement "foo" [], EventEndElement "foo"]
nonEmptyTag <- runConduit $
R.tag "foo" (R.attr "bar" "baz") (R.content "...") .| sinkList
nonEmptyTag @?=
[ EventBeginElement "foo" [("bar", [ContentText "baz"])]
, EventContent $ ContentText "..."
, EventEndElement "foo"
]
streamRender :: Assertion
streamRender = do
x <- runConduit $ input .| R.renderBytes def .| foldC
x @?= output
where
input = yieldMany
[ EventBeginDocument
, EventBeginElement "foo" [("bar", [ContentText "baz"])]
, EventContent $ ContentText "..."
, EventEndElement "foo"
, EventEndDocument
]
output = S.concat
[ "<?xml version=\"1.0\" encoding=\"UTF-8\"?>"
, "<foo bar=\"baz\">"
, "..."
, "</foo>"
]