{-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE GADTs #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE PatternGuards #-} {- | Module : Text.Pandoc.Readers.ODT.Generic.XMLConverter Copyright : Copyright (C) 2015 Martin Linnemann License : GNU GPL, version 2 or above Maintainer : Martin Linnemann Stability : alpha Portability : portable A generalized XML parser based on stateful arrows. It might be sufficient to define this reader as a comonad, but there is not a lot of use in trying. -} module Text.Pandoc.Readers.ODT.Generic.XMLConverter ( ElementName , XMLConverterState , XMLConverter , FallibleXMLConverter , runConverter' , getExtraState , setExtraState , modifyExtraState , producingExtraState , findChild' , filterChildrenName' , isSet' , isSetWithDefault , elName , searchAttr , lookupAttr , lookupAttr' , lookupDefaultingAttr , findAttr' , findAttrText' , findAttr , findAttrText , findAttrTextWithDefault , readAttr , readAttr' , readAttrWithDefault , getAttr , executeIn , executeInSub , withEveryL , tryAll , matchContent' , matchContent ) where import Prelude hiding (Applicative(..)) import Control.Applicative hiding ( liftA, liftA2 ) import Control.Monad ( MonadPlus ) import Control.Arrow import Data.Bool ( bool ) import Data.Either ( rights ) import qualified Data.Map as M import Data.Text (Text) import Data.Default import Data.Maybe import Data.List (foldl') import qualified Data.List.NonEmpty as NonEmpty import Data.List.NonEmpty (NonEmpty(..)) import qualified Text.Pandoc.XML.Light as XML import Text.Pandoc.Readers.ODT.Arrows.State import Text.Pandoc.Readers.ODT.Arrows.Utils import Text.Pandoc.Readers.ODT.Generic.Namespaces import Text.Pandoc.Readers.ODT.Generic.Utils import Text.Pandoc.Readers.ODT.Generic.Fallible -------------------------------------------------------------------------------- -- Basis types for readability -------------------------------------------------------------------------------- -- type ElementName = Text type AttributeName = Text type AttributeValue = Text type TextAttributeValue = Text -- type NameSpacePrefix = Text -- type NameSpacePrefixes nsID = M.Map nsID NameSpacePrefix -------------------------------------------------------------------------------- -- Main converter state -------------------------------------------------------------------------------- -- GADT so some of the NameSpaceID restrictions can be deduced data XMLConverterState nsID extraState where XMLConverterState :: NameSpaceID nsID => { -- | A stack of parent elements. The top element is the current one. -- Arguably, a real Zipper would be better. But that is an -- optimization that can be made at a later time, e.g. when -- replacing Text.XML.Light. parentElements :: NonEmpty XML.Element -- | A map from internal namespace IDs to the namespace prefixes -- used in XML elements , namespacePrefixes :: NameSpacePrefixes nsID -- | A map from internal namespace IDs to namespace IRIs -- (Only necessary for matching namespace IDs and prefixes) , namespaceIRIs :: NameSpaceIRIs nsID -- | A place to put "something else". This feature is used heavily -- to keep the main code cleaner. More specifically, the main reader -- is divided into different stages. Each stage lifts something up -- here, which the next stage can then use. This could of course be -- generalized to a state-tree or used for the namespace IRIs. The -- border between states and values is an imaginary one, after all. -- But the separation as it is seems to be enough for now. , moreState :: extraState } -> XMLConverterState nsID extraState -- createStartState :: (NameSpaceID nsID) => XML.Element -> extraState -> XMLConverterState nsID extraState createStartState element extraState = XMLConverterState { parentElements = element :| [] , namespacePrefixes = M.empty , namespaceIRIs = getInitialIRImap , moreState = extraState } -- | Functor over extra state instance Functor (XMLConverterState nsID) where fmap f ( XMLConverterState parents prefixes iRIs extraState ) = XMLConverterState parents prefixes iRIs (f extraState) -- replaceExtraState :: extraState -> XMLConverterState nsID _x -> XMLConverterState nsID extraState replaceExtraState x s = fmap (const x) s -- currentElement :: XMLConverterState nsID extraState -> XML.Element currentElement state = NonEmpty.head (parentElements state) -- | Replace the current position by another, modifying the extra state -- in the process swapStack' :: XMLConverterState nsID extraState -> NonEmpty XML.Element -> ( XMLConverterState nsID extraState , NonEmpty XML.Element ) swapStack' state stack = ( state { parentElements = stack } , parentElements state ) -- pushElement :: XML.Element -> XMLConverterState nsID extraState -> XMLConverterState nsID extraState pushElement e state = state { parentElements = NonEmpty.cons e (parentElements state) } -- | Pop the top element from the call stack, unless it is the last one. popElement :: XMLConverterState nsID extraState -> Maybe (XMLConverterState nsID extraState) popElement state | _ :| (e:es) <- parentElements state = Just $ state { parentElements = e :| es } | otherwise = Nothing -------------------------------------------------------------------------------- -- Main type -------------------------------------------------------------------------------- -- It might be a good idea to pack the converters in a GADT -- Downside: data instead of type -- Upside: 'Failure' could be made a parameter as well. -- type XMLConverter nsID extraState input output = ArrowState (XMLConverterState nsID extraState ) input output type FallibleXMLConverter nsID extraState input output = XMLConverter nsID extraState input (Fallible output) -- runConverter :: XMLConverter nsID extraState input output -> XMLConverterState nsID extraState -> input -> output runConverter converter state input = snd $ runArrowState converter (state,input) runConverter' :: (NameSpaceID nsID) => FallibleXMLConverter nsID extraState () success -> extraState -> XML.Element -> Fallible success runConverter' converter extraState element = runConverter (readNSattributes >>? converter) (createStartState element extraState) () -- getCurrentElement :: XMLConverter nsID extraState x XML.Element getCurrentElement = extractFromState currentElement -- getExtraState :: XMLConverter nsID extraState x extraState getExtraState = extractFromState moreState -- setExtraState :: XMLConverter nsID extraState extraState extraState setExtraState = withState $ \state extra -> (replaceExtraState extra state , extra) -- | Lifts a function to the extra state. modifyExtraState :: (extraState -> extraState) -> XMLConverter nsID extraState x x modifyExtraState = modifyState.fmap -- | First sets the extra state to the new value. Then modifies the original -- extra state with a converter that uses the new state. Finally, the -- intermediate state is dropped and the extra state is lifted into the -- state as it was at the beginning of the function. -- As a result, exactly the extra state and nothing else is changed. -- The resulting converter even behaves like an identity converter on the -- value level. -- -- (The -ing form is meant to be mnemonic in a sequence of arrows as in -- convertingExtraState () converter >>> doOtherStuff) -- convertingExtraState :: extraState' -> FallibleXMLConverter nsID extraState' extraState extraState -> FallibleXMLConverter nsID extraState x x convertingExtraState v a = withSubStateF setVAsExtraState modifyWithA where setVAsExtraState = liftAsSuccess $ extractFromState id >>^ replaceExtraState v modifyWithA = keepingTheValue (moreState ^>> a) >>^ spreadChoice >>?% flip replaceExtraState -- | First sets the extra state to the new value. Then produces a new -- extra state with a converter that uses the new state. Finally, the -- intermediate state is dropped and the extra state is lifted into the -- state as it was at the beginning of the function. -- As a result, exactly the extra state and nothing else is changed. -- The resulting converter even behaves like an identity converter on the -- value level. -- -- Equivalent to -- -- > \v x a -> convertingExtraState v (returnV x >>> a) -- -- (The -ing form is meant to be mnemonic in a sequence of arrows as in -- producingExtraState () () producer >>> doOtherStuff) -- producingExtraState :: extraState' -> a -> FallibleXMLConverter nsID extraState' a extraState -> FallibleXMLConverter nsID extraState x x producingExtraState v x a = convertingExtraState v (returnV x >>> a) -------------------------------------------------------------------------------- -- Work in namespaces -------------------------------------------------------------------------------- -- | Arrow version of 'getIRI' lookupNSiri :: (NameSpaceID nsID) => nsID -> XMLConverter nsID extraState x (Maybe NameSpaceIRI) lookupNSiri nsID = extractFromState $ \state -> getIRI nsID $ namespaceIRIs state -- lookupNSprefix :: (NameSpaceID nsID) => nsID -> XMLConverter nsID extraState x (Maybe NameSpacePrefix) lookupNSprefix nsID = extractFromState $ \state -> M.lookup nsID $ namespacePrefixes state -- | Extracts namespace attributes from the current element and tries to -- update the current mapping accordingly readNSattributes :: (NameSpaceID nsID) => FallibleXMLConverter nsID extraState x () readNSattributes = fromState $ \state -> maybe (state, failEmpty ) ( , succeedWith ()) (extractNSAttrs state ) where extractNSAttrs :: (NameSpaceID nsID) => XMLConverterState nsID extraState -> Maybe (XMLConverterState nsID extraState) extractNSAttrs startState = foldl' (\state d -> state >>= addNS d) (Just startState) nsAttribs where nsAttribs = mapMaybe readNSattr (XML.elAttribs element) element = currentElement startState readNSattr (XML.Attr (XML.QName name _ (Just "xmlns")) iri) = Just (name, iri) readNSattr _ = Nothing addNS (prefix, iri) state = fmap updateState $ getNamespaceID iri $ namespaceIRIs state where updateState (iris,nsID) = state { namespaceIRIs = iris , namespacePrefixes = M.insert nsID prefix $ namespacePrefixes state } -------------------------------------------------------------------------------- -- Common namespace accessors -------------------------------------------------------------------------------- -- | Given a namespace id and an element name, creates a 'XML.QName' for -- internal use qualifyName :: (NameSpaceID nsID) => nsID -> ElementName -> XMLConverter nsID extraState x XML.QName qualifyName nsID name = lookupNSiri nsID &&& lookupNSprefix nsID >>% XML.QName name -- | Checks if a given element matches both a specified namespace id -- and a predicate elemNameMatches :: (NameSpaceID nsID) => nsID -> (ElementName -> Bool) -> XMLConverter nsID extraState XML.Element Bool elemNameMatches nsID f = keepingTheValue (lookupNSiri nsID) >>% hasMatchingName where hasMatchingName e iri = let name = XML.elName e in f (XML.qName name) && XML.qURI name == iri -- | Checks if a given element matches both a specified namespace id -- and a specified element name elemNameIs :: (NameSpaceID nsID) => nsID -> ElementName -> XMLConverter nsID extraState XML.Element Bool elemNameIs nsID name = elemNameMatches nsID (== name) -------------------------------------------------------------------------------- -- General content -------------------------------------------------------------------------------- elName :: XML.Element -> ElementName elName = XML.qName . XML.elName -- elContent :: XMLConverter nsID extraState x [XML.Content] elContent = getCurrentElement >>^ XML.elContent -------------------------------------------------------------------------------- -- Children -------------------------------------------------------------------------------- -- -- findChildren :: (NameSpaceID nsID) => nsID -> ElementName -> XMLConverter nsID extraState x [XML.Element] findChildren nsID name = qualifyName nsID name &&& getCurrentElement >>% XML.findChildren -- findChild' :: (NameSpaceID nsID) => nsID -> ElementName -> XMLConverter nsID extraState x (Maybe XML.Element) findChild' nsID name = qualifyName nsID name &&& getCurrentElement >>% XML.findChild -- findChild :: (NameSpaceID nsID) => nsID -> ElementName -> FallibleXMLConverter nsID extraState x XML.Element findChild nsID name = findChild' nsID name >>> maybeToChoice filterChildrenName' :: (NameSpaceID nsID) => nsID -> (ElementName -> Bool) -> XMLConverter nsID extraState x [XML.Element] filterChildrenName' nsID f = getCurrentElement >>> arr XML.elChildren >>> iterateS (keepingTheValue (elemNameMatches nsID f)) >>> arr (map fst . filter snd) -------------------------------------------------------------------------------- -- Attributes -------------------------------------------------------------------------------- -- isSet' :: (NameSpaceID nsID) => nsID -> AttributeName -> XMLConverter nsID extraState x (Maybe Bool) isSet' nsID attrName = findAttr' nsID attrName >>^ (>>= stringToBool') isSetWithDefault :: (NameSpaceID nsID) => nsID -> AttributeName -> Bool -> XMLConverter nsID extraState x Bool isSetWithDefault nsID attrName def' = isSet' nsID attrName >>^ fromMaybe def' -- | Lookup value in a dictionary, fail if no attribute found or value -- not in dictionary searchAttrIn :: (NameSpaceID nsID) => nsID -> AttributeName -> [(AttributeValue,a)] -> FallibleXMLConverter nsID extraState x a searchAttrIn nsID attrName dict = findAttr nsID attrName >>?^? maybeToChoice.(`lookup` dict ) -- | Lookup value in a dictionary. If attribute or value not found, -- return default value searchAttr :: (NameSpaceID nsID) => nsID -> AttributeName -> a -> [(AttributeValue,a)] -> XMLConverter nsID extraState x a searchAttr nsID attrName defV dict = searchAttrIn nsID attrName dict >>> const defV ^|||^ id -- | Read a 'Lookupable' attribute. Fail if no match. lookupAttr :: (NameSpaceID nsID, Lookupable a) => nsID -> AttributeName -> FallibleXMLConverter nsID extraState x a lookupAttr nsID attrName = lookupAttr' nsID attrName >>^ maybeToChoice -- | Read a 'Lookupable' attribute. Return the result as a 'Maybe'. lookupAttr' :: (NameSpaceID nsID, Lookupable a) => nsID -> AttributeName -> XMLConverter nsID extraState x (Maybe a) lookupAttr' nsID attrName = findAttr' nsID attrName >>^ (>>= readLookupable) -- | Read a 'Lookupable' attribute with explicit default lookupAttrWithDefault :: (NameSpaceID nsID, Lookupable a) => nsID -> AttributeName -> a -> XMLConverter nsID extraState x a lookupAttrWithDefault nsID attrName deflt = lookupAttr' nsID attrName >>^ fromMaybe deflt -- | Read a 'Lookupable' attribute with implicit default lookupDefaultingAttr :: (NameSpaceID nsID, Lookupable a, Default a) => nsID -> AttributeName -> XMLConverter nsID extraState x a lookupDefaultingAttr nsID attrName = lookupAttrWithDefault nsID attrName def -- | Return value as a (Maybe Text) findAttr' :: (NameSpaceID nsID) => nsID -> AttributeName -> XMLConverter nsID extraState x (Maybe AttributeValue) findAttr' nsID attrName = qualifyName nsID attrName &&& getCurrentElement >>% XML.findAttr -- | Return value as a (Maybe Text) findAttrText' :: (NameSpaceID nsID) => nsID -> AttributeName -> XMLConverter nsID extraState x (Maybe TextAttributeValue) findAttrText' nsID attrName = qualifyName nsID attrName &&& getCurrentElement >>% XML.findAttr -- | Return value as string or fail findAttr :: (NameSpaceID nsID) => nsID -> AttributeName -> FallibleXMLConverter nsID extraState x AttributeValue findAttr nsID attrName = findAttr' nsID attrName >>> maybeToChoice -- | Return value as text or fail findAttrText :: (NameSpaceID nsID) => nsID -> AttributeName -> FallibleXMLConverter nsID extraState x TextAttributeValue findAttrText nsID attrName = findAttr' nsID attrName >>> maybeToChoice -- | Return value as string or return provided default value findAttrTextWithDefault :: (NameSpaceID nsID) => nsID -> AttributeName -> TextAttributeValue -> XMLConverter nsID extraState x TextAttributeValue findAttrTextWithDefault nsID attrName deflt = findAttr' nsID attrName >>^ fromMaybe deflt -- | Read and return value or fail readAttr :: (NameSpaceID nsID, Read attrValue) => nsID -> AttributeName -> FallibleXMLConverter nsID extraState x attrValue readAttr nsID attrName = readAttr' nsID attrName >>> maybeToChoice -- | Read and return value or return Nothing readAttr' :: (NameSpaceID nsID, Read attrValue) => nsID -> AttributeName -> XMLConverter nsID extraState x (Maybe attrValue) readAttr' nsID attrName = findAttr' nsID attrName >>^ (>>= tryToRead) -- | Read and return value or return provided default value readAttrWithDefault :: (NameSpaceID nsID, Read attrValue) => nsID -> AttributeName -> attrValue -> XMLConverter nsID extraState x attrValue readAttrWithDefault nsID attrName deflt = findAttr' nsID attrName >>^ (>>= tryToRead) >>^ fromMaybe deflt -- | Read and return value or return default value from 'Default' instance getAttr :: (NameSpaceID nsID, Read attrValue, Default attrValue) => nsID -> AttributeName -> XMLConverter nsID extraState x attrValue getAttr nsID attrName = readAttrWithDefault nsID attrName def -------------------------------------------------------------------------------- -- Movements -------------------------------------------------------------------------------- -- jumpThere :: XMLConverter nsID extraState XML.Element XML.Element jumpThere = withState (\state element -> ( pushElement element state , element ) ) -- swapStack :: XMLConverter nsID extraState (NonEmpty XML.Element) (NonEmpty XML.Element) swapStack = withState swapStack' -- jumpBack :: FallibleXMLConverter nsID extraState _x _x jumpBack = tryModifyState (popElement >>> maybeToChoice) -- | Support function for "procedural" converters: jump to an element, execute -- a converter, jump back. -- This version is safer than 'executeThere', because it does not rely on the -- internal stack. As a result, the converter can not move around in arbitrary -- ways. The downside is of course that some of the environment is not -- accessible to the converter. switchingTheStack :: XMLConverter nsID moreState a b -> XMLConverter nsID moreState (a, XML.Element) b switchingTheStack a = second ( (:| []) ^>> swapStack ) >>> first a >>> second swapStack >>^ fst -- | Support function for "procedural" converters: jumps to an element, executes -- a converter, jumps back. -- Make sure that the converter is well-behaved; that is it should -- return to the exact position it started from in /every possible path/ of -- execution, even if it "fails". If it does not, you may encounter -- strange bugs. If you are not sure about the behaviour or want to use -- shortcuts, you can often use 'switchingTheStack' instead. executeThere :: FallibleXMLConverter nsID moreState a b -> FallibleXMLConverter nsID moreState (a, XML.Element) b executeThere a = second jumpThere >>> fst ^>> a >>> jumpBack -- >>? jumpBack would not ensure the jump. >>^ collapseEither -- | Do something in a specific element, then come back executeIn :: XMLConverter nsID extraState XML.Element s -> XMLConverter nsID extraState XML.Element s executeIn a = duplicate >>> switchingTheStack a -- | Do something in a sub-element, then come back executeInSub :: (NameSpaceID nsID) => nsID -> ElementName -> FallibleXMLConverter nsID extraState f s -> FallibleXMLConverter nsID extraState f s executeInSub nsID name a = keepingTheValue (findChild nsID name) >>> ignoringState liftFailure >>? switchingTheStack a where liftFailure (_, Left f) = Left f liftFailure (x, Right e) = Right (x, e) -------------------------------------------------------------------------------- -- Iterating over children -------------------------------------------------------------------------------- -- Helper converter to prepare different types of iterations. -- It lifts the children (of a certain type) of the current element -- into the value level and pairs each one with the current input value. prepareIteration :: (NameSpaceID nsID) => nsID -> ElementName -> XMLConverter nsID extraState b [(b, XML.Element)] prepareIteration nsID name = keepingTheValue (findChildren nsID name) >>% distributeValue -- withEveryL :: (NameSpaceID nsID) => nsID -> ElementName -> FallibleXMLConverter nsID extraState a b -> FallibleXMLConverter nsID extraState a [b] withEveryL = withEvery -- | Applies a converter to every child element of a specific type. -- Collects results in a 'MonadPlus'. -- Fails completely if any conversion fails. withEvery :: (NameSpaceID nsID, MonadPlus m) => nsID -> ElementName -> FallibleXMLConverter nsID extraState a b -> FallibleXMLConverter nsID extraState a (m b) withEvery nsID name a = prepareIteration nsID name >>> iterateS' (switchingTheStack a) -- | Applies a converter to every child element of a specific type. -- Collects all successful results in a list. tryAll :: (NameSpaceID nsID) => nsID -> ElementName -> FallibleXMLConverter nsID extraState b a -> XMLConverter nsID extraState b [a] tryAll nsID name a = prepareIteration nsID name >>> iterateS (switchingTheStack a) >>^ rights -------------------------------------------------------------------------------- -- Matching children -------------------------------------------------------------------------------- type IdXMLConverter nsID moreState x = XMLConverter nsID moreState x x type MaybeCConverter nsID moreState x = Maybe (IdXMLConverter nsID moreState (x, XML.Content)) -- Chainable converter that helps deciding which converter to actually use. type ContentMatchConverter nsID extraState x = IdXMLConverter nsID extraState (MaybeCConverter nsID extraState x, XML.Content) -- Helper function: The @c@ is actually a converter that is to be selected by -- matching XML content to the first two parameters. -- The fold used to match elements however is very simple, so to use it, -- this function wraps the converter in another converter that unifies -- the accumulator. Think of a lot of converters with the resulting type -- chained together. The accumulator not only transports the element -- unchanged to the next matcher, it also does the actual selecting by -- combining the intermediate results with '(<|>)'. makeMatcherC :: (NameSpaceID nsID) => nsID -> ElementName -> FallibleXMLConverter nsID extraState a a -> ContentMatchConverter nsID extraState a makeMatcherC nsID name c = ( second ( contentToElem >>> returnV Nothing ||| ( elemNameIs nsID name >>^ bool Nothing (Just cWithJump) ) ) >>% (<|>) ) &&&^ snd where cWithJump = ( fst ^&&& ( second contentToElem >>> spreadChoice ^>>? executeThere c ) >>% recover) &&&^ snd contentToElem :: FallibleXMLConverter nsID extraState XML.Content XML.Element contentToElem = arr $ \case XML.Elem e' -> succeedWith e' _ -> failEmpty -- Creates and chains a bunch of matchers prepareMatchersC :: (NameSpaceID nsID) => [(nsID, ElementName, FallibleXMLConverter nsID extraState x x)] -> ContentMatchConverter nsID extraState x --prepareMatchersC = foldSs . (map $ uncurry3 makeMatcherC) prepareMatchersC = reverseComposition . map (uncurry3 makeMatcherC) -- | Takes a list of element-data - converter groups and -- * Finds all content of the current element -- * Matches each group to each piece of content in order -- (at most one group per piece of content) -- * Filters non-matched content -- * Chains all found converters in content-order -- * Applies the chain to the input element matchContent' :: (NameSpaceID nsID) => [(nsID, ElementName, FallibleXMLConverter nsID extraState a a)] -> XMLConverter nsID extraState a a matchContent' lookups = matchContent lookups (arr fst) -- | Takes a list of element-data - converter groups and -- * Finds all content of the current element -- * Matches each group to each piece of content in order -- (at most one group per piece of content) -- * Adds a default converter for all non-matched content -- * Chains all found converters in content-order -- * Applies the chain to the input element matchContent :: (NameSpaceID nsID) => [(nsID, ElementName, FallibleXMLConverter nsID extraState a a)] -> XMLConverter nsID extraState (a,XML.Content) a -> XMLConverter nsID extraState a a matchContent lookups fallback = let matcher = prepareMatchersC lookups in keepingTheValue ( elContent >>> map (Nothing,) ^>> iterateSL matcher >>^ map swallowOrFallback -- >>> foldSs >>> reverseComposition ) >>> swap ^>> app where -- let the converter swallow the content and drop the content -- in the return value swallowOrFallback (Just converter,content) = (,content) ^>> converter >>^ fst swallowOrFallback (Nothing ,content) = (,content) ^>> fallback -------------------------------------------------------------------------------- -- Internals -------------------------------------------------------------------------------- stringToBool' :: Text -> Maybe Bool stringToBool' val | val `elem` trueValues = Just True | val `elem` falseValues = Just False | otherwise = Nothing where trueValues = ["true" ,"on" ,"1"] falseValues = ["false","off","0"] distributeValue :: a -> [b] -> [(a,b)] distributeValue = map.(,) -------------------------------------------------------------------------------- {- NOTES It might be a good idea to refactor the namespace stuff. E.g.: if a namespace constructor took a string as a parameter, things like > a ?>/< (NsText,"body") would be nicer. Together with a rename and some trickery, something like > |< NsText "body" >< NsText "p" ?> a | might even be possible. Some day, XML.Light should be replaced by something better. While doing that, it might be useful to replace String as the type of element names with something else, too. (Of course with OverloadedStrings). While doing that, maybe the types can be created in a way that something like > NsText:"body" could be used. Overloading (:) does not sounds like the best idea, but if the element name type was a list, this might be possible. Of course that would be a bit hackish, so the "right" way would probably be something like > InNS NsText "body" but isn't that a bit boring? ;) -}