Safe Haskell | None |
---|---|
Language | Haskell98 |
- data StringTemplate a = STMP {}
- class Show a => StringTemplateShows a where
- class ToSElem a where
- type STGroup a = String -> StFirst (StringTemplate a)
- class Monoid a => Stringable a where
- stShowsToSE :: (StringTemplateShows a, Stringable b) => a -> SElem b
- inSGen :: (STGroup a -> STGroup a) -> StringTemplate a -> StringTemplate a
- toString :: StringTemplate String -> String
- toPPDoc :: StringTemplate Doc -> Doc
- render :: Stringable a => StringTemplate a -> a
- newSTMP :: Stringable a => String -> StringTemplate a
- newAngleSTMP :: Stringable a => String -> StringTemplate a
- getStringTemplate :: Stringable a => String -> STGroup a -> Maybe (StringTemplate a)
- getStringTemplate' :: Stringable a => String -> STGroup a -> Maybe (StringTemplate a)
- setAttribute :: (ToSElem a, Stringable b) => String -> a -> StringTemplate b -> StringTemplate b
- setManyAttrib :: (ToSElem a, Stringable b) => [(String, a)] -> StringTemplate b -> StringTemplate b
- setNativeAttribute :: Stringable b => String -> b -> StringTemplate b -> StringTemplate b
- setManyNativeAttrib :: Stringable b => [(String, b)] -> StringTemplate b -> StringTemplate b
- withContext :: (ToSElem a, Stringable b) => StringTemplate b -> a -> StringTemplate b
- optInsertTmpl :: [(String, String)] -> StringTemplate a -> StringTemplate a
- setEncoder :: Stringable a => (a -> a) -> StringTemplate a -> StringTemplate a
- paddedTrans :: a -> [[a]] -> [[a]]
- data SEnv a = SEnv {}
- parseSTMP :: Stringable a => (Char, Char) -> String -> Either String (SEnv a -> a)
- dumpAttribs :: Stringable a => StringTemplate a
- checkTemplate :: Stringable a => StringTemplate a -> (Maybe String, Maybe [String], Maybe [String])
- checkTemplateDeep :: (Stringable a, NFData a) => StringTemplate a -> ([(String, String)], [String], [String])
- parseSTMPNames :: (Char, Char) -> String -> Either ParseError ([String], [String], [String])
Documentation
data StringTemplate a Source #
A String with "holes" in it. StringTemplates may be composed of any
Stringable
type, which at the moment includes String
s, ByteString
s,
PrettyPrinter Doc
s, and Endo
String
s, which are actually of type
ShowS
. When a StringTemplate is composed of a type, its internals are
as well, so it is, so to speak "turtles all the way down."
Stringable a => SEType a (StringTemplate a) Source # | |
class Show a => StringTemplateShows a where Source #
The StringTemplateShows class should be instantiated for all types that are directly displayed in a StringTemplate, but take an optional format string. Each such type must have an appropriate ToSElem method defined as well.
stringTemplateShow :: a -> String Source #
Defaults to show
.
stringTemplateFormattedShow :: String -> a -> String Source #
Defaults to _ a -> stringTemplateShow a
class ToSElem a where Source #
The ToSElem class should be instantiated for all types that can be inserted as attributes into a StringTemplate.
toSElem :: Stringable b => a -> SElem b Source #
toSElemList :: Stringable b => [a] -> SElem b Source #
type STGroup a = String -> StFirst (StringTemplate a) Source #
A function that generates StringTemplates. This is conceptually a query function into a "group" of StringTemplates.
class Monoid a => Stringable a where Source #
The Stringable class should be instantiated with care. Generally, the provided instances should be enough for anything.
stFromString :: String -> a Source #
stFromByteString :: ByteString -> a Source #
stFromText :: Text -> a Source #
stToString :: a -> String Source #
mconcatMap :: [b] -> (b -> a) -> a Source #
Defaults to mconcatMap m k = foldr (mappend . k) mempty m
mintercalate :: a -> [a] -> a Source #
Defaults to (mconcat .) . intersperse
mlabel :: a -> a -> a Source #
Defaults to mlabel x y = mconcat [x, stFromString "[", y, stFromString "]"]
stShowsToSE :: (StringTemplateShows a, Stringable b) => a -> SElem b Source #
This method should be used to create ToSElem instances for types defining a custom formatted show function.
inSGen :: (STGroup a -> STGroup a) -> StringTemplate a -> StringTemplate a Source #
render :: Stringable a => StringTemplate a -> a Source #
Generic render function for a StringTemplate of any type.
newSTMP :: Stringable a => String -> StringTemplate a Source #
Parses a String to produce a StringTemplate, with '$'s as delimiters. It is constructed with a stub group that cannot look up other templates.
newAngleSTMP :: Stringable a => String -> StringTemplate a Source #
Parses a String to produce a StringTemplate, delimited by angle brackets. It is constructed with a stub group that cannot look up other templates.
getStringTemplate :: Stringable a => String -> STGroup a -> Maybe (StringTemplate a) Source #
Queries an String Template Group and returns Just the appropriate StringTemplate if it exists, otherwise, Nothing.
getStringTemplate' :: Stringable a => String -> STGroup a -> Maybe (StringTemplate a) Source #
As with getStringTemplate
but never inlined, so appropriate for use
with volatile template groups.
setAttribute :: (ToSElem a, Stringable b) => String -> a -> StringTemplate b -> StringTemplate b Source #
Yields a StringTemplate with the appropriate attribute set. If the attribute already exists, it is appended to a list.
setManyAttrib :: (ToSElem a, Stringable b) => [(String, a)] -> StringTemplate b -> StringTemplate b Source #
Yields a StringTemplate with the appropriate attributes set. If any attribute already exists, it is appended to a list.
setNativeAttribute :: Stringable b => String -> b -> StringTemplate b -> StringTemplate b Source #
Yields a StringTemplate with the appropriate attribute set. If the attribute already exists, it is appended to a list. This will not translate the attribute through any intermediate representation, so is more efficient when, e.g. setting attributes that are large bytestrings in a bytestring template.
setManyNativeAttrib :: Stringable b => [(String, b)] -> StringTemplate b -> StringTemplate b Source #
Yields a StringTemplate with the appropriate attributes set. If any attribute already exists, it is appended to a list. Attributes are added natively, which may provide efficiency gains.
withContext :: (ToSElem a, Stringable b) => StringTemplate b -> a -> StringTemplate b Source #
Replaces the attributes of a StringTemplate with those described in the second argument. If the argument does not yield a set of named attributes but only a single one, that attribute is named, as a default, "it".
optInsertTmpl :: [(String, String)] -> StringTemplate a -> StringTemplate a Source #
Adds a set of global options to a single template
setEncoder :: Stringable a => (a -> a) -> StringTemplate a -> StringTemplate a Source #
Sets an encoding function of a template that all values are
rendered with. For example one useful encoder would be stringToHtmlString
. All attributes will be encoded once and only once.
paddedTrans :: a -> [[a]] -> [[a]] Source #
dumpAttribs :: Stringable a => StringTemplate a Source #
A special template that simply dumps the values of all the attributes set in it.
This may be made available to any template as a function by adding it to its group.
I.e. myNewGroup = addSuperGroup myGroup $ groupStringTemplates [("dumpAttribs", dumpAttribs)]
checkTemplate :: Stringable a => StringTemplate a -> (Maybe String, Maybe [String], Maybe [String]) Source #
Returns a tuple of three Maybes. The first is set if there is a parse error in the template. The next is set to a list of attributes that have not been set, or Nothing if all attributes are set. The last is set to a list of invoked templates that cannot be looked up, or Nothing if all invoked templates can be found. Note that this check is shallow -- i.e. missing attributes and templates are only caught in the top level template, not any invoked subtemplate.
checkTemplateDeep :: (Stringable a, NFData a) => StringTemplate a -> ([(String, String)], [String], [String]) Source #
Returns a tuple of three lists. The first is of templates with parse errors, and their errors. The next is of missing attributes, and the last is of missing templates. If there are no errors, then all lists will be empty. This check is performed recursively.