Documentation

Attempts to parse a string as a URI template. If parsing fails, this will return Nothing. Otherwise it will return Just the parsed template.

Parsing will usually succeed, but it can fail if the input string contains characters that are not valid in IRIs (like ^) or if the input string contains an invalid template expression (like {!}). To include characters that aren't valid in IRIs, percent encode them (like %5E).

>>> parse "invalid template"
Nothing
>>> parse "valid-template"
Just (Template ...)

Renders a template back into a string. This is essentially the opposite of parse. Usually you'll want to use expand to actually substitute variables in the template, but this can be useful for printing out the template itself

>>> render <$> parse "valid-template"
Just "valid-template"
>>> render <$> parse "{var}"
Just "{var}"

Expands a template using the given values. Unlike parsing, expansion always succeeds. If no value is given for a variable, it will simply not appear in the output.

>>> expand [] <$> parse "valid-template"
Just "valid-template"
>>> expand [] <$> parse "template:{example}"
Just "template:"
>>> expand [("example", stringValue "true")] <$> parse "template:{example}"
Just "template:true"

This is like expand except that it gives you more control over how variables are expanded. If you can, use expand. It's simpler.

Instead of passing in a static mapping form names to values, you pass in a function that is used to look up values on the fly. This can be useful if computing values takes a while or requires some impure actions.

>>> expandWith (\ x -> [Nothing, Just . stringValue $ unpack x]) <$> parse "template:{example}"
Just ["template:","template:example"]
>>> let Just template = parse "user={USER}"
>>> expandWith (fmap (fmap stringValue) . lookupEnv . unpack) template
"user=taylor"

Note that as the RFC specifies, the given function will be called at most once for each variable in the template.

>>> let Just template = parse "{a}{a}"
>>> expandWith (\ x -> do { putStrLn $ "-- expanding " <> show x; pure . Just $ Burrito.stringValue "A" }) template
-- expanding "a"
"AA"

Matches a string against a template. This is essentially the opposite of expand.

Since there isn't always one unique match, this function returns all the possibilities. It's up to you to select the one that makes the most sense, or to simply grab the first one if you don't care.

>>> match "" <$> parse "no-match"
Just []
>>> match "no-variables" <$> parse "no-variables"
Just [[]]
>>> match "1-match" <$> parse "{one}-match"
Just [[("one",String "1")]]

Be warned that the number of possible matches can grow quickly if your template has variables next to each other without any separators.

>>> let Just template = parse "{a}{b}"
>>> mapM_ print $ match "ab" template
[("a",String "a"),("b",String "b")]
[("a",String "ab"),("b",String "")]
[("a",String "ab")]
[("a",String ""),("b",String "ab")]
[("b",String "ab")]

Matching supports everything except explode modifiers ({a*}), list values, and dictionary values.

This can be used together with the QuasiQuotes language extension to parse a URI template at compile time. This is convenient because it allows you to verify the validity of the template when you compile your file as opposed to when you run it.

>>> :set -XQuasiQuotes
>>> import Burrito
>>> let template = [uriTemplate|http://example/search{?query}|]
>>> let values = [("query", stringValue "chorizo")]
>>> expand values template
"http://example/search?query=chorizo"

Note that you cannot use escape sequences in this quasi-quoter. For example, this is invalid: [uriTemplate|\xa0|]. You can however use percent encoded triples as normal. So this is valid: [uriTemplate|%c2%a0|].

Represents a URI template.

Represents a value that can be substituted into a template. Can be a string, a list, or dictionary (which is called an associative array in the RFC).

Constructs a string value.

Constructs a list value.

Constructs a dictionary value.