Modern library for working with URIs.
Modern URI
This is a modern library for working with URIs in Haskell as per RFC 3986:
https://tools.ietf.org/html/rfc3986
Features
The modern-uri
package features:
- Correct by construction
URI
data type. The correctness is ensured by making sure that every sub-component of theURI
record cannot be invalid. - Textual components in the
URI
data type are represented asText
rather thanByteString
, because they are percent-decoded and so they can contain characters outside of ASCII range (i.e. Unicode). This allows for easier manipulation ofURI
s, while encoding and decoding headaches are handled by the parsers and renders for you. - Absolute and relative URIs differ only by the scheme component: if it's
Nothing
, then the URI is relative, otherwise it's absolute. - A Megaparsec parser that can be used as a standalone smart constructor for the
URI
data type (seemkURI
) as well as seamlessly integrated into a bigger Megaparsec parser that consumes a strictText
(seeparser
) or strictByteString
(seeparserBs
). - The parser performs some normalization, for example it collapses consecutive slashes. Some smart constructors such as
mkScheme
andmkHost
also perform normalization. So in a sense URIs are also “normalized by construction” to some extent. - Fast rendering to strict
Text
andByteString
as well as to their respectiveBuilder
types and toString
/ShowS
. - Extensive set of lensy helpers for easier manipulation of the nested data types (see
Text.URI.Lens
). - Quasi-quoters for compile-time construction of the
URI
data type and refined text types (seeText.URI.QQ
).
Quick start
The modern-uri
package serves three main purposes:
- Construction of the
URI
data type. - Inspection and manipulation of the
URI
data type (in the sense of changing its parts). - Rendering of
URI
s.
Let's walk through every operation quickly.
Construction of URI
s
There are four ways to create a URI
value. First off, one could assemble it manually like so:
λ> :set -XOverloadedStrings
λ> import qualified Text.URI as URI
λ> scheme <- URI.mkScheme "https"
λ> scheme
"https"
λ> host <- URI.mkHost "markkarpov.com"
λ> host
"markkarpov.com"
λ> let uri = URI.URI (Just scheme) (Right (URI.Authority Nothing host Nothing)) Nothing [] Nothing
λ> uri
URI
{ uriScheme = Just "https",
uriAuthority =
Right
( Authority
{ authUserInfo = Nothing,
authHost = "markkarpov.com",
authPort = Nothing
}
),
uriPath = Nothing,
uriQuery = [],
uriFragment = Nothing
}
In this library we use quite a few refined text values. They only can be constructed by using smart constructors like mkScheme :: MonadThrow m => Text -> m (RText 'Scheme)
. For example, if argument to mkScheme
is not a valid scheme, an exception will be thrown. Note that monads such as Maybe
are also instances of the MonadThrow
type class, and so the smart constructors can be used in pure environment as well.
There is a smart constructor that can make an entire URI
too, it's called (unsurprisingly) mkURI
:
λ> uri <- URI.mkURI "https://markkarpov.com"
λ> uri
URI
{ uriScheme = Just "https",
uriAuthority =
Right
( Authority
{ authUserInfo = Nothing,
authHost = "markkarpov.com",
authPort = Nothing
}
),
uriPath = Nothing,
uriQuery = [],
uriFragment = Nothing
}
If the argument of mkURI
is not a valid URI, then an exception will be thrown. The exception will contain full context and the actual parse error.
If some refined text value or URI
is known statically at compile time, we can use Template Haskell, namely the “quasi quotes” feature. To do so import the Text.URI.QQ
module and enable the QuasiQuotes
language extension, like so:
λ> :set -XQuasiQuotes
λ> import qualified Text.URI.QQ as QQ
λ> let uri = [QQ.uri|https://markkarpov.com|]
λ> uri
URI
{ uriScheme = Just "https",
uriAuthority =
Right
( Authority
{ authUserInfo = Nothing,
authHost = "markkarpov.com",
authPort = Nothing
}
),
uriPath = Nothing,
uriQuery = [],
uriFragment = Nothing
}
Note how the value returned by the url
quasi quote is pure, its construction cannot fail because when there is an invalid URI inside the quote it's a compilation error. The Text.URI.QQ
module has quasi-quoters for scheme, host, and other components.
Finally, the package provides two Megaparsec parsers: parser
and parserBs
. The first works on strict Text
, while the other one works on strict ByteString
s. You can use the parsers in a bigger Megaparsec parser to parse URI
s.
Inspection and manipulation
Although one could use record syntax directly, possibly with language extensions like RecordWildcards
, the best way to inspect and edit parts of URI
is with lenses. The lenses can be found in the Text.URI.Lens
module. If you have never used the lens
library, you could probably start by reading/watching materials suggested in the library description on Hackage.
Here are some examples, just to show off what you can do:
λ> import Text.URI.Lens
λ> uri <- URI.mkURI "https://example.com/some/path?foo=bar&baz=quux&foo=foo"
λ> uri ^. uriScheme
Just "https"
λ> uri ^? uriAuthority . _Right . authHost
Just "example.com"
λ> uri ^. isPathAbsolute
True
λ> uri ^. uriPath
["some","path"]
λ> k <- URI.mkQueryKey "foo"
λ> uri ^.. uriQuery . queryParam k
["bar","foo"]
-- etc.
Rendering
Rendering turns a URI
into a sequence of bytes or characters. Currently the following options are available:
render
for rendering to strictText
.render'
for rendering to textBuilder
. It's possible to turn that into lazyText
by using thetoLazyText
function fromData.Text.Lazy.Builder
.renderBs
for rendering to strictByteString
.renderBs'
for rendering to byte stringBuilder
. Similarly it's possible to get a lazyByteString
from that by using thetoLazyByteString
function fromData.ByteString.Builder
.renderStr
can be used to render toString
. Sometimes it's handy. The render uses difference lists internally so it's not that slow, but in general I'd advise avoidingString
s.renderStr'
returnsShowS
, which is just a synonym forString -> String
—a function that prepends the result of rendering to a givenString
. This is useful when theURI
you want to render is a part of a bigger output, just like with the builders mentioned above.
Examples:
λ> uri <- mkURI "https://markkarpov.com/posts.html"
λ> render uri
"https://markkarpov.com/posts.html"
λ> renderBs uri
"https://markkarpov.com/posts.html"
λ> renderStr uri
"https://markkarpov.com/posts.html"
-- etc.
Contribution
Issues, bugs, and questions may be reported in the GitHub issue tracker for this project.
Pull requests are also welcome.
License
Copyright © 2017–present Mark Karpov
Distributed under BSD 3 clause license.