string-interpolate: Haskell string/text/bytestring interpolation that just works

[ bsd3, data, library, text ] [ Propose Tags ]

Unicode-aware string interpolation that handles all textual types.

See the README at https://gitlab.com/williamyaoh/string-interpolate/blob/master/README.md for more info.


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Versions [faq] 0.0.1.0, 0.1.0.0, 0.1.0.1, 0.2.0.0, 0.2.0.1, 0.2.0.2, 0.2.0.3, 0.2.1.0, 0.3.0.0
Change log CHANGELOG.md
Dependencies base (==4.*), bytestring (<0.11), haskell-src-exts (<1.24), haskell-src-meta (<0.9), split (<0.3), template-haskell (<2.17), text (<1.3), text-conversions (<0.4), utf8-string (<1.1) [details]
License BSD-3-Clause
Copyright 2019-2020 William Yao
Author William Yao
Maintainer williamyaoh@gmail.com
Category Data, Text
Home page https://gitlab.com/williamyaoh/string-interpolate/blob/master/README.md
Bug tracker https://gitlab.com/williamyaoh/string-interpolate/issues
Source repo head: git clone https://www.gitlab.com/williamyaoh/string-interpolate.git
Uploaded by williamyaoh at 2020-07-01T00:26:29Z
Distributions NixOS:0.2.1.0, Stackage:0.1.0.1
Downloads 2178 total (203 in the last 30 days)
Rating 2.25 (votes: 2) [estimated by Bayesian average]
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Flags

NameDescriptionDefaultType
extended-benchmarks

Enable benchmarks for Interpolation and interpolatedstring-perl6

DisabledManual
text-builder

Use Text Builders to construct Text outputs instead of the Text type itself. If you're regularly constructing large (>50KB) text objects, enabling this can speed up your code. Otherwise, enabling this is likely to be a net slowdown.

DisabledAutomatic
bytestring-builder

Use ByteString Builders to construct ByteString outputs instead of the ByteString type itself. If you're regularly constructing large (>50KB) bytestrings, enabling this can speed up your code. Otherwise, enabling this is likely to be a net slowdown.

DisabledAutomatic

Use -f <flag> to enable a flag, or -f -<flag> to disable that flag. More info

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Maintainer's Corner

For package maintainers and hackage trustees


Readme for string-interpolate-0.3.0.0

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string-interpolate pipeline status hackage version license

Haskell having 5 different textual types in common use (String, strict and lazy Text, strict and lazy ByteString) means that doing any kind of string manipulation becomes a complicated game of type tetris with constant conversion back and forth. What if string handling was as simple and easy as it is in literally any other language?

Behold:

showWelcomeMessage :: Text -> Integer -> Text
showWelcomeMessage username visits =
  [i|Welcome to my website, #{username}! You are visitor #{visits}!|]

No more needing to mconcat, mappend, and (<>) to glue strings together. No more having to remember a gajillion different functions for converting between strict and lazy versions of Text, or having to worry about encoding between Text <=> ByteString. No more getting bitten by trying to work with Unicode ByteStrings. It just works!

string-interpolate provides a quasiquoter, i, that allows you to interpolate expressions directly into your string. It can produce anything that is an instance of IsString, and can interpolate anything which is an instance of Show.

In addition to the main quasiquoter i, there are two additional quasiquoters for handling multiline strings. If you need to remove extra whitespace and collapse into a single line, use iii. If you need to remove extra indentation but keep linebreaks, use __i.

Unicode handling

string-interpolate handles converting to/from Unicode when converting String/Text to ByteString and vice versa. Lots of libraries use ByteString to represent human-readable text, even though this is not safe. There are lots of useful libraries in the ecosystem that are unfortunately annoying to work with because of the need to generate ByteStrings containing application-specific info. Insisting on explicitly converting to/from UTF-8 in these cases and handling decoding failures adds lots of syntactic noise, when often you can reasonably assume that a given ByteString will, 95% of the time, contain Unicode text. So string-interpolate aims to provide reasonable defaults around conversion between ByteString and real textual types so that developers don't need to constantly be aware of text encodings.

When converting a String/Text to a ByteString, string-interpolate will automatically encode it as a sequence of UTF-8 bytes. When converting a ByteString to String/Text, string-interpolate will assume that the ByteString contains a UTF-8 string, and convert the characters accordingly. Any invalid characters in the ByteString will be converted to the Unicode replacement character � (U+FFFD).

Remember: string-interpolate is not designed for 100% correctness around text encodings, just for convenience in the most common case. If you absolutely need to be aware of text encodings and to handle decode failures, take a look at text-conversions.

Usage

First things first: add string-interpolate to your dependencies:

dependencies:
  - string-interpolate

and import the quasiquoter and enable -XQuasiQuotes:

{-# LANGUAGE QuasiQuotes #-}

import Data.String.Interpolate ( i )

Wrap anything you want to be interpolated with #{}:

λ> name = "William"
λ> [i|Hello, #{name}!|] :: String
>>> "Hello, William!"

You can interpolate in anything which implements Show:

λ> import Data.Time
λ> now <- getCurrentTime
λ> [i|The current time is #{now}.|] :: String
>>> "The current time is 2019-03-10 18:58:40.573892546 UTC."

...and interpolate into anything which implements IsString.

string-interpolate must know what concrete type it's producing; it cannot be used to generate a IsString a => a. If you're using string-interpolate from GHCi, make sure to add type signatures to toplevel usages!

string-interpolate also needs to know what concrete type it's interpolating. For instance, the following code won't work:

showIt :: Show a => a -> String
showIt it = [i|The value: #{it}|]

You would need to convert it to a String using show first.

Strings and characters are always interpolated without surrounding quotes.

λ> verb = 'c'
λ> noun = "sea"
λ> [i|We went to go #{verb} the #{noun}.|] :: String
>>> "We went to go c the sea."

You can interpolate arbitrary expressions:

λ> [i|Tomorrow's date is #{addDays 1 $ utctDay now}.|] :: String
>>> "Tomorrow's date is 2019-03-11."

string-interpolate, by default, handles multiline strings by copying the newline verbatim into the output.

λ> :{
 | [i|
 |   a
 |   b
 |   c
 | |] :: String
 | :}
>>> "\n  a\n  b\n  c\n"

Another quasiquoter, iii, is provided that handles multiline strings/whitespace in a different way, by collapsing any whitespace into a single space. The intention is to use it when you want to split something across multiple lines in source for readability but want it emitted like a normal sentence. iii is otherwise identical to i, with the ability to interpolate arbitrary values.

λ> :{
 | [iii|
 |   Lorum
 |   ipsum
 |   dolor
 |   sit
 |   amet.
 | |] :: String
 | :}
>>> "Lorum ipsum dolor sit amet."

One last quasiquoter, __i, is provided that handles removing indentation without removing line breaks, perhaps if you need to output code samples or error messages. Again, __i is otherwise identical to i, with the ability to interpolate arbitrary values.

λ> :{
 | [__i|
 |   id :: a -> a
 |   id x = y
 |     where y = x
 | |] :: String
 | :}
>>> "id :: a -> a\nid x = y\n  where y = x"

The intended mnemonics for remembering what iii and __i do:

  • iii: Look at the i's as individual lines which have been collapsed into a single line
  • __i: Look at the i as being indented

Backslashes are handled exactly the same way they are in normal Haskell strings. If you need to put a literal #{ into your string, prefix the pound symbol with a backslash:

λ> [i|\#{ some inner text }#|] :: String
>>> "#{ some inner text }#"

Comparison to other interpolation libraries

Some other interpolation libraries available:

Of these, Text.Printf isn't exception-safe, and neat-interpolation can only produce strict Text values. interpolate, formatting, Interpolation, and interpolatedstring-perl6 provide different solutions to the problem of providing a general way of interpolating any value, into any kind of text.

Features

| | string-interpolate | interpolate | formatting | Interpolation | interpolatedstring-perl6 | neat-interpolation | |------------------------------------------|--------------------|-------------|------------|---------------|--------------------------|--------------------| | String/Text support | ✅ | ✅ | ✅ | ⚠️ | ✅ | ⚠️ | | ByteString support | ✅ | ✅ | ❌ | ⚠️ | ✅ | ❌ | | Can interpolate arbitrary Show instances | ✅ | ✅ | ✅ | ✅ | ✅ | ❌ | | Unicode-aware | ✅ | ❌ | ⚠️ | ❌ | ❌ | ⚠️ | | Multiline strings | ✅ | ✅ | ✅ | ✅ | ✅ | ✅ | | Indentation handling | ✅ | ❌ | ❌ | ✅ | ❌ | ✅ | | Whitespace/newline chomping | ✅ | ❌ | ❌ | ❌ | ❌ | ❌ |

⚠ Since formatting doesn't support ByteStrings, it technically supports Unicode.

Interpolation supports all five textual formats, but doesn't allow you to mix and match; that is, you can't interpolate a String into an output string of type Text, and vice versa.

neat-interpolation only supports strict Text. Because of that, it technically supports Unicode.

Performance

Overall: string-interpolate is competitive with the fastest interpolation libraries, only getting outperformed on ByteStrings by Interpolation and interpolatedstring-perl6, and on large, strict Text specifically by formatting.

We run three benchmarks: small string interpolation (<100 chars) with a single interpolation parameter; small strings with multiple interpolation parameters, and large string (~100KB) interpolation. Each of these benchmarks is then run against String, both Text types, and both ByteString types. Numbers are runtime in relation to string-interpolate; smaller is better.

| | string-interpolate | formatting | Interpolation | interpolatedstring-perl6 | neat-interpolation | interpolate | |-------------------------------|------------------------|----------------|-------------------|------------------------------|------------------------|-----------------| | small String | 1x | 2.8x | 1x | 1x | | 1x | | multi interp, String | 1x | 4.3x | 1x | 1x | | 7.9x | | small Text | 1x | 4.3x | 1.8x | 1.9x | 5.8x | 61x | | multi interp, Text | 1x | 3.5x | 5.3x | 5.3x | 3.3x | 29x | | large Text | 1x | 0.6x | 11x | 11x | 22x | 10,000x | | small lazy Text | 1x | 6.1x | 14.5x | 14.5x | | 93x | | multi interp, lazy Text | 1x | 3.7x | 5.8x | 6x | | 34x | | large lazy Text | 1x | 3.9x | 22,000x | 22,000x | | 3,500,000x | | small ByteString | 1x | | 1x | 1x | | 47x | | multi interp, ByteString | 1x | | 0.7x | 0.7x | | 17x | | large ByteString | 1x | | 1x | 1x | | 31,000x | | small lazy ByteString | 1x | | 1x | 1x | | 85x | | multi interp, lazy ByteString | 1x | | 0.4x | 0.4x | | 19x | | large lazy ByteString | 1x | | 0.8x | 0.8x | | 1,300,000x |

(We don't bother running tests on large Strings, because no one is working with data that large using String anyways.)

In particular, notice that Interpolation and interpolatedstring-perl6 blow up on both Text types; string-interpolate and formatting have consistent performance across all benchmarks, with string-interpolation leading the pack in Text cases.

All results were tested on an AWS EC2 t2.medium, with GHC 8.6.5. If you'd like to replicate the results, the benchmarks are located in bench/, and can be run with cabal v2-run string-interpolate-bench -O2 -fextended-benchmarks.

Larger Text and ByteString

By default, string-interpolate is performance tuned for outputting smaller strings. If you find yourself regularly needing extremely large outputs, however, you can change the way output strings are constructed to optimize accordingly. Enable either the text-builder or bytestring-builder Cabal flag, depending on your need, and you should see speedups constructing large strings, at the cost of slowing down smaller outputs.