Popularity
9.5
Stable
Activity
0.0
Declining
162
5
38

Monthly Downloads: 333
Programming language: HTML
License: BSD 3-clause "New" or "Revised" License
Tags: Text    

formatting alternatives and similar packages

Based on the "Text" category.
Alternatively, view formatting alternatives based on common mentions on social networks and blogs.

Do you think we are missing an alternative of formatting or a related project?

Add another 'Text' Package
InfluxDB - Power Real-Time Data Analytics at Scale
sponsored www.influxdata.com

Popular Comparisons

SaaSHub - Software Alternatives and Reviews
sponsored www.saashub.com

README

formatting Build Status Hackage

A type-safe text formatting library based on combinators.

Documentation

Introduction

Call with a formatting function like:

  • format - Format to a lazy Text value.
  • sformat - Format to a strict Text value.
  • bprint - Format to a Builder value.
  • fprint - Format to stdout.
  • hprint - Format to a Handle.

Call syntax:

format <format combinators> <param1> <param2>

Comparison

Example:

format ("Person's name is " % text %  ", age is " % hex) "Dave" 54

or with short-names:

format ("Person's name is " % t % ", age is " % x) "Dave" 54

Similar to C's printf:

printf("Person's name is %s, age is %x","Dave",54);

and Common Lisp's FORMAT:

(format nil "Person's name is ~a, age is ~x" "Dave" 54)

"Hello, World!": Texts

> format (text % "!") "Hi!"
"Hi!!"
> format (string % "!") "Hi!"
"Hi!!"

123: Integers

> format int 23
"23"

23.4: Decimals

> format (fixed 0) 23.3
"23"
> format (fixed 2) 23.3333
"23.33"
> format shortest 23.3333
"23.3333"
> format shortest 0.0
"0"
> format sci 2.3
"2.3"
> format (scifmt Fixed (Just 0)) 2.3
"2"

1,242: Commas

> format commas 123456778
"123,456,778"
> format commas 1234
"1,234"

1st: Ordinals

> format ords 1
"1st"
> format ords 2
"2nd"
> format ords 3
"3rd"
> format ords 4
"4th"

3F: Hex

> format hex 15
"f"
> format hex 25
"19"

Monday 1st June: Dates & times

> now <- getCurrentTime
> later <- getCurrentTime
> format (dayOfMonth % "/" % month % "/" % year) now now now
"16/06/2014"
> format day now
"167"
> format hms now
"08:24:41"
> format tz now
"+0000"
> format datetime now
"Mon Jun 16 08:24:41 UTC 2014"
> format century now
"20"
> format (dayOfMonthOrd % " of " % monthName) now now
"16th of June"

3 years ago: Time spans

> format (diff False) (diffUTCTime later now)
"2 seconds"
> format (diff True) (diffUTCTime later now)
"in 2 seconds"
> format (diff True) (diffUTCTime now later)
"2 seconds ago"
> format (seconds 0 % " secs") (diffUTCTime now later)
"2 secs"

> let Just old = parseTime defaultTimeLocale "%Y" "1980" :: Maybe UTCTime
> format (years 0) (diffUTCTime now old)
"34"
> format (diff True) (diffUTCTime now old)
"in 35 years"
> format (diff True) (diffUTCTime old now)
"35 years ago"
> format (days 0) (diffUTCTime old now)
"12585"
> format (days 0 % " days") (diffUTCTime old now)
"12585 days"

File sizes

> format (bytes shortest) 1024
"1KB"
> format (bytes (fixed 2 % " ")) (1024*1024*5)
"5.00 MB"

Compose formatters

%. is like % but feeds one formatter into another:

λ> format (left 2 '0' %. hex) 10
"0a"

Using more than one formatter on the same argument

λ> now <- getCurrentTime
λ> format (year % "/" <> month <> "/" % dayOfMonth) now
"2015/01/27"

Extension

You can include things verbatim in the formatter:

> format (now "This is printed now.")
"This is printed now."

Although with OverloadedStrings you can just use string literals:

> format "This is printed now."
"This is printed now."

You can handle things later which makes the formatter accept arguments:

> format (later (const "This is printed later.")) ()
"This is printed later."

The type of the function passed to later should return an instance of Monoid.

later :: (a -> Builder) -> Format r (a -> r)

The function you format with (format, bprint, etc.) will determine the monoid of choice. In the case of this library, the top-level formating functions expect you to build a text Builder:

format :: Format Text a -> a

Because builders are efficient generators.

So in this case we will be expected to produce Builders from arguments:

format . later :: (a -> Builder) -> a -> Text

To do that for common types you can just re-use the formatting library and use bprint:

λ> :t bprint
bprint :: Format Builder a -> a
> :t bprint int 23
bprint int 23 :: Builder

Coming back to later, we can now use it to build our own printer combinators:

> let mint = later (maybe "" (bprint int))
> :t mint
mint :: Integral a => Format r (Maybe a -> r)

Now mint is a formatter to show Maybe Integer:

> format mint (readMaybe "23")
"23"
> format mint (readMaybe "foo")
""

Although a better, more general combinator might be:

> let mfmt x f = later (maybe x (bprint f))

Now you can use it to maybe format things:

> format (mfmt "Nope!" int) (readMaybe "foo")
"Nope!"

Scientific

If you're using a type which provides its own builder, like the Scientific type:

import Data.Text.Lazy.Builder.Scientific
scientificBuilder :: Scientific -> Builder
formatScientificBuilder :: FPFormat -> Maybe Int -> Scientific -> Builder

Then you can use later easily:

> format (later scientificBuilder) 23.4
"23.4"

Actually, there are now already two handy combinators (sci and scifmt) for the Scientific type as shown above in the Decimals section.