o-clock: Type-safe time library.

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See README.md for details.


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Properties

Versions0.0.0, 0.1.0, 0.1.1, 1.0.0, 1.0.0.1, 1.0.0.1
Change logCHANGELOG.md
Dependenciesaeson (>=1.2.4 && <1.5), base (>=4.9 && <5), deepseq (==1.4.*), ghc-prim (==0.5.*), hashable (>=1.2.6 && <1.3), o-clock, serialise (>=0.2), text [details]
LicenseMIT
Copyright2018 Serokell
Author@serokell
MaintainerSerokell <hi@serokell.io>
CategoryTime
Home pagehttps://github.com/serokell/o-clock
Bug trackerhttps://github.com/serokell/o-clock/issues
Source repositoryhead: git clone https://github.com/serokell/o-clock
Executablesplay-o-clock
UploadedMon Oct 1 09:40:34 UTC 2018 by vrom911

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NameDescriptionDefaultType
aeson

Provide instances for aeson

DisabledAutomatic
hashable

Provide instances for hashable

DisabledAutomatic
deepseq

Provide instances for deepseq

DisabledAutomatic
serialise

Provide instances for serialise

DisabledAutomatic

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Readme for o-clock-1.0.0.1

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O'Clock

Hackage Build status Stackage Stackage Nightly MIT license

Overview

O'Clock is the library that provides type-safe time units data types.

Most understandable use case is using threadDelay function. If you want to wait for 5 seconds in your program, you need to write something like this:

threadDelay (5 * 10^(6 :: Int))

With O'Clock you can write in several more convenient ways (and use more preferred to you):

threadDelay $ sec 5
threadDelay (Time @Second 5)
threadDelay @Second 5

Features

O'Clock provides the following features to its users:

  1. Single data type for all time units.

    • Different time units represented as different type parameters for single Time data type. Amount of required boilerplate is minimal.
  2. Time stored as Rational number.

    • It means that if you convert 900 milliseconds to seconds, you will have 0.9 second instead of 0 seconds. So property toUnit @to @from . toUnit @from @to ≡ id is satisfied.
  3. Different unit types are stored as rational multiplier in type.

    • o-clock package introduces its own kind Rat for type-level rational numbers. Units are stored as rational multipliers in type. Because of that some computation is performed on type-level. So if you want to convert Week to Day, o-clock library ensures that time units will just be multipled by 7.
  4. Functions from base that work with time are converted to more time-safe versions:

    • These functions are: threadDelay, timeout, getCPUTime.
  5. Externally extensible interface.

    • It means that if you want to roll out your own time units and use it in your project, this can be done in easy and convenient way (see tutorial below).
  6. O'Clock contains useful instances like Hashable, NFData, Serialise, ToJSON, FromJSON but it's not included to the package by default. To do that you need to provide corresponding flag from this list: hashable, deepseq, serialise and aeson.

Note: features support for GHC-8.2.2 and GHC-8.0.2 is quite limited.

Example: How to make your own time unit

This README section contains tutorial on how you can introduce your own time units. Let's solve the following problem:

You're CEO of big company. Your employers report you number of hours they worked this month. You want format hours in more human-readable way, i.e. in number of work weeks and work days. So we want 140 hours be formatted as 3ww2wd (3 full work weeks and 2 full work days).

Setting up

Since this tutorial is literate haskell file, let's first write some pragmas and imports.

{-# LANGUAGE CPP              #-}
{-# LANGUAGE DataKinds        #-}
#if ( __GLASGOW_HASKELL__ >= 806 )
{-# LANGUAGE NoStarIsType     #-}
#endif
{-# LANGUAGE TypeApplications #-}
{-# LANGUAGE TypeFamilies     #-}
{-# LANGUAGE TypeOperators    #-}

module Main where

#if ( __GLASGOW_HASKELL__ >= 804 )
import Time (type (*))
#endif
import Time ((:%), (-:-), Time, Hour, UnitName,floorUnit, hour, seriesF, toUnit)

Introduce custom units

You need to write some code in order to introduce your own time units. In our task we need work day represented as 8 hours and work week represented as 5 work days.

-- | Time unit for a working day (8 hours).
#if ( __GLASGOW_HASKELL__ >= 804 )
type WorkDay = 8 * Hour
#else
type WorkDay = 28800 :% 1
#endif

-- | Time unit for a work week (5 working days).
#if ( __GLASGOW_HASKELL__ >= 804 )
type WorkWeek = 5 * WorkDay
#else
type WorkWeek = 144000 :% 1
#endif

-- this allows to use 'Show' and 'Read' functions for our time units
type instance UnitName (28800  :% 1) = "wd"  -- One WorkDay  contains 28800  seconds
type instance UnitName (144000 :% 1) = "ww"  -- One WorkWeek contains 144000 seconds

Calculations

Now let's implement main logic of our application. Our main function should take hours, convert them to work weeks and work days and then show in human readable format.

calculateWork :: Time Hour -> (Time WorkWeek, Time WorkDay)
calculateWork workHours =
    let completeWeeks = floorUnit $ toUnit @WorkWeek workHours
        completeDays  = floorUnit $ toUnit @WorkDay  workHours -:- toUnit completeWeeks
    in (completeWeeks, completeDays)

formatHours :: Time Hour -> String
formatHours hours = let (weeks, days) = calculateWork hours in show weeks ++ show days

After that we can simply print the output we wanted.

Thought we have special function for this kind of formatting purposes seriesF. So the similar result (but not rounded) can be gained with the usage of it. Check it out:

main :: IO ()
main = do
    putStrLn $ "The result:   " ++ formatHours (hour 140)
    putStrLn $ "With seriesF: " ++ (seriesF @'[WorkWeek, WorkDay] $ hour 140)

And the output will be

The result:   3ww2wd
With seriesF: 3ww2+1/2wd