
Data.Quantity  Portability  portable  Stability  provisional  Maintainer  John Goerzen <jgoerzen@complete.org> 



Description 
Tools for rendering sizes
Written by John Goerzen, jgoerzen@complete.org


Synopsis 

renderNum :: (Ord a, Real a) => SizeOpts > Int > a > String   renderNums :: (Ord a, Real a) => SizeOpts > Int > [a] > [String]   parseNum :: (Read a, Fractional a) => SizeOpts > Bool > String > Either String a   parseNumInt :: (Read a, Integral a) => SizeOpts > Bool > String > Either String a   quantifyNum :: (Ord a, Real a, Floating b, Ord b) => SizeOpts > a > (b, Char)   quantifyNums :: (Ord a, Real a, Floating b, Ord b) => SizeOpts > [a] > ([b], Char)   data SizeOpts = SizeOpts {}   binaryOpts :: SizeOpts   siOpts :: SizeOpts 


Documentation 


:: (Ord a, Real a)   => SizeOpts  Precision of the result
 > Int  The number to examine
 > a   > String   Render a number into a string, based on the given quantities. This is
useful for displaying quantities in terms of bytes or in SI units. Give this
function the SizeOpts for the desired output, and a precision (number of
digits to the right of the decimal point), and you get a string output.
Here are some examples:
Data.Quantity> renderNum binaryOpts 0 1048576
"1M"
Data.Quantity> renderNum binaryOpts 2 10485760
"10.00M"
Data.Quantity> renderNum binaryOpts 3 1048576
"1.000M"
Data.Quantity> renderNum binaryOpts 3 1500000
"1.431M"
Data.Quantity> renderNum binaryOpts 2 (1500 ** 3)
"3.14G"
Data.Quantity> renderNum siOpts 2 1024
"1.02k"
Data.Quantity> renderNum siOpts 2 1048576
"1.05M"
Data.Quantity> renderNum siOpts 2 0.001
"1.00m"
Data.Quantity> renderNum siOpts 2 0.0001
"100.00u"
If you want more control over the output, see quantifyNum.




:: (Ord a, Real a)   => SizeOpts  Prevision of the result
 > Int  The numbers to examine
 > [a]  Result
 > [String]   Like renderNum, but operates on a list of numbers. The first number
in the list will be evaluated for the suffix. The same suffix and scale will
be used for the remaining items in the list. See renderNum for more
examples.
Also, unlike renderNum, the %f instead of %g printf format is used so that
"scientific" notation is avoided in the output.
Examples:
*Data.Quantity> renderNums binaryOpts 3 [1500000, 10240, 104857600]
["1.431M","0.010M","100.000M"]
*Data.Quantity> renderNums binaryOpts 3 [1500, 10240, 104857600]
["1.465K","10.000K","102400.000K"]




:: (Read a, Fractional a)   => SizeOpts  Whether to perform a caseinsensitive match
 > Bool  The string to parse
 > String   > Either String a   Parses a String, possibly generated by renderNum. Parses the suffix
and applies it to the number, which is read via the Read class.
Returns Left error message on error, or Right number on successful parse.
If you want an Integral result, the convenience function parseNumInt is for
you.




:: (Read a, Integral a)   => SizeOpts  Whether to perform a caseinsensitive match
 > Bool  The string to parse
 > String   > Either String a   Parse a number as with parseNum, but return the result as
an Integral. Any type such as Integer, Int, etc. can be used for the
result type.
This function simply calls round on the result of parseNum. A
Double is used internally for the parsing of the numeric component.
By using this function, a user can still say something like 1.5M and get an
integral result.




Takes a number and returns a new (quantity, suffix) combination.
The space character is used as the suffix for items around 0.



Like quantifyNum, but takes a list of numbers. The first number in
the list will be evaluated for the suffix. The same suffix and scale will
be used for the remaining items in the list. Please see renderNums for
an example of how this works.
It is invalid to use this function on an empty list.



The options for quantifyNum and renderNum
 Constructors  SizeOpts   base :: Int  The base from which calculations are made
 powerIncr :: Int  The increment to the power for each new suffix
 firstPower :: Int  The first power for which suffixes are given
 suffixes :: String  The suffixes themselves






Predefined definitions for byte measurement in groups of 1024, from 0 to
2**80



Predefined definitions for SI measurement, from 10**24 to 10**24.


Produced by Haddock version 2.6.0 