{-# LANGUAGE CPP, MagicHash, Rank2Types #-} -- | -- Module : Data.Double.Conversion.Text -- Copyright : (c) 2011 MailRank, Inc. -- -- License : BSD-style -- Maintainer : bos@serpentine.com -- Stability : experimental -- Portability : GHC -- -- This module left now only for compatibility and should not be used -- in new projects. -- Please, use Convertable type class from Data.Double.Conversion.Convertable -- -- It is espesially recommended to convert a large amount of numbers via text builder -- using methods of Convertable type class. It is about 10-15x faster. -- -- Fast, efficient support for converting between double precision -- floating point values and text. -- -- These functions are about 30 times faster than the default 'show' -- implementation for the 'Double' type. module Data.Double.Conversion.Text ( toExponential , toFixed , toPrecision , toShortest ) where import qualified Data.Double.Conversion.Convertable import Data.Text.Internal (Text) -- | Compute a representation in exponential format with the requested -- number of digits after the decimal point. The last emitted digit is -- rounded. If -1 digits are requested, then the shortest exponential -- representation is computed. toExponential :: Int -> Double -> Text toExponential :: Int -> Double -> Text toExponential = Int -> Double -> Text forall a b. Convertable a b => Int -> a -> b Data.Double.Conversion.Convertable.toExponential -- | Compute a decimal representation with a fixed number of digits -- after the decimal point. The last emitted digit is rounded. toFixed :: Int -> Double -> Text toFixed :: Int -> Double -> Text toFixed = Int -> Double -> Text forall a b. Convertable a b => Int -> a -> b Data.Double.Conversion.Convertable.toFixed -- | Compute the shortest string of digits that correctly represent -- the input number. toShortest :: Double -> Text toShortest :: Double -> Text toShortest = Double -> Text forall a b. Convertable a b => a -> b Data.Double.Conversion.Convertable.toShortest -- | Compute @precision@ leading digits of the given value either in -- exponential or decimal format. The last computed digit is rounded. toPrecision :: Int -> Double -> Text toPrecision :: Int -> Double -> Text toPrecision = Int -> Double -> Text forall a b. Convertable a b => Int -> a -> b Data.Double.Conversion.Convertable.toPrecision