Copyright | (c) The University of Glasgow 2002 |
---|---|
License | BSD-style (see the file libraries/base/LICENSE) |
Maintainer | libraries@haskell.org |
Stability | provisional |
Portability | portable |
Safe Haskell | Trustworthy |
Language | Haskell2010 |
Odds and ends, mostly functions for reading and showing
RealFloat
-like kind of values.
- showSigned :: Real a => (a -> ShowS) -> Int -> a -> ShowS
- showIntAtBase :: (Integral a, Show a) => a -> (Int -> Char) -> a -> ShowS
- showInt :: Integral a => a -> ShowS
- showHex :: (Integral a, Show a) => a -> ShowS
- showOct :: (Integral a, Show a) => a -> ShowS
- showEFloat :: RealFloat a => Maybe Int -> a -> ShowS
- showFFloat :: RealFloat a => Maybe Int -> a -> ShowS
- showGFloat :: RealFloat a => Maybe Int -> a -> ShowS
- showFFloatAlt :: RealFloat a => Maybe Int -> a -> ShowS
- showGFloatAlt :: RealFloat a => Maybe Int -> a -> ShowS
- showFloat :: RealFloat a => a -> ShowS
- floatToDigits :: RealFloat a => Integer -> a -> ([Int], Int)
- readSigned :: Real a => ReadS a -> ReadS a
- readInt :: Num a => a -> (Char -> Bool) -> (Char -> Int) -> ReadS a
- readDec :: (Eq a, Num a) => ReadS a
- readOct :: (Eq a, Num a) => ReadS a
- readHex :: (Eq a, Num a) => ReadS a
- readFloat :: RealFrac a => ReadS a
- lexDigits :: ReadS String
- fromRat :: RealFloat a => Rational -> a
- class Fractional a => Floating a where
Showing
:: Real a | |
=> (a -> ShowS) | a function that can show unsigned values |
-> Int | the precedence of the enclosing context |
-> a | the value to show |
-> ShowS |
Converts a possibly-negative Real
value to a string.
showIntAtBase :: (Integral a, Show a) => a -> (Int -> Char) -> a -> ShowS Source #
Shows a non-negative Integral
number using the base specified by the
first argument, and the character representation specified by the second.
showHex :: (Integral a, Show a) => a -> ShowS Source #
Show non-negative Integral
numbers in base 16.
showEFloat :: RealFloat a => Maybe Int -> a -> ShowS Source #
Show a signed RealFloat
value
using scientific (exponential) notation (e.g. 2.45e2
, 1.5e-3
).
In the call
, if showEFloat
digs valdigs
is Nothing
,
the value is shown to full precision; if digs
is
,
then at most Just
dd
digits after the decimal point are shown.
showFFloat :: RealFloat a => Maybe Int -> a -> ShowS Source #
Show a signed RealFloat
value
using standard decimal notation (e.g. 245000
, 0.0015
).
In the call
, if showFFloat
digs valdigs
is Nothing
,
the value is shown to full precision; if digs
is
,
then at most Just
dd
digits after the decimal point are shown.
showGFloat :: RealFloat a => Maybe Int -> a -> ShowS Source #
Show a signed RealFloat
value
using standard decimal notation for arguments whose absolute value lies
between 0.1
and 9,999,999
, and scientific notation otherwise.
In the call
, if showGFloat
digs valdigs
is Nothing
,
the value is shown to full precision; if digs
is
,
then at most Just
dd
digits after the decimal point are shown.
showFFloatAlt :: RealFloat a => Maybe Int -> a -> ShowS Source #
Show a signed RealFloat
value
using standard decimal notation (e.g. 245000
, 0.0015
).
This behaves as showFFloat
, except that a decimal point
is always guaranteed, even if not needed.
Since: 4.7.0.0
showGFloatAlt :: RealFloat a => Maybe Int -> a -> ShowS Source #
Show a signed RealFloat
value
using standard decimal notation for arguments whose absolute value lies
between 0.1
and 9,999,999
, and scientific notation otherwise.
This behaves as showFFloat
, except that a decimal point
is always guaranteed, even if not needed.
Since: 4.7.0.0
showFloat :: RealFloat a => a -> ShowS Source #
Show a signed RealFloat
value to full precision
using standard decimal notation for arguments whose absolute value lies
between 0.1
and 9,999,999
, and scientific notation otherwise.
floatToDigits :: RealFloat a => Integer -> a -> ([Int], Int) Source #
floatToDigits
takes a base and a non-negative RealFloat
number,
and returns a list of digits and an exponent.
In particular, if x>=0
, and
floatToDigits base x = ([d1,d2,...,dn], e)
then
n >= 1
x = 0.d1d2...dn * (base**e)
0 <= di <= base-1
Reading
NB: readInt
is the 'dual' of showIntAtBase
,
and readDec
is the `dual' of showInt
.
The inconsistent naming is a historical accident.
readSigned :: Real a => ReadS a -> ReadS a Source #
Reads a signed Real
value, given a reader for an unsigned value.
:: Num a | |
=> a | the base |
-> (Char -> Bool) | a predicate distinguishing valid digits in this base |
-> (Char -> Int) | a function converting a valid digit character to an |
-> ReadS a |
Reads an unsigned Integral
value in an arbitrary base.
readHex :: (Eq a, Num a) => ReadS a Source #
Read an unsigned number in hexadecimal notation. Both upper or lower case letters are allowed.
readFloat :: RealFrac a => ReadS a Source #
Reads an unsigned RealFrac
value,
expressed in decimal scientific notation.
Miscellaneous
class Fractional a => Floating a where Source #
Trigonometric and hyperbolic functions and related functions.
exp, log, sqrt :: a -> a Source #
(**), logBase :: a -> a -> a infixr 8 Source #
sin, cos, tan :: a -> a Source #
asin, acos, atan :: a -> a Source #
sinh, cosh, tanh :: a -> a Source #
asinh, acosh, atanh :: a -> a Source #
computes log1p
x
, but provides more precise
results for small (absolute) values of log
(1 + x)x
if possible.
Since: 4.9.0.0
computes expm1
x
, but provides more precise
results for small (absolute) values of exp
x - 1x
if possible.
Since: 4.9.0.0