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Within LTS Haskell 24.31 (ghc-9.10.3)

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1. readInt32 :: ByteString -> Maybe (Int32, ByteString)

   bytestring	Data.ByteString.Lazy.Char8

   A variant of readInt specialised to Int32.

2. readInt64 :: ByteString -> Maybe (Int64, ByteString)

   bytestring	Data.ByteString.Lazy.Char8

   A variant of readInt specialised to Int64.

3. readInt8 :: ByteString -> Maybe (Int8, ByteString)

   bytestring	Data.ByteString.Lazy.Char8

   A variant of readInt specialised to Int8.

4. readInteger :: ByteString -> Maybe (Integer, ByteString)

   bytestring	Data.ByteString.Lazy.Char8

   readInteger reads an Integer from the beginning of the ByteString. If there is no Integer at the beginning of the string, it returns Nothing, otherwise it just returns the Integer read, and the rest of the string. readInteger does not ignore leading whitespace, the value must start immediately at the beginning of the input string.

   Examples

   >>> readInteger "-000111222333444555666777888999 all done"
   Just (-111222333444555666777888999," all done")
   
   >>> readInteger "+1: readInteger also accepts a leading '+'"
   Just (1, ": readInteger also accepts a leading '+'")
   
   >>> readInteger "not a decimal number"
   Nothing
   

5. readNatural :: ByteString -> Maybe (Natural, ByteString)

   bytestring	Data.ByteString.Lazy.Char8

   readNatural reads a Natural number from the beginning of the ByteString. If there is no Natural number at the beginning of the string, it returns Nothing, otherwise it just returns the number read, and the rest of the string. readNatural does not ignore leading whitespace, the value must start with a decimal digit immediately at the beginning of the input string. Leading + signs are not accepted.

   Examples

   >>> readNatural "000111222333444555666777888999 all done"
   Just (111222333444555666777888999," all done")
   
   >>> readNatural "+000111222333444555666777888999 explicit sign"
   Nothing
   
   >>> readNatural "not a decimal number"
   Nothing
   

6. readWord :: ByteString -> Maybe (Word, ByteString)

   bytestring	Data.ByteString.Lazy.Char8

   Try to read a Word value from the ByteString, returning Just (val, str) on success, where val is the value read and str is the rest of the input string. If the sequence of digits decodes to a value larger than can be represented by a Word, the returned value will be Nothing. readWord does not ignore leading whitespace, the value must start with a decimal digit immediately at the beginning of the input string. Leading + signs are not accepted.

   Examples

   >>> readWord "1729 sum of cubes"
   Just (1729," sum of cubes")
   
   >>> readWord "+1729 has an explicit sign"
   Nothing
   
   >>> readWord "not a decimal number"
   Nothing
   
   >>> readWord "98765432109876543210 overflows maxBound"
   Nothing
   

7. readWord16 :: ByteString -> Maybe (Word16, ByteString)

   bytestring	Data.ByteString.Lazy.Char8

   A variant of readWord specialised to Word16.

8. readWord32 :: ByteString -> Maybe (Word32, ByteString)

   bytestring	Data.ByteString.Lazy.Char8

   A variant of readWord specialised to Word32.

9. readWord64 :: ByteString -> Maybe (Word64, ByteString)

   bytestring	Data.ByteString.Lazy.Char8

   A variant of readWord specialised to Word64.

10. readWord8 :: ByteString -> Maybe (Word8, ByteString)

    bytestring	Data.ByteString.Lazy.Char8

    A variant of readWord specialised to Word8.

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