Portability | non-portable |
---|---|
Stability | experimental |
Maintainer | Edward Kmett <ekmett@gmail.com> |
Safe Haskell | None |
Lazy ByteString
lenses.
Documentation
packedBytes :: Iso' [Word8] ByteStringSource
pack
(or unpack
) a list of bytes into a ByteString
.
packedBytes
≡from
unpackedBytes
pack
x ≡ x^.
packedBytes
unpack
x ≡ x^.
from
packedBytes
>>>
[104,101,108,108,111]^.packedBytes == Char8.pack "hello"
True
unpackedBytes :: Iso' ByteString [Word8]Source
unpack
(or pack
) a ByteString
into a list of bytes
unpackedBytes
≡from
packedBytes
unpack
x ≡ x^.
unpackedBytes
pack
x ≡ x^.
from
unpackedBytes
>>>
"hello"^.packedChars.unpackedBytes
[104,101,108,108,111]
bytes :: IndexedTraversal' Int64 ByteString Word8Source
Traverse the individual bytes in a ByteString
.
This Traversal
walks each strict ByteString
chunk in a tree-like fashion
enable zippers to seek to locations more quickly and accelerate
many monoidal queries, but up to associativity (and constant factors) it is
equivalent to the much slower:
bytes
≡unpackedBytes
.
traversed
>>>
anyOf bytes (== 0x80) (Char8.pack "hello")
False
Note that when just using this as a Setter
,
can be more efficient.
setting
map
packedChars :: Iso' String ByteStringSource
pack
(or unpack
) a list of characters into a ByteString
.
When writing back to the ByteString
it is assumed that every Char
lies between '\x00'
and '\xff'
.
packedChars
≡from
unpackedChars
pack
x ≡ x^.
packedChars
unpack
x ≡ x^.
from
packedChars
>>>
"hello"^.packedChars.each.re (base 16 . enum).to (\x -> if Prelude.length x == 1 then '0':x else x)
"68656c6c6f"
unpackedChars :: Iso' ByteString StringSource
unpack
(or pack
) a list of characters into a ByteString
When writing back to the ByteString
it is assumed that every Char
lies between '\x00'
and '\xff'
.
unpackedChars
≡from
packedChars
unpack
x ≡ x^.
unpackedChars
pack
x ≡ x^.
from
unpackedChars
>>>
[104,101,108,108,111]^.packedBytes.unpackedChars
"hello"
chars :: IndexedTraversal' Int64 ByteString CharSource
Traverse the individual bytes in a ByteString
as characters.
When writing back to the ByteString
it is assumed that every Char
lies between '\x00'
and '\xff'
.
This Traversal
walks each strict ByteString
chunk in a tree-like fashion
enable zippers to seek to locations more quickly and accelerate
many monoidal queries, but up to associativity (and constant factors) it is
equivalent to:
chars
=unpackedChars
.
traversed
>>>
anyOf chars (== 'h') "hello"
True