Safe Haskell | None |
---|---|
Language | Haskell98 |
Buffers for Builder
s. This is a partial copy of blaze-builder-0.3.3.4's
Blaze.ByteString.Builder.Internal.Buffer module, which was removed in
blaze-builder-0.4.
If you are using blaze-builder 0.3.*, this module just re-exports from Blaze.ByteString.Builder.Internal.Buffer.
Since 0.1.10.0
- data Buffer = Buffer !(ForeignPtr Word8) !(Ptr Word8) !(Ptr Word8) !(Ptr Word8)
- freeSize :: Buffer -> Int
- sliceSize :: Buffer -> Int
- bufferSize :: Buffer -> Int
- allocBuffer :: Int -> IO Buffer
- reuseBuffer :: Buffer -> Buffer
- nextSlice :: Int -> Buffer -> Maybe Buffer
- updateEndOfSlice :: Buffer -> Ptr Word8 -> Buffer
- unsafeFreezeBuffer :: Buffer -> ByteString
- unsafeFreezeNonEmptyBuffer :: Buffer -> Maybe ByteString
- type BufferAllocStrategy = (IO Buffer, Int -> Buffer -> IO (IO Buffer))
- allNewBuffersStrategy :: Int -> BufferAllocStrategy
- reuseBufferStrategy :: IO Buffer -> BufferAllocStrategy
- defaultStrategy :: BufferAllocStrategy
Buffers
A buffer Buffer fpbuf p0 op ope
describes a buffer with the underlying
byte array fpbuf..ope
, the currently written slice p0..op
and the free
space op..ope
.
Since 0.1.10.0
Status information
bufferSize :: Buffer -> Int Source
The size of the whole byte array underlying the buffer.
Since 0.1.10.0
Creation and modification
allocBuffer :: Int -> IO Buffer Source
allocBuffer size
allocates a new buffer of size size
.
Since 0.1.10.0
reuseBuffer :: Buffer -> Buffer Source
Resets the beginning of the next slice and the next free byte such that the whole buffer can be filled again.
Since 0.1.10.0
nextSlice :: Int -> Buffer -> Maybe Buffer Source
Move the beginning of the slice to the next free byte such that the remaining free space of the buffer can be filled further. This operation is safe and can be used to fill the remaining part of the buffer after a direct insertion of a bytestring or a flush.
Since 0.1.10.0
updateEndOfSlice :: Buffer -> Ptr Word8 -> Buffer Source
Update the end of slice pointer.
Since 0.1.10.0
Conversion to bytestings
unsafeFreezeBuffer :: Buffer -> ByteString Source
Convert the buffer to a bytestring. This operation is unsafe in the sense that created bytestring shares the underlying byte array with the buffer. Hence, depending on the later use of this buffer (e.g., if it gets reset and filled again) referential transparency may be lost.
Since 0.1.10.0
unsafeFreezeNonEmptyBuffer :: Buffer -> Maybe ByteString Source
Convert a buffer to a non-empty bytestring. See unsafeFreezeBuffer
for
the explanation of why this operation may be unsafe.
Since 0.1.10.0
Buffer allocation strategies
type BufferAllocStrategy = (IO Buffer, Int -> Buffer -> IO (IO Buffer)) Source
A buffer allocation strategy (buf0, nextBuf)
specifies the initial
buffer to use and how to compute a new buffer nextBuf minSize buf
with at
least size minSize
from a filled buffer buf
. The double nesting of the
IO
monad helps to ensure that the reference to the filled buffer buf
is
lost as soon as possible, but the new buffer doesn't have to be allocated
too early.
Since 0.1.10.0
allNewBuffersStrategy :: Int -> BufferAllocStrategy Source
The simplest buffer allocation strategy: whenever a buffer is requested, allocate a new one that is big enough for the next build step to execute.
NOTE that this allocation strategy may spill quite some memory upon direct insertion of a bytestring by the builder. Thats no problem for garbage collection, but it may lead to unreasonably high memory consumption in special circumstances.
Since 0.1.10.0
reuseBufferStrategy :: IO Buffer -> BufferAllocStrategy Source
An unsafe, but possibly more efficient buffer allocation strategy: reuse the buffer, if it is big enough for the next build step to execute.
Since 0.1.10.0