[][src]Struct bitstream_io::write::BitWriter

pub struct BitWriter<W: Write, E: Endianness> { /* fields omitted */ }

For writing bit values to an underlying stream in a given endianness.

Because this only writes whole bytes to the underlying stream, it is important that output is byte-aligned before the bitstream writer's lifetime ends. Partial bytes will be lost if the writer is disposed of before they can be written.

Implementations

impl<W: Write, E: Endianness> BitWriter<W, E>[src]

pub fn new(writer: W) -> BitWriter<W, E>[src]

Wraps a BitWriter around something that implements Write

pub fn endian(writer: W, _endian: E) -> BitWriter<W, E>[src]

Wraps a BitWriter around something that implements Write with the given endianness.

pub fn into_writer(self) -> W[src]

Unwraps internal writer and disposes of BitWriter.

Warning

Any unwritten partial bits are discarded.

pub fn writer(&mut self) -> Option<&mut W>[src]

If stream is byte-aligned, provides mutable reference to internal writer. Otherwise returns None

pub fn into_bytewriter(self) -> ByteWriter<W, E>[src]

Converts BitWriter to ByteWriter in the same endianness.

Warning

Any written partial bits are discarded.

pub fn bytewriter(&mut self) -> Option<ByteWriter<&mut W, E>>[src]

If stream is byte-aligned, provides temporary ByteWriter in the same endianness. Otherwise returns None

Warning

Any unwritten bits left over when ByteWriter is dropped are lost.

pub fn into_unwritten(self) -> (u32, u8)[src]

Consumes writer and returns any un-written partial byte as a (bits, value) tuple.

Examples

use std::io::Write;
use bitstream_io::{BigEndian, BitWriter, BitWrite};
let mut data = Vec::new();
let (bits, value) = {
    let mut writer = BitWriter::endian(&mut data, BigEndian);
    writer.write(15, 0b1010_0101_0101_101).unwrap();
    writer.into_unwritten()
};
assert_eq!(data, [0b1010_0101]);
assert_eq!(bits, 7);
assert_eq!(value, 0b0101_101);
use std::io::Write;
use bitstream_io::{BigEndian, BitWriter, BitWrite};
let mut data = Vec::new();
let (bits, value) = {
    let mut writer = BitWriter::endian(&mut data, BigEndian);
    writer.write(8, 0b1010_0101).unwrap();
    writer.into_unwritten()
};
assert_eq!(data, [0b1010_0101]);
assert_eq!(bits, 0);
assert_eq!(value, 0);

pub fn flush(&mut self) -> Result<()>[src]

Flushes output stream to disk, if necessary. Any partial bytes are not flushed.

Errors

Passes along any errors from the underlying stream.

Trait Implementations

impl<W: Write, E: Endianness> BitWrite for BitWriter<W, E>[src]

pub fn write_bit(&mut self, bit: bool) -> Result<()>[src]

Examples

use std::io::Write;
use bitstream_io::{BigEndian, BitWriter, BitWrite};
let mut writer = BitWriter::endian(Vec::new(), BigEndian);
writer.write_bit(true).unwrap();
writer.write_bit(false).unwrap();
writer.write_bit(true).unwrap();
writer.write_bit(true).unwrap();
writer.write_bit(false).unwrap();
writer.write_bit(true).unwrap();
writer.write_bit(true).unwrap();
writer.write_bit(true).unwrap();
assert_eq!(writer.into_writer(), [0b10110111]);
use std::io::Write;
use bitstream_io::{LittleEndian, BitWriter, BitWrite};
let mut writer = BitWriter::endian(Vec::new(), LittleEndian);
writer.write_bit(true).unwrap();
writer.write_bit(true).unwrap();
writer.write_bit(true).unwrap();
writer.write_bit(false).unwrap();
writer.write_bit(true).unwrap();
writer.write_bit(true).unwrap();
writer.write_bit(false).unwrap();
writer.write_bit(true).unwrap();
assert_eq!(writer.into_writer(), [0b10110111]);

pub fn write<U>(&mut self, bits: u32, value: U) -> Result<()> where
    U: Numeric[src]

Examples

use std::io::Write;
use bitstream_io::{BigEndian, BitWriter, BitWrite};
let mut writer = BitWriter::endian(Vec::new(), BigEndian);
writer.write(1, 0b1).unwrap();
writer.write(2, 0b01).unwrap();
writer.write(5, 0b10111).unwrap();
assert_eq!(writer.into_writer(), [0b10110111]);
use std::io::Write;
use bitstream_io::{LittleEndian, BitWriter, BitWrite};
let mut writer = BitWriter::endian(Vec::new(), LittleEndian);
writer.write(1, 0b1).unwrap();
writer.write(2, 0b11).unwrap();
writer.write(5, 0b10110).unwrap();
assert_eq!(writer.into_writer(), [0b10110111]);
use std::io::{Write, sink};
use bitstream_io::{BigEndian, BitWriter, BitWrite};
let mut w = BitWriter::endian(sink(), BigEndian);
assert!(w.write(9, 0u8).is_err());    // can't write  u8 in 9 bits
assert!(w.write(17, 0u16).is_err());  // can't write u16 in 17 bits
assert!(w.write(33, 0u32).is_err());  // can't write u32 in 33 bits
assert!(w.write(65, 0u64).is_err());  // can't write u64 in 65 bits
assert!(w.write(1, 2).is_err());      // can't write   2 in 1 bit
assert!(w.write(2, 4).is_err());      // can't write   4 in 2 bits
assert!(w.write(3, 8).is_err());      // can't write   8 in 3 bits
assert!(w.write(4, 16).is_err());     // can't write  16 in 4 bits

pub fn write_signed<S>(&mut self, bits: u32, value: S) -> Result<()> where
    S: SignedNumeric[src]

Examples

use std::io::Write;
use bitstream_io::{BigEndian, BitWriter, BitWrite};
let mut writer = BitWriter::endian(Vec::new(), BigEndian);
writer.write_signed(4, -5).unwrap();
writer.write_signed(4, 7).unwrap();
assert_eq!(writer.into_writer(), [0b10110111]);
use std::io::Write;
use bitstream_io::{LittleEndian, BitWriter, BitWrite};
let mut writer = BitWriter::endian(Vec::new(), LittleEndian);
writer.write_signed(4, 7).unwrap();
writer.write_signed(4, -5).unwrap();
assert_eq!(writer.into_writer(), [0b10110111]);

pub fn byte_aligned(&self) -> bool[src]

Example

use std::io::{Write, sink};
use bitstream_io::{BigEndian, BitWriter, BitWrite};
let mut writer = BitWriter::endian(sink(), BigEndian);
assert_eq!(writer.byte_aligned(), true);
writer.write(1, 0).unwrap();
assert_eq!(writer.byte_aligned(), false);
writer.write(7, 0).unwrap();
assert_eq!(writer.byte_aligned(), true);

impl<W: Write, E: Endianness> HuffmanWrite<E> for BitWriter<W, E>[src]

pub fn write_huffman<T>(
    &mut self,
    tree: &WriteHuffmanTree<E, T>,
    symbol: T
) -> Result<()> where
    T: Ord + Copy[src]

Example

use std::io::Write;
use bitstream_io::{BigEndian, BitWriter, HuffmanWrite};
use bitstream_io::huffman::compile_write_tree;
let tree = compile_write_tree(
    vec![('a', vec![0]),
         ('b', vec![1, 0]),
         ('c', vec![1, 1, 0]),
         ('d', vec![1, 1, 1])]).unwrap();
let mut writer = BitWriter::endian(Vec::new(), BigEndian);
writer.write_huffman(&tree, 'b').unwrap();
writer.write_huffman(&tree, 'c').unwrap();
writer.write_huffman(&tree, 'd').unwrap();
assert_eq!(writer.into_writer(), [0b10110111]);

Auto Trait Implementations

impl<W, E> RefUnwindSafe for BitWriter<W, E> where
    E: RefUnwindSafe,
    W: RefUnwindSafe[src]

impl<W, E> Send for BitWriter<W, E> where
    E: Send,
    W: Send[src]

impl<W, E> Sync for BitWriter<W, E> where
    E: Sync,
    W: Sync[src]

impl<W, E> Unpin for BitWriter<W, E> where
    E: Unpin,
    W: Unpin[src]

impl<W, E> UnwindSafe for BitWriter<W, E> where
    E: UnwindSafe,
    W: UnwindSafe[src]

Blanket Implementations

impl<T> Any for T where
    T: 'static + ?Sized[src]

impl<T> Borrow<T> for T where
    T: ?Sized[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized[src]

impl<T> From<T> for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, [src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, [src]

type Error = Infallible

The type returned in the event of a conversion error.

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, [src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.