self.full_pos += len;
Ok(())
}
+ ///! Sets custom history for decoding an update for already decoded data.
+ pub fn set_dict(&mut self, dict: &[u8]) {
+ let len = dict.len().min(self.buf.len());
+ let start = dict.len() - len;
+ self.buf[..len].copy_from_slice(&dict[start..]);
+ self.bpos = len;
+ self.full_pos = len;
+ }
///! Reports whether decoder has finished decoding the input.
pub fn is_finished(&self) -> bool {
match self.state {
}
dst.reserve(src.len());
- self.trellis.truncate(0);
+ self.trellis.clear();
self.trellis.reserve(src.len() + 1);
for _ in 0..=src.len() {
self.trellis.push(TNode::default());
self.write_zlib_footer(wr);
}
}
+ ///! Tells the encoder to compress the data it received and flush it.
+ pub fn compress_flush(&mut self, wr: &mut DeflateWriter) {
+ if self.ssize > 0 {
+ self.do_block(wr, false);
+ }
+ if (wr.bits & 7) != 0 {
+ // write zero-length copy block for byte-alignment
+ wr.write(0, 1);
+ wr.write(0, 2);
+ wr.align();
+ wr.write(0, 16);
+ wr.write(0xFFFF, 16);
+ }
+ }
fn do_block(&mut self, wr: &mut DeflateWriter, final_block: bool) {
const CRC_BASE: u32 = 65521;
for &b in self.srcbuf[..self.ssize].iter() {
Mode::Fixed => {
wr.write(final_block as u16, 1);
wr.write(1, 2);
- self.tokens.truncate(0);
+ self.tokens.clear();
self.parser.parse(&self.srcbuf[..self.ssize], &mut self.tokens);
let mut codes = CodeHuff::new(true);
codes.make_codes(&self.tokens);
Mode::Dynamic => {
wr.write(final_block as u16, 1);
wr.write(2, 2);
- self.tokens.truncate(0);
+ self.tokens.clear();
self.parser.parse(&self.srcbuf[..self.ssize], &mut self.tokens);
let mut codes = CodeHuff::new(false);
codes.make_codes(&self.tokens);