}
bw.write_buf(&self.frm1[..self.width * self.height * bm])?;
} else {
- self.tmp_buf.truncate(0);
+ self.tmp_buf.clear();
if bpp == 8 {
self.tmp_buf.extend_from_slice(&self.pal);
}
let mut db = Vec::new();
std::mem::swap(&mut db, &mut self.zbuf);
- db.truncate(0);
+ db.clear();
let mut wr = DeflateWriter::new(db);
self.compr.write_zlib_header(&mut wr);
self.compr.compress(&self.tmp_buf, &mut wr);
self.frm1.copy_from_slice(&self.frm2);
bw.write_byte(0)?;
- self.tmp_buf.truncate(0);
+ self.tmp_buf.clear();
let tile_w = (self.width + self.tile_w - 1) / self.tile_w;
let tile_h = (self.height + self.tile_h - 1) / self.tile_h;
let mv_size = (tile_w * tile_h * 2 + 3) & !3;
let mut db = Vec::new();
std::mem::swap(&mut db, &mut self.zbuf);
- db.truncate(0);
+ db.clear();
let mut wr = DeflateWriter::new(db);
self.compr.compress(&self.tmp_buf, &mut wr);
self.compr.compress_flush(&mut wr);
return Err(EncoderError::FormatError);
}
- self.tmp_buf.truncate(0);
+ self.tmp_buf.clear();
if let (NABufferType::Video(ref vbuf), true) = (&buf, bpp == 8) {
let mut npal = [0; 768];
let off = vbuf.get_offset(1);
let mut db = Vec::new();
std::mem::swap(&mut db, &mut self.zbuf);
- db.truncate(0);
+ db.clear();
let mut wr = DeflateWriter::new(db);
self.compr.compress(&self.tmp_buf, &mut wr);
self.compr.compress_flush(&mut wr);
use nihav_codec_support::test::enc_video::*;
use super::{RGB555_FORMAT, RGB24_0_FORMAT};
+ // samples are from https://samples.mplayerhq.hu/V-codecs/ZMBV/
#[test]
fn test_zmbv_encoder_8bit() {
let mut dmx_reg = RegisteredDemuxers::new();