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rustdesk/libs/scrap/examples/benchmark.rs
21pages 34c7c25908
update hwcodec, add windows ffmpeg vram encoding (#7876) 
* windows add ffmpeg vram encoding
* windows add missing nvenc and qsv ram encoding, linux add vaapi, current codec table:  https://github.com/21pages/hwcodec?tab=readme-ov-file#codec

Signed-off-by: 21pages <pages21@163.com>
2024-05-01 00:07:09 +08:00

340 lines
9.8 KiB
Rust
Raw Blame History

use docopt::Docopt;
use hbb_common::{
env_logger::{init_from_env, Env, DEFAULT_FILTER_ENV},
log,
};
use scrap::{
aom::{AomDecoder, AomEncoder, AomEncoderConfig},
codec::{EncoderApi, EncoderCfg, Quality as Q},
Capturer, Display, TraitCapturer, VpxDecoder, VpxDecoderConfig, VpxEncoder, VpxEncoderConfig,
VpxVideoCodecId::{self, *},
STRIDE_ALIGN,
};
use std::{
io::Write,
time::{Duration, Instant},
};
// cargo run --package scrap --example benchmark --release --features hwcodec
const USAGE: &'static str = "
Codec benchmark.
Usage:
benchmark [--count=COUNT] [--quality=QUALITY] [--i444]
benchmark (-h | --help)
Options:
-h --help Show this screen.
--count=COUNT Capture frame count [default: 100].
--quality=QUALITY Video quality [default: Balanced].
Valid values: Best, Balanced, Low.
--i444 I444.
";
#[derive(Debug, serde::Deserialize, Clone, Copy)]
struct Args {
flag_count: usize,
flag_quality: Quality,
flag_i444: bool,
}
#[derive(Debug, serde::Deserialize, Clone, Copy)]
enum Quality {
Best,
Balanced,
Low,
}
fn main() {
init_from_env(Env::default().filter_or(DEFAULT_FILTER_ENV, "info"));
let args: Args = Docopt::new(USAGE)
.and_then(|d| d.deserialize())
.unwrap_or_else(|e| e.exit());
let quality = args.flag_quality;
let yuv_count = args.flag_count;
let mut index = 0;
let mut displays = Display::all().unwrap();
for i in 0..displays.len() {
if displays[i].is_primary() {
index = i;
break;
}
}
let d = displays.remove(index);
let mut c = Capturer::new(d).unwrap();
let width = c.width();
let height = c.height();
println!(
"benchmark {}x{} quality:{:?}, i444:{:?}",
width, height, quality, args.flag_i444
);
let quality = match quality {
Quality::Best => Q::Best,
Quality::Balanced => Q::Balanced,
Quality::Low => Q::Low,
};
[VP8, VP9].map(|codec| {
test_vpx(
&mut c,
codec,
width,
height,
quality,
yuv_count,
if codec == VP8 { false } else { args.flag_i444 },
)
});
test_av1(&mut c, width, height, quality, yuv_count, args.flag_i444);
#[cfg(feature = "hwcodec")]
{
hw::test(&mut c, width, height, quality, yuv_count);
}
}
fn test_vpx(
c: &mut Capturer,
codec_id: VpxVideoCodecId,
width: usize,
height: usize,
quality: Q,
yuv_count: usize,
i444: bool,
) {
let config = EncoderCfg::VPX(VpxEncoderConfig {
width: width as _,
height: height as _,
quality,
codec: codec_id,
keyframe_interval: None,
});
let mut encoder = VpxEncoder::new(config, i444).unwrap();
let mut vpxs = vec![];
let start = Instant::now();
let mut size = 0;
let mut yuv = Vec::new();
let mut mid_data = Vec::new();
let mut counter = 0;
let mut time_sum = Duration::ZERO;
loop {
match c.frame(std::time::Duration::from_millis(30)) {
Ok(frame) => {
let tmp_timer = Instant::now();
let frame = frame.to(encoder.yuvfmt(), &mut yuv, &mut mid_data).unwrap();
let yuv = frame.yuv().unwrap();
for ref frame in encoder
.encode(start.elapsed().as_millis() as _, &yuv, STRIDE_ALIGN)
.unwrap()
{
size += frame.data.len();
vpxs.push(frame.data.to_vec());
counter += 1;
print!("\r{codec_id:?} {}/{}", counter, yuv_count);
std::io::stdout().flush().ok();
}
for ref frame in encoder.flush().unwrap() {
size += frame.data.len();
vpxs.push(frame.data.to_vec());
counter += 1;
print!("\r{codec_id:?} {}/{}", counter, yuv_count);
std::io::stdout().flush().ok();
}
time_sum += tmp_timer.elapsed();
}
Err(e) => {
log::error!("{e:?}");
}
}
if counter >= yuv_count {
println!();
break;
}
}
assert_eq!(vpxs.len(), yuv_count);
println!(
"{:?} encode: {:?}, {} byte",
codec_id,
time_sum / yuv_count as _,
size / yuv_count
);
let mut decoder = VpxDecoder::new(VpxDecoderConfig { codec: codec_id }).unwrap();
let start = Instant::now();
for vpx in vpxs {
let _ = decoder.decode(&vpx);
let _ = decoder.flush();
}
println!(
"{:?} decode: {:?}",
codec_id,
start.elapsed() / yuv_count as _
);
}
fn test_av1(
c: &mut Capturer,
width: usize,
height: usize,
quality: Q,
yuv_count: usize,
i444: bool,
) {
let config = EncoderCfg::AOM(AomEncoderConfig {
width: width as _,
height: height as _,
quality,
keyframe_interval: None,
});
let mut encoder = AomEncoder::new(config, i444).unwrap();
let start = Instant::now();
let mut size = 0;
let mut av1s: Vec<Vec<u8>> = vec![];
let mut yuv = Vec::new();
let mut mid_data = Vec::new();
let mut counter = 0;
let mut time_sum = Duration::ZERO;
loop {
match c.frame(std::time::Duration::from_millis(30)) {
Ok(frame) => {
let tmp_timer = Instant::now();
let frame = frame.to(encoder.yuvfmt(), &mut yuv, &mut mid_data).unwrap();
let yuv = frame.yuv().unwrap();
for ref frame in encoder
.encode(start.elapsed().as_millis() as _, &yuv, STRIDE_ALIGN)
.unwrap()
{
size += frame.data.len();
av1s.push(frame.data.to_vec());
counter += 1;
print!("\rAV1 {}/{}", counter, yuv_count);
std::io::stdout().flush().ok();
}
time_sum += tmp_timer.elapsed();
}
Err(e) => {
log::error!("{e:?}");
}
}
if counter >= yuv_count {
println!();
break;
}
}
assert_eq!(av1s.len(), yuv_count);
println!(
"AV1 encode: {:?}, {} byte",
time_sum / yuv_count as _,
size / yuv_count
);
let mut decoder = AomDecoder::new().unwrap();
let start = Instant::now();
for av1 in av1s {
let _ = decoder.decode(&av1);
let _ = decoder.flush();
}
println!("AV1 decode: {:?}", start.elapsed() / yuv_count as _);
}
#[cfg(feature = "hwcodec")]
mod hw {
use hwcodec::ffmpeg_ram::CodecInfo;
use scrap::{
hwcodec::{HwRamDecoder, HwRamEncoder, HwRamEncoderConfig},
CodecFormat,
};
use super::*;
pub fn test(c: &mut Capturer, width: usize, height: usize, quality: Q, yuv_count: usize) {
let mut h264s = Vec::new();
let mut h265s = Vec::new();
if let Some(info) = HwRamEncoder::try_get(CodecFormat::H264) {
test_encoder(width, height, quality, info, c, yuv_count, &mut h264s);
}
if let Some(info) = HwRamEncoder::try_get(CodecFormat::H265) {
test_encoder(width, height, quality, info, c, yuv_count, &mut h265s);
}
test_decoder(CodecFormat::H264, &h264s);
test_decoder(CodecFormat::H265, &h265s);
}
fn test_encoder(
width: usize,
height: usize,
quality: Q,
info: CodecInfo,
c: &mut Capturer,
yuv_count: usize,
h26xs: &mut Vec<Vec<u8>>,
) {
let mut encoder = HwRamEncoder::new(
EncoderCfg::HWRAM(HwRamEncoderConfig {
name: info.name.clone(),
width,
height,
quality,
keyframe_interval: None,
}),
false,
)
.unwrap();
let mut size = 0;
let mut yuv = Vec::new();
let mut mid_data = Vec::new();
let mut counter = 0;
let mut time_sum = Duration::ZERO;
loop {
match c.frame(std::time::Duration::from_millis(30)) {
Ok(frame) => {
let tmp_timer = Instant::now();
let frame = frame.to(encoder.yuvfmt(), &mut yuv, &mut mid_data).unwrap();
let yuv = frame.yuv().unwrap();
for ref frame in encoder.encode(&yuv).unwrap() {
size += frame.data.len();
h26xs.push(frame.data.to_vec());
counter += 1;
print!("\r{:?} {}/{}", info.name, counter, yuv_count);
std::io::stdout().flush().ok();
}
time_sum += tmp_timer.elapsed();
}
Err(e) => {
log::error!("{e:?}");
}
}
if counter >= yuv_count {
println!();
break;
}
}
println!(
"{}: {:?}, {} byte",
info.name,
time_sum / yuv_count as u32,
size / yuv_count,
);
}
fn test_decoder(format: CodecFormat, h26xs: &Vec<Vec<u8>>) {
let mut decoder = HwRamDecoder::new(format).unwrap();
let start = Instant::now();
let mut cnt = 0;
for h26x in h26xs {
let _ = decoder.decode(h26x).unwrap();
cnt += 1;
}
let device = format!("{:?}", decoder.info.hwdevice).to_lowercase();
let device = device.split("_").last().unwrap();
println!(
"{} {}: {:?}",
decoder.info.name,
device,
start.elapsed() / cnt
);
}
}
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