+//! Routines for testing encoders and muxers.
use std::fs::File;
use nihav_core::frame::*;
use nihav_core::codecs::*;
use nihav_core::muxers::*;
use nihav_core::scale::*;
use nihav_core::soundcvt::*;
+use super::md5::MD5;
+/// Parameters for the source used in the test.
pub struct DecoderTestParams {
+ /// Demuxer name e.g. `"mov"`.
pub demuxer: &'static str,
+ /// Input file name.
pub in_name: &'static str,
+ /// Timestamp for last decoded frame.
pub limit: Option<u64>,
+ /// Desired input stream type (that will be decoded and fed to the encoder).
pub stream_type: StreamType,
+ /// Registered demuxers.
pub dmx_reg: RegisteredDemuxers,
+ /// Registered decoders.
pub dec_reg: RegisteredDecoders,
}
+/// Parameters for the encoding test output.
pub struct EncoderTestParams {
+ /// Muxer name e.g. `"avi"`.
pub muxer: &'static str,
+ /// Encoder name.
pub enc_name: &'static str,
+ /// Output file name.
pub out_name: &'static str,
+ /// Registered muxers.
pub mux_reg: RegisteredMuxers,
+ /// Registered encoders.
pub enc_reg: RegisteredEncoders,
}
+/// Tests muxer by making it mux raw streams from the input file.
+///
+/// Streams not fitting the output profile (e.g. a video stream or a second audio stream for WAV muxer) will be ignored.
+pub fn test_remuxing(dec_config: &DecoderTestParams, enc_config: &EncoderTestParams) {
+ let dmx_f = dec_config.dmx_reg.find_demuxer(dec_config.demuxer).unwrap();
+ let mut file = File::open(dec_config.in_name).unwrap();
+ let mut fr = FileReader::new_read(&mut file);
+ let mut br = ByteReader::new(&mut fr);
+ let mut dmx = create_demuxer(dmx_f, &mut br).unwrap();
+
+ let mux_f = enc_config.mux_reg.find_muxer(enc_config.muxer).unwrap();
+ let out_name = "assets/test_out/".to_owned() + enc_config.out_name;
+ let file = File::create(&out_name).unwrap();
+ let mut fw = FileWriter::new_write(file);
+ let mut bw = ByteWriter::new(&mut fw);
+ let mut out_sm = StreamManager::new();
+ let mux_caps = mux_f.get_capabilities();
+ let mut stream_map: Vec<Option<usize>> = Vec::new();
+ let mut has_video = false;
+ let mut has_audio = false;
+ for stream in dmx.get_streams() {
+ let mut copy_stream = false;
+ match mux_caps {
+ MuxerCapabilities::SingleVideo(_) | MuxerCapabilities::OnlyVideo => {
+ copy_stream = stream.get_media_type() == StreamType::Video;
+ has_video = true;
+ },
+ MuxerCapabilities::SingleAudio(_) | MuxerCapabilities::OnlyAudio => {
+ copy_stream = stream.get_media_type() == StreamType::Audio;
+ has_audio = true;
+ },
+ MuxerCapabilities::SingleVideoAndAudio(_, _) => {
+ if stream.get_media_type() == StreamType::Video {
+ copy_stream = !has_video;
+ has_video = true;
+ }
+ if stream.get_media_type() == StreamType::Audio {
+ copy_stream = !has_audio;
+ has_audio = true;
+ }
+ },
+ MuxerCapabilities::Universal => {
+ if stream.get_media_type() == StreamType::Video {
+ copy_stream = true;
+ has_video = true;
+ }
+ if stream.get_media_type() == StreamType::Audio {
+ copy_stream = true;
+ has_audio = true;
+ }
+ }
+ };
+ if copy_stream {
+ let streamno = out_sm.add_stream(NAStream::clone(&stream)).unwrap();
+ stream_map.push(Some(streamno));
+ match mux_caps {
+ MuxerCapabilities::SingleVideo(_) | MuxerCapabilities::SingleAudio(_) => break,
+ _ => {},
+ };
+ } else {
+ stream_map.push(None);
+ }
+ }
+ assert!(out_sm.get_num_streams() > 0);
+ let mut mux = create_muxer(mux_f, out_sm, &mut bw).unwrap();
+
+ loop {
+ let pktres = dmx.get_frame();
+ if let Err(e) = pktres {
+ if e == DemuxerError::EOF { break; }
+ panic!("error");
+ }
+ let mut pkt = pktres.unwrap();
+ println!("Got {}", pkt);
+ if let Some(new_id) = stream_map[pkt.get_stream().id as usize] {
+ pkt.reassign(mux.get_stream(new_id).unwrap(), pkt.get_time_information());
+ mux.mux_frame(pkt).unwrap();
+ }
+ }
+
+ mux.end().unwrap();
+}
+
+/// Tests muxer by making it mux raw streams from the input file and comparing MD5 hash of the result to the provided one.
+///
+/// Streams not fitting the output profile (e.g. a video stream or a second audio stream for WAV muxer) will be ignored.
+pub fn test_remuxing_md5(dec_config: &DecoderTestParams, muxer: &str, mux_reg: &RegisteredMuxers, md5_hash: [u32; 4]) {
+ let dmx_f = dec_config.dmx_reg.find_demuxer(dec_config.demuxer).unwrap();
+ let mut file = File::open(dec_config.in_name).unwrap();
+ let mut fr = FileReader::new_read(&mut file);
+ let mut br = ByteReader::new(&mut fr);
+ let mut dmx = create_demuxer(dmx_f, &mut br).unwrap();
+
+ let mux_f = mux_reg.find_muxer(muxer).unwrap();
+
+ let mut dst = Vec::with_capacity(1048576);
+ let mut gw = GrowableMemoryWriter::new_write(&mut dst);
+ let mut bw = ByteWriter::new(&mut gw);
+ let mut out_sm = StreamManager::new();
+ let mux_caps = mux_f.get_capabilities();
+ let mut stream_map: Vec<Option<usize>> = Vec::new();
+ let mut has_video = false;
+ let mut has_audio = false;
+ for stream in dmx.get_streams() {
+ let mut copy_stream = false;
+ match mux_caps {
+ MuxerCapabilities::SingleVideo(_) | MuxerCapabilities::OnlyVideo => {
+ copy_stream = stream.get_media_type() == StreamType::Video;
+ has_video = true;
+ },
+ MuxerCapabilities::SingleAudio(_) | MuxerCapabilities::OnlyAudio => {
+ copy_stream = stream.get_media_type() == StreamType::Audio;
+ has_audio = true;
+ },
+ MuxerCapabilities::SingleVideoAndAudio(_, _) => {
+ if stream.get_media_type() == StreamType::Video {
+ copy_stream = !has_video;
+ has_video = true;
+ }
+ if stream.get_media_type() == StreamType::Audio {
+ copy_stream = !has_audio;
+ has_audio = true;
+ }
+ },
+ MuxerCapabilities::Universal => {
+ if stream.get_media_type() == StreamType::Video {
+ copy_stream = true;
+ has_video = true;
+ }
+ if stream.get_media_type() == StreamType::Audio {
+ copy_stream = true;
+ has_audio = true;
+ }
+ }
+ };
+ if copy_stream {
+ let streamno = out_sm.add_stream(NAStream::clone(&stream)).unwrap();
+ stream_map.push(Some(streamno));
+ match mux_caps {
+ MuxerCapabilities::SingleVideo(_) | MuxerCapabilities::SingleAudio(_) => break,
+ _ => {},
+ };
+ } else {
+ stream_map.push(None);
+ }
+ }
+ assert!(out_sm.get_num_streams() > 0);
+ let mut mux = create_muxer(mux_f, out_sm, &mut bw).unwrap();
+
+ loop {
+ let pktres = dmx.get_frame();
+ if let Err(e) = pktres {
+ if e == DemuxerError::EOF { break; }
+ panic!("error");
+ }
+ let mut pkt = pktres.unwrap();
+ println!("Got {}", pkt);
+ if let Some(new_id) = stream_map[pkt.get_stream().id as usize] {
+ pkt.reassign(mux.get_stream(new_id).unwrap(), pkt.get_time_information());
+ mux.mux_frame(pkt).unwrap();
+ }
+ }
+
+ mux.end().unwrap();
+
+ let mut hash = [0; 4];
+ MD5::calculate_hash(dst.as_slice(), &mut hash);
+ println!("output hash {:08x}{:08x}{:08x}{:08x}", hash[0], hash[1], hash[2], hash[3]);
+ assert_eq!(hash, md5_hash);
+}
+
+/// Tests an encoder by decoding a stream from input file, feeding it to the encoder and muxing the result into output file.
pub fn test_encoding_to_file(dec_config: &DecoderTestParams, enc_config: &EncoderTestParams, mut enc_params: EncodeParameters) {
let dmx_f = dec_config.dmx_reg.find_demuxer(dec_config.demuxer).unwrap();
let mut file = File::open(dec_config.in_name).unwrap();
let mut encoder = (encfunc)();
let out_str = encoder.init(0, enc_params).unwrap();
out_sm.add_stream(NAStream::clone(&out_str));
-
+
let mux_f = enc_config.mux_reg.find_muxer(enc_config.muxer).unwrap();
let out_name = "assets/test_out/".to_owned() + enc_config.out_name;
let file = File::create(&out_name).unwrap();
vinfo)
} else {
(ScaleInfo { fmt: YUV420_FORMAT, width: 2, height: 2 },
- NAVideoInfo { width: 2, height: 2, format: YUV420_FORMAT, flipped: false })
+ NAVideoInfo { width: 2, height: 2, format: YUV420_FORMAT, flipped: false, bits: 12 })
};
let ofmt = ifmt;
let mut scaler = NAScale::new(ifmt, ofmt).unwrap();