pub use std::sync::Arc;
pub use crate::formats::*;
pub use crate::refs::*;
+use std::str::FromStr;
/// Audio stream information.
#[allow(dead_code)]
pub flipped: bool,
/// Picture pixel format.
pub format: NAPixelFormaton,
+ /// Declared bits per sample.
+ pub bits: u8,
}
impl NAVideoInfo {
/// Constructs a new `NAVideoInfo` instance.
pub fn new(w: usize, h: usize, flip: bool, fmt: NAPixelFormaton) -> Self {
- NAVideoInfo { width: w, height: h, flipped: flip, format: fmt }
+ let bits = fmt.get_total_depth();
+ NAVideoInfo { width: w, height: h, flipped: flip, format: fmt, bits }
}
/// Returns picture width.
pub fn get_width(&self) -> usize { self.width as usize }
}
/// Reports whether the current stream is video stream.
pub fn is_video(&self) -> bool {
- match *self {
- NACodecTypeInfo::Video(_) => true,
- _ => false,
- }
+ matches!(*self, NACodecTypeInfo::Video(_))
}
/// Reports whether the current stream is audio stream.
pub fn is_audio(&self) -> bool {
- match *self {
- NACodecTypeInfo::Audio(_) => true,
- _ => false,
- }
+ matches!(*self, NACodecTypeInfo::Audio(_))
}
}
}
impl<T: Clone> NAVideoBuffer<T> {
+ /// Constructs video buffer from the provided components.
+ pub fn from_raw_parts(info: NAVideoInfo, data: NABufferRef<Vec<T>>, offs: Vec<usize>, strides: Vec<usize>) -> Self {
+ Self { info, data, offs, strides }
+ }
/// Returns the component offset (0 for all unavailable offsets).
pub fn get_offset(&self, idx: usize) -> usize {
if idx >= self.offs.len() { 0 }
/// Returns the number of components in picture format.
pub fn get_num_components(&self) -> usize { self.offs.len() }
/// Creates a copy of current `NAVideoBuffer`.
- pub fn copy_buffer(&mut self) -> Self {
+ pub fn copy_buffer(&self) -> Self {
let mut data: Vec<T> = Vec::with_capacity(self.data.len());
data.clone_from(self.data.as_ref());
let mut offs: Vec<usize> = Vec::with_capacity(self.offs.len());
pub fn get_chmap(&self) -> &NAChannelMap { &self.chmap }
/// Returns an immutable reference to the data.
pub fn get_data(&self) -> &Vec<T> { self.data.as_ref() }
+ /// Returns reference to the data.
+ pub fn get_data_ref(&self) -> NABufferRef<Vec<T>> { self.data.clone() }
/// Returns a mutable reference to the data.
pub fn get_data_mut(&mut self) -> Option<&mut Vec<T>> { self.data.as_mut() }
/// Clones current `NAAudioBuffer` into a new one.
}
/// Return the length of frame in samples.
pub fn get_length(&self) -> usize { self.len }
+ /// Truncates buffer length if possible.
+ ///
+ /// In case when new length is larger than old length nothing is done.
+ pub fn truncate(&mut self, new_len: usize) {
+ self.len = self.len.min(new_len);
+ }
fn print_contents(&self, datatype: &str) {
println!("Audio buffer with {} data, stride {}, step {}", datatype, self.stride, self.step);
impl NAAudioBuffer<u8> {
/// Constructs a new `NAAudioBuffer` instance.
pub fn new_from_buf(info: NAAudioInfo, data: NABufferRef<Vec<u8>>, chmap: NAChannelMap) -> Self {
- let len = data.len();
+ let len = data.len() * 8 / chmap.num_channels() / (info.format.bits as usize);
+
NAAudioBuffer { info, data, chmap, offs: Vec::new(), len, stride: 0, step: 0 }
}
}
_ => 0,
}
}
+ /// Truncates audio frame duration if possible.
+ pub fn truncate_audio(&mut self, len: usize) {
+ match *self {
+ NABufferType::AudioU8(ref mut ab) => ab.truncate(len),
+ NABufferType::AudioI16(ref mut ab) => ab.truncate(len),
+ NABufferType::AudioI32(ref mut ab) => ab.truncate(len),
+ NABufferType::AudioF32(ref mut ab) => ab.truncate(len),
+ NABufferType::AudioPacked(ref mut ab) => ab.truncate(len),
+ _ => {},
+ };
+ }
/// Returns the distance between starts of two channels.
pub fn get_audio_stride(&self) -> usize {
match *self {
}
max_depth = max(max_depth, chr.get_depth());
}
- let unfit_elem_size = match fmt.get_elem_size() {
- 2 | 4 => false,
- _ => true,
- };
+ let unfit_elem_size = !matches!(fmt.get_elem_size(), 2 | 4);
//todo semi-packed like NV12
if fmt.is_paletted() {
let data: Vec<i16> = vec![0; length];
let buf: NAAudioBuffer<i16> = NAAudioBuffer { data: NABufferRef::new(data), info: ainfo, offs, chmap, len: nsamples, stride, step };
Ok(NABufferType::AudioI16(buf))
+ } else if ainfo.format.get_bits() == 32 && ainfo.format.is_signed() {
+ let data: Vec<i32> = vec![0; length];
+ let buf: NAAudioBuffer<i32> = NAAudioBuffer { data: NABufferRef::new(data), info: ainfo, offs, chmap, len: nsamples, stride, step };
+ Ok(NABufferType::AudioI32(buf))
} else {
Err(AllocatorError::TooLargeDimensions)
}
}
/// Creates a clone of current buffer.
-pub fn copy_buffer(buf: NABufferType) -> NABufferType {
+pub fn copy_buffer(buf: &NABufferType) -> NABufferType {
buf.clone()
}
}
/// Clears the pool from all frames.
pub fn reset(&mut self) {
- self.pool.truncate(0);
+ self.pool.clear();
}
}
impl NACodecInfo {
/// Constructs a new instance of `NACodecInfo`.
pub fn new(name: &'static str, p: NACodecTypeInfo, edata: Option<Vec<u8>>) -> Self {
- let extradata = match edata {
- None => None,
- Some(vec) => Some(Arc::new(vec)),
- };
- NACodecInfo { name, properties: p, extradata }
+ NACodecInfo { name, properties: p, extradata: edata.map(Arc::new) }
}
/// Constructs a new reference-counted instance of `NACodecInfo`.
pub fn new_ref(name: &'static str, p: NACodecTypeInfo, edata: Option<Arc<Vec<u8>>>) -> Self {
properties: NACodecTypeInfo::None,
extradata: None };
-/// Option definition.
-#[derive(Debug)]
-pub struct NAOptionDefinition {
- /// Option name.
- pub name: &'static str,
- /// Option meaning.
- pub description: &'static str,
- /// Minimal value for the option (if applicable).
- pub min_value: Option<NAValue>,
- /// Maximum value for the option (if applicable).
- pub max_value: Option<NAValue>,
-}
-
-/// Option.
-#[derive(Clone,Debug,PartialEq)]
-pub struct NAOption {
- /// Option name.
- pub name: String,
- /// Option value.
- pub value: NAValue,
-}
-
-/// A list of accepted option values.
-#[derive(Debug,Clone,PartialEq)]
-pub enum NAValue {
- /// Empty value.
- None,
- /// Boolean value.
- Bool(bool),
- /// Integer value.
- Int(i32),
- /// Long integer value.
- Long(i64),
- /// Floating point value.
- Float(f32),
- /// String value.
- String(String),
- /// Binary data value.
- Data(Arc<Vec<u8>>),
-}
-
/// A list of recognized frame types.
#[derive(Debug,Clone,Copy,PartialEq)]
#[allow(dead_code)]
pub fn set_duration(&mut self, dur: Option<u64>) { self.duration = dur; }
/// Converts time in given scale into timestamp in given base.
+ #[allow(clippy::collapsible_if)]
pub fn time_to_ts(time: u64, base: u64, tb_num: u32, tb_den: u32) -> u64 {
- let tb_num = tb_num as u64;
- let tb_den = tb_den as u64;
- let tmp = time.checked_mul(tb_num);
+ let tb_num = u64::from(tb_num);
+ let tb_den = u64::from(tb_den);
+ let tmp = time.checked_mul(tb_den);
if let Some(tmp) = tmp {
- tmp / base / tb_den
+ tmp / base / tb_num
} else {
- let tmp = time.checked_mul(tb_num);
- if let Some(tmp) = tmp {
- tmp / base / tb_den
+ if tb_num < base {
+ let coarse = time / tb_num;
+ if let Some(tmp) = coarse.checked_mul(tb_den) {
+ tmp / base
+ } else {
+ (coarse / base) * tb_den
+ }
} else {
let coarse = time / base;
- let tmp = coarse.checked_mul(tb_num);
- if let Some(tmp) = tmp {
- tmp / tb_den
+ if let Some(tmp) = coarse.checked_mul(tb_den) {
+ tmp / tb_num
} else {
- (coarse / tb_den) * tb_num
+ (coarse / tb_num) * tb_den
}
}
}
}
/// Converts timestamp in given base into time in given scale.
pub fn ts_to_time(ts: u64, base: u64, tb_num: u32, tb_den: u32) -> u64 {
- let tb_num = tb_num as u64;
- let tb_den = tb_den as u64;
+ let tb_num = u64::from(tb_num);
+ let tb_den = u64::from(tb_den);
let tmp = ts.checked_mul(base);
if let Some(tmp) = tmp {
let tmp2 = tmp.checked_mul(tb_num);
}
}
}
+ fn get_cur_ts(&self) -> u64 { self.pts.unwrap_or_else(|| self.dts.unwrap_or(0)) }
+ fn get_cur_millis(&self) -> u64 {
+ let ts = self.get_cur_ts();
+ Self::ts_to_time(ts, 1000, self.tb_num, self.tb_den)
+ }
+ /// Checks whether the current time information is earler than provided reference time.
+ pub fn less_than(&self, time: NATimePoint) -> bool {
+ if self.pts.is_none() && self.dts.is_none() {
+ return true;
+ }
+ match time {
+ NATimePoint::PTS(rpts) => self.get_cur_ts() < rpts,
+ NATimePoint::Milliseconds(ms) => self.get_cur_millis() < ms,
+ NATimePoint::None => false,
+ }
+ }
+ /// Checks whether the current time information is the same as provided reference time.
+ pub fn equal(&self, time: NATimePoint) -> bool {
+ if self.pts.is_none() && self.dts.is_none() {
+ return time == NATimePoint::None;
+ }
+ match time {
+ NATimePoint::PTS(rpts) => self.get_cur_ts() == rpts,
+ NATimePoint::Milliseconds(ms) => self.get_cur_millis() == ms,
+ NATimePoint::None => false,
+ }
+ }
+}
+
+/// Time information for specifying durations or seek positions.
+#[derive(Clone,Copy,Debug,PartialEq)]
+pub enum NATimePoint {
+ /// Time in milliseconds.
+ Milliseconds(u64),
+ /// Stream timestamp.
+ PTS(u64),
+ /// No time information present.
+ None,
+}
+
+impl Default for NATimePoint {
+ fn default() -> Self {
+ NATimePoint::None
+ }
+}
+
+impl fmt::Display for NATimePoint {
+ fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
+ match *self {
+ NATimePoint::Milliseconds(millis) => {
+ let tot_s = millis / 1000;
+ let ms = millis % 1000;
+ if tot_s < 60 {
+ if ms != 0 {
+ return write!(f, "{}.{:03}", tot_s, ms);
+ } else {
+ return write!(f, "{}", tot_s);
+ }
+ }
+ let tot_m = tot_s / 60;
+ let s = tot_s % 60;
+ if tot_m < 60 {
+ if ms != 0 {
+ return write!(f, "{}:{:02}.{:03}", tot_m, s, ms);
+ } else {
+ return write!(f, "{}:{:02}", tot_m, s);
+ }
+ }
+ let h = tot_m / 60;
+ let m = tot_m % 60;
+ if ms != 0 {
+ write!(f, "{}:{:02}:{:02}.{:03}", h, m, s, ms)
+ } else {
+ write!(f, "{}:{:02}:{:02}", h, m, s)
+ }
+ },
+ NATimePoint::PTS(pts) => {
+ write!(f, "{}pts", pts)
+ },
+ NATimePoint::None => {
+ write!(f, "none")
+ },
+ }
+ }
+}
+
+impl FromStr for NATimePoint {
+ type Err = FormatParseError;
+
+ /// Parses the string into time information.
+ ///
+ /// Accepted formats are `<u64>pts`, `<u64>ms` or `[hh:][mm:]ss[.ms]`.
+ fn from_str(s: &str) -> Result<Self, Self::Err> {
+ if s.is_empty() {
+ return Err(FormatParseError {});
+ }
+ if !s.ends_with("pts") {
+ if s.ends_with("ms") {
+ let str_b = s.as_bytes();
+ let num = std::str::from_utf8(&str_b[..str_b.len() - 2]).unwrap();
+ let ret = num.parse::<u64>();
+ if let Ok(val) = ret {
+ return Ok(NATimePoint::Milliseconds(val));
+ } else {
+ return Err(FormatParseError {});
+ }
+ }
+ let mut parts = s.split(':');
+ let mut hrs = None;
+ let mut mins = None;
+ let mut secs = parts.next();
+ if let Some(part) = parts.next() {
+ std::mem::swap(&mut mins, &mut secs);
+ secs = Some(part);
+ }
+ if let Some(part) = parts.next() {
+ std::mem::swap(&mut hrs, &mut mins);
+ std::mem::swap(&mut mins, &mut secs);
+ secs = Some(part);
+ }
+ if parts.next().is_some() {
+ return Err(FormatParseError {});
+ }
+ let hours = if let Some(val) = hrs {
+ let ret = val.parse::<u64>();
+ if ret.is_err() { return Err(FormatParseError {}); }
+ let val = ret.unwrap();
+ if val > 1000 { return Err(FormatParseError {}); }
+ val
+ } else { 0 };
+ let minutes = if let Some(val) = mins {
+ let ret = val.parse::<u64>();
+ if ret.is_err() { return Err(FormatParseError {}); }
+ let val = ret.unwrap();
+ if val >= 60 { return Err(FormatParseError {}); }
+ val
+ } else { 0 };
+ let (seconds, millis) = if let Some(val) = secs {
+ let mut parts = val.split('.');
+ let ret = parts.next().unwrap().parse::<u64>();
+ if ret.is_err() { return Err(FormatParseError {}); }
+ let seconds = ret.unwrap();
+ if mins.is_some() && seconds >= 60 { return Err(FormatParseError {}); }
+ let millis = if let Some(val) = parts.next() {
+ let mut mval = 0;
+ let mut base = 0;
+ for ch in val.chars() {
+ if ('0'..='9').contains(&ch) {
+ mval = mval * 10 + u64::from((ch as u8) - b'0');
+ base += 1;
+ if base > 3 { break; }
+ } else {
+ return Err(FormatParseError {});
+ }
+ }
+ while base < 3 {
+ mval *= 10;
+ base += 1;
+ }
+ mval
+ } else { 0 };
+ (seconds, millis)
+ } else { unreachable!(); };
+ let tot_secs = hours * 60 * 60 + minutes * 60 + seconds;
+ Ok(NATimePoint::Milliseconds(tot_secs * 1000 + millis))
+ } else {
+ let str_b = s.as_bytes();
+ let num = std::str::from_utf8(&str_b[..str_b.len() - 3]).unwrap();
+ let ret = num.parse::<u64>();
+ if let Ok(val) = ret {
+ Ok(NATimePoint::PTS(val))
+ } else {
+ Err(FormatParseError {})
+ }
+ }
+ }
}
/// Decoded frame information.
pub tb_num: u32,
/// Timebase denominator.
pub tb_den: u32,
+ /// Duration in timebase units (zero if not available).
+ pub duration: u64,
}
/// A specialised reference-counted `NAStream` type.
pub type NAStreamRef = Arc<NAStream>;
/// Downscales the timebase by its greatest common denominator.
+#[allow(clippy::comparison_chain)]
pub fn reduce_timebase(tb_num: u32, tb_den: u32) -> (u32, u32) {
if tb_num == 0 { return (tb_num, tb_den); }
if (tb_den % tb_num) == 0 { return (1, tb_den / tb_num); }
impl NAStream {
/// Constructs a new `NAStream` instance.
- pub fn new(mt: StreamType, id: u32, info: NACodecInfo, tb_num: u32, tb_den: u32) -> Self {
+ pub fn new(mt: StreamType, id: u32, info: NACodecInfo, tb_num: u32, tb_den: u32, duration: u64) -> Self {
let (n, d) = reduce_timebase(tb_num, tb_den);
- NAStream { media_type: mt, id, num: 0, info: info.into_ref(), tb_num: n, tb_den: d }
+ NAStream { media_type: mt, id, num: 0, info: info.into_ref(), tb_num: n, tb_den: d, duration }
}
/// Returns stream id.
pub fn get_id(&self) -> u32 { self.id }
self.tb_num = n;
self.tb_den = d;
}
+ /// Returns stream duration.
+ pub fn get_duration(&self) -> u64 { self.duration }
+ /// Constructs a new timestamp.
+ pub fn make_ts(&self, pts: Option<u64>, dts: Option<u64>, duration: Option<u64>) -> NATimeInfo {
+ NATimeInfo::new(pts, dts, duration, self.tb_num, self.tb_den)
+ }
/// Converts current instance into a reference-counted one.
pub fn into_ref(self) -> NAStreamRef { Arc::new(self) }
}
impl NAPacket {
/// Constructs a new `NAPacket` instance.
- pub fn new(str: NAStreamRef, ts: NATimeInfo, kf: bool, vec: Vec<u8>) -> Self {
+ pub fn new(stream: NAStreamRef, ts: NATimeInfo, kf: bool, vec: Vec<u8>) -> Self {
// let mut vec: Vec<u8> = Vec::new();
// vec.resize(size, 0);
- NAPacket { stream: str, ts, keyframe: kf, buffer: NABufferRef::new(vec), side_data: Vec::new() }
+ NAPacket { stream, ts, keyframe: kf, buffer: NABufferRef::new(vec), side_data: Vec::new() }
+ }
+ /// Constructs a new `NAPacket` instance reusing a buffer reference.
+ pub fn new_from_refbuf(stream: NAStreamRef, ts: NATimeInfo, kf: bool, buffer: NABufferRef<Vec<u8>>) -> Self {
+ NAPacket { stream, ts, keyframe: kf, buffer, side_data: Vec::new() }
}
/// Returns information about the stream packet belongs to.
pub fn get_stream(&self) -> NAStreamRef { self.stream.clone() }
/// Adds side data for a packet.
pub fn add_side_data(&mut self, side_data: NASideData) { self.side_data.push(side_data); }
/// Assigns packet to a new stream.
- pub fn reassign(&mut self, str: NAStreamRef, ts: NATimeInfo) {
- self.stream = str;
+ pub fn reassign(&mut self, stream: NAStreamRef, ts: NATimeInfo) {
+ self.stream = stream;
self.ts = ts;
}
}
write!(f, "{}", ostr)
}
}
+
+/// Packet with a piece of data for a raw stream.
+pub struct NARawData {
+ stream: NAStreamRef,
+ buffer: NABufferRef<Vec<u8>>,
+}
+
+impl NARawData {
+ /// Constructs a new `NARawData` instance.
+ pub fn new(stream: NAStreamRef, vec: Vec<u8>) -> Self {
+ Self { stream, buffer: NABufferRef::new(vec) }
+ }
+ /// Constructs a new `NARawData` instance reusing a buffer reference.
+ pub fn new_from_refbuf(stream: NAStreamRef, buffer: NABufferRef<Vec<u8>>) -> Self {
+ Self { stream, buffer }
+ }
+ /// Returns information about the stream this data belongs to.
+ pub fn get_stream(&self) -> NAStreamRef { self.stream.clone() }
+ /// Returns a reference to packet data.
+ pub fn get_buffer(&self) -> NABufferRef<Vec<u8>> { self.buffer.clone() }
+ /// Assigns raw data to a new stream.
+ pub fn reassign(&mut self, stream: NAStreamRef) {
+ self.stream = stream;
+ }
+}
+
+impl fmt::Display for NARawData {
+ fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
+ write!(f, "[raw data for {} size {}]", self.stream, self.buffer.len())
+ }
+}
+
+#[cfg(test)]
+mod test {
+ use super::*;
+
+ #[test]
+ fn test_time_parse() {
+ assert_eq!(NATimePoint::PTS(42).to_string(), "42pts");
+ assert_eq!(NATimePoint::Milliseconds(4242000).to_string(), "1:10:42");
+ assert_eq!(NATimePoint::Milliseconds(42424242).to_string(), "11:47:04.242");
+ let ret = NATimePoint::from_str("42pts");
+ assert_eq!(ret.unwrap(), NATimePoint::PTS(42));
+ let ret = NATimePoint::from_str("1:2:3");
+ assert_eq!(ret.unwrap(), NATimePoint::Milliseconds(3723000));
+ let ret = NATimePoint::from_str("1:2:3.42");
+ assert_eq!(ret.unwrap(), NATimePoint::Milliseconds(3723420));
+ }
+}