2019-03-17 12:13:37 +00:00
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// Package avif implements a AVIF image encoder.
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//
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2019-03-17 17:52:27 +00:00
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// The AVIF specification is at https://aomediacodec.github.io/av1-avif/.
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2019-03-17 12:13:37 +00:00
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package avif
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// #cgo CFLAGS: -Wall -O2 -DNDEBUG
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// #cgo LDFLAGS: -laom
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// #include <stdlib.h>
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// #include "av1.h"
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import "C"
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import (
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"fmt"
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"image"
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"io"
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"runtime"
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)
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2019-03-17 17:52:27 +00:00
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// Encoder constants.
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2019-03-17 12:13:37 +00:00
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const (
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MinSpeed = 0
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MaxSpeed = 8
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MinQuality = 0
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MaxQuality = 63
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)
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2019-03-17 17:52:27 +00:00
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// Options are the encoding parameters. Threads ranges from 1, 0 means
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// use all available cores. Speed ranges from MinSpeed to MaxSpeed.
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// Quality ranges from MinQuality to MaxQuality, lower is better, 0
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// means lossless encoding. SubsampleRatio specifies subsampling of the
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// encoded image, nil means 4:2:0.
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type Options struct {
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Threads int
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Speed int
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Quality int
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SubsampleRatio *image.YCbCrSubsampleRatio
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}
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// DefaultOptions defines default encoder config.
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var DefaultOptions = Options{
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Threads: 0,
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Speed: 4,
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Quality: 25,
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SubsampleRatio: nil,
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}
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2019-03-17 12:13:37 +00:00
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2019-03-17 17:52:27 +00:00
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// An OptionsError reports that the passed options are not valid.
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2019-03-17 12:13:37 +00:00
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type OptionsError string
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func (e OptionsError) Error() string {
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return fmt.Sprintf("options error: %s", string(e))
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}
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2019-03-17 17:52:27 +00:00
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// An EncoderError reports that the encoder error has occured.
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2019-03-17 12:13:37 +00:00
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type EncoderError int
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func (e EncoderError) ToString() string {
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switch e {
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case C.AVIF_ERROR_GENERAL:
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return "general error"
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case C.AVIF_ERROR_CODEC_INIT:
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return "codec init error"
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case C.AVIF_ERROR_CODEC_DESTROY:
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return "codec destroy error"
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case C.AVIF_ERROR_FRAME_ENCODE:
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return "frame encode error"
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default:
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return "unknown error"
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}
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}
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func (e EncoderError) Error() string {
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return fmt.Sprintf("encoder error: %s", e.ToString())
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}
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2019-03-17 17:52:27 +00:00
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// A MuxerError reports that the muxer error has occured.
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2019-03-17 12:13:37 +00:00
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type MuxerError string
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func (e MuxerError) Error() string {
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return fmt.Sprintf("muxer error: %s", string(e))
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}
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// RGB to BT.709 YCbCr limited range.
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// https://web.archive.org/web/20180421030430/http://www.equasys.de/colorconversion.html
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// TODO(Kagami): Use fixed point, don't calc chroma values for skipped pixels.
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func rgb2yuv(r16, g16, b16 uint32) (uint8, uint8, uint8) {
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r, g, b := float32(r16)/256, float32(g16)/256, float32(b16)/256
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y := 0.183*r + 0.614*g + 0.062*b + 16
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cb := -0.101*r - 0.339*g + 0.439*b + 128
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cr := 0.439*r - 0.399*g - 0.040*b + 128
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return uint8(y), uint8(cb), uint8(cr)
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}
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// Encode writes the Image m to w in AVIF format with the given options.
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// Default parameters are used if a nil *Options is passed.
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//
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// NOTE: Image pixels are converted to RGBA first using standard Go
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// library. This is no-op for PNG images and does the right thing for
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// JPEG since they are normally stored as BT.601 full range with some
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// chroma subsampling. Then pixels are converted to BT.709 limited range
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// with specified chroma subsampling.
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//
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// Alpha channel and monochrome are not supported at the moment. Only
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// 4:2:0 8-bit images are supported at the moment.
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func Encode(w io.Writer, m image.Image, o *Options) error {
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// TODO(Kagami): More subsamplings, 10/12 bitdepth, monochrome, alpha.
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// TODO(Kagami): Allow to pass BT.709 YCbCr without extra conversions.
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if o == nil {
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o2 := DefaultOptions
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o = &o2
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} else {
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o2 := *o
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o = &o2
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}
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if o.Threads == 0 {
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o.Threads = runtime.NumCPU()
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}
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if o.SubsampleRatio == nil {
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s := image.YCbCrSubsampleRatio420
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o.SubsampleRatio = &s
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// if yuvImg, ok := m.(*image.YCbCr); ok {
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// o.SubsampleRatio = &yuvImg.SubsampleRatio
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// }
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}
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if o.Threads < 1 {
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2019-03-30 19:18:07 +00:00
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return OptionsError("bad threads number")
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2019-03-17 12:13:37 +00:00
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}
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if o.Speed < MinSpeed || o.Speed > MaxSpeed {
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return OptionsError("bad speed value")
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}
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if o.Quality < MinQuality || o.Quality > MaxQuality {
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return OptionsError("bad quality value")
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}
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if *o.SubsampleRatio != image.YCbCrSubsampleRatio420 {
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return OptionsError("unsupported subsampling")
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}
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if m.Bounds().Empty() {
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return OptionsError("empty image")
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}
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rec := m.Bounds()
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width := rec.Max.X - rec.Min.X
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height := rec.Max.Y - rec.Min.Y
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ySize := width * height
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uSize := ((width + 1) / 2) * ((height + 1) / 2)
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dataSize := ySize + uSize*2
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// Can't pass normal slice inside a struct, see
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// https://github.com/golang/go/issues/14210
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dataPtr := C.malloc(C.size_t(dataSize))
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defer C.free(dataPtr)
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data := (*[1 << 30]byte)(dataPtr)[:dataSize:dataSize]
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yPos := 0
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uPos := ySize
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for j := rec.Min.Y; j < rec.Max.Y; j++ {
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for i := rec.Min.X; i < rec.Max.X; i++ {
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r16, g16, b16, _ := m.At(i, j).RGBA()
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y, u, v := rgb2yuv(r16, g16, b16)
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data[yPos] = y
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yPos++
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// TODO(Kagami): Resample chroma planes with some better filter.
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if (i-rec.Min.X)&1 == 0 && (j-rec.Min.Y)&1 == 0 {
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data[uPos] = u
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data[uPos+uSize] = v
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uPos++
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}
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}
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}
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cfg := C.avif_config{
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threads: C.int(o.Threads),
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speed: C.int(o.Speed),
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quality: C.int(o.Quality),
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}
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frame := C.avif_frame{
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width: C.uint16_t(width),
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height: C.uint16_t(height),
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subsampling: C.AVIF_SUBSAMPLING_I420,
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data: (*C.uint8_t)(dataPtr),
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}
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obu := C.avif_buffer{
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buf: nil,
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sz: 0,
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}
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defer C.free(obu.buf)
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// TODO(Kagami): Error description.
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if eErr := C.avif_encode_frame(&cfg, &frame, &obu); eErr != 0 {
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return EncoderError(eErr)
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}
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obuData := (*[1 << 30]byte)(obu.buf)[:obu.sz:obu.sz]
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if mErr := muxFrame(w, m, *o.SubsampleRatio, obuData); mErr != nil {
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return MuxerError(mErr.Error())
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}
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return nil
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}
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