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fq/format/vpx/vp9_frame.go
2023-05-01 13:19:04 +02:00

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package vpx
// https://storage.googleapis.com/downloads.webmproject.org/docs/vp9/vp9-bitstream-specification-v0.6-20160331-draft.pdf
import (
"github.com/wader/fq/format"
"github.com/wader/fq/pkg/decode"
"github.com/wader/fq/pkg/interp"
"github.com/wader/fq/pkg/scalar"
)
// TODO: vpx frame?
const (
vp9FeatureProfile = 1
vp9FeatureLevel = 2
vp9FeatureBitDepth = 3
vp9FeatureChromaSubsampling = 4
)
var vp9FeatureIDNames = scalar.UintMapSymStr{
vp9FeatureProfile: "Profile",
vp9FeatureLevel: "Level",
vp9FeatureBitDepth: "Bit Depth",
vp9FeatureChromaSubsampling: "Chroma Subsampling",
}
const (
CS_UNKNOWN = 0
CS_BT_601 = 1
CS_BT_709 = 2
CS_SMPTE_170 = 3
CS_SMPTE_240 = 4
CS_BT_2020 = 5
CS_RESERVED = 6
CS_RGB = 7
)
var vp9ColorSpaceNames = scalar.UintMapSymStr{
CS_UNKNOWN: "unknown",
CS_BT_601: "bt_601",
CS_BT_709: "bt_709",
CS_SMPTE_170: "smpte_170",
CS_SMPTE_240: "smpte_240",
CS_BT_2020: "bt_2020",
CS_RESERVED: "reserved",
CS_RGB: "rgb",
}
var vp9ProfilesMap = scalar.UintMapDescription{
0: "8 bit/sample, chroma subsampling: 4:2:0",
1: "8 bit, chroma subsampling: 4:2:2, 4:4:0, 4:4:4",
2: "1012 bit, chroma subsampling: 4:2:0",
3: "1012 bit, chroma subsampling: 4:2:2, 4:4:0, 4:4:4",
}
func init() {
interp.RegisterFormat(
format.VP9_Frame,
&decode.Format{
Description: "VP9 frame",
DecodeFn: vp9Decode,
})
}
func vp9DecodeFrameSyncCode(d *decode.D) {
d.FieldU8("frame_sync_byte_0")
d.FieldU8("frame_sync_byte_1")
d.FieldU8("frame_sync_byte_2")
}
func vp9DecodeColorConfig(d *decode.D, profile int) {
bitDepth := 8
if profile >= 2 {
tenOrTwelveBit := d.FieldBool("ten_or_twelve_bit")
if tenOrTwelveBit {
bitDepth = 12
} else {
bitDepth = 10
}
}
d.FieldValueUint("bit_depth", uint64(bitDepth))
colorSpace := d.FieldU3("color_space", vp9ColorSpaceNames)
_, colorSpaceOk := vp9ColorSpaceNames[colorSpace]
if !colorSpaceOk || colorSpace != CS_RGB {
d.FieldU1("color_range")
if profile == 1 || profile == 3 {
d.FieldU1("subsampling_x")
d.FieldU1("subsampling_y")
d.FieldU1("reserved_zero1")
} else {
d.FieldValueUint("subsampling_x", 1)
d.FieldValueUint("subsampling_y", 1)
}
} else {
d.FieldValueUint("color_range", 1)
if profile == 1 || profile == 3 {
d.FieldValueUint("subsampling_x", 0)
d.FieldValueUint("subsampling_y", 0)
d.FieldU1("reserved_zero2")
}
}
}
func vp9DecodeFrameSize(d *decode.D) {
d.FieldUintFn("frame_width", func(d *decode.D) uint64 { return d.U16() + 1 })
d.FieldUintFn("frame_height", func(d *decode.D) uint64 { return d.U16() + 1 })
}
func vp9Decode(d *decode.D) any {
// TODO: header_size at end? even for show_existing_frame?
d.FieldU2("frame_marker")
profileLowBit := d.FieldU1("profile_low_bit")
profileHighBit := d.FieldU1("profile_high_bit")
profile := int(profileHighBit<<1 + profileLowBit)
d.FieldValueUint("profile", uint64(profile), vp9ProfilesMap)
if profile == 3 {
d.FieldU1("reserved_zero0")
}
showExistingFrame := d.FieldBool("show_existing_frame")
if showExistingFrame {
d.FieldU2("frame_to_show_map_idx")
return nil
}
frameType := d.FieldBool("frame_type", scalar.BoolMapSymStr{true: "non_key_frame", false: "key_frame"})
d.FieldU1("show_frame")
d.FieldU1("error_resilient_mode")
if !frameType {
// is key frame
vp9DecodeFrameSyncCode(d)
vp9DecodeColorConfig(d, profile)
vp9DecodeFrameSize(d)
}
d.FieldRawLen("data", d.BitsLeft())
return nil
}