av/codec/h264/h264dec/nalunit.go

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2022-05-31 08:17:06 +03:00
/*
DESCRIPTION
nalunit.go provides structures for a NAL unit as well as it's extensions.
AUTHORS
Saxon Nelson-Milton <saxon@ausocean.org>, The Australian Ocean Laboratory (AusOcean)
mrmod <mcmoranbjr@gmail.com>
*/
package h264dec
import (
"fmt"
"io"
"github.com/pkg/errors"
"bitbucket.org/ausocean/av/codec/h264/h264dec/bits"
)
// MVCExtension describes a NAL unit header multiview video coding extension, as
// defined in section H.7.3.1.1 of the specifications.
// Semantics of fields are specified in section H.7.4.1.1.
type MVCExtension struct {
// non_idr_flag, if true indicates that access unit is not IDR.
NonIdrFlag bool
// priority_id, indicates priority of NAL unit. A lower value => higher priority.
PriorityID uint8
// view_id, specifies a view identifier for the unit. Units with identical
// view_id are in the same view.
ViewID uint32
// temporal_id, temporal identifier for the unit.
TemporalID uint8
// anchor_pic_flag, if true access unit is an anchor access unit.
AnchorPicFlag bool
// inter_view_flag, if false current view component not used for inter-view
// prediction elsewhere in access unit.
InterViewFlag bool
// reserved_one_bit, always 1 (ignored by decoders)
ReservedOneBit uint8
}
// NewMVCExtension parses a NAL unit header multiview video coding extension
// from br following the syntax structure specified in section H.7.3.1.1, and
// returns as a new MVCExtension.
func NewMVCExtension(br *bits.BitReader) (*MVCExtension, error) {
e := &MVCExtension{}
r := newFieldReader(br)
e.NonIdrFlag = r.readBits(1) == 1
e.PriorityID = uint8(r.readBits(6))
e.ViewID = uint32(r.readBits(10))
e.TemporalID = uint8(r.readBits(3))
e.AnchorPicFlag = r.readBits(1) == 1
e.InterViewFlag = r.readBits(1) == 1
e.ReservedOneBit = uint8(r.readBits(1))
if r.err() != nil {
return nil, fmt.Errorf("error from fieldReader: %v", r.err())
}
return e, nil
}
// ThreeDAVCExtension describes a NAL unit header 3D advanced video coding
// extension, as defined in section J.7.3.1.1 of the specifications.
// For field semantics see section J.7.4.1.1.
type ThreeDAVCExtension struct {
// view_idx, specifies the order index for the NAL i.e. view_id = view_id[view_idx].
ViewIdx uint8
// dpeth_flag, if true indicates NAL part of a depth view component, otherwise
// a texture view component.
DepthFlag bool
// non_idr_flag, if true indicates that access unit is not IDR.
NonIdrFlag bool
// temporal_id, temporal identifier for the unit.
TemporalID uint8
// anchor_pic_flag, if true access unit is an anchor access unit.
AnchorPicFlag bool
// inter_view_flag, if false current view component not used for inter-view
// prediction elsewhere in access unit.
InterViewFlag bool
}
// NewThreeDAVCExtension parses a NAL unit header 3D advanced video coding
// extension from br following the syntax structure specified in section
// J.7.3.1.1, and returns as a new ThreeDAVCExtension.
func NewThreeDAVCExtension(br *bits.BitReader) (*ThreeDAVCExtension, error) {
e := &ThreeDAVCExtension{}
r := newFieldReader(br)
e.ViewIdx = uint8(r.readBits(8))
e.DepthFlag = r.readBits(1) == 1
e.NonIdrFlag = r.readBits(1) == 1
e.TemporalID = uint8(r.readBits(3))
e.AnchorPicFlag = r.readBits(1) == 1
e.InterViewFlag = r.readBits(1) == 1
if r.err() != nil {
return nil, fmt.Errorf("error from fieldReader: %v", r.err())
}
return e, nil
}
// SVCExtension describes a NAL unit header scalable video coding extension, as
// defined in section G.7.3.1.1 of the specifications.
// For field semantics see section G.7.4.1.1.
type SVCExtension struct {
// idr_flag, if true the current coded picture is an IDR picture when
// dependency_id == max(dependency_id) in the coded picture.
IdrFlag bool
// priority_id, specifies priority identifier for unit.
PriorityID uint8
// no_inter_layer_pred_flag, if true inter-layer prediction can't be used for
// decoding slice.
NoInterLayerPredFlag bool
// dependency_id, specifies a dependency identifier for the NAL.
DependencyID uint8
// quality_id, specifies a quality identifier for the NAL.
QualityID uint8
// temporal_id, specifiesa temporal identifier for the NAL.
TemporalID uint8
// use_ref_base_pic_flag, if true indicates reference base pictures and
// decoded pictures are used as references for inter prediction.
UseRefBasePicFlag bool
// discardable_flag, if true, indicates current NAL is not used for decoding
// dependency representations that are part of the current coded picture or
// any subsequent coded picture in decoding order and have a greater
// dependency_id value than current NAL.
DiscardableFlag bool
// output_flag, affects the decoded picture output and removal processes as
// specified in Annex C.
OutputFlag bool
// reserved_three_2bits, equal to 3. Decoders ignore.
ReservedThree2Bits uint8
}
// NewSVCExtension parses a NAL unit header scalable video coding extension from
// br following the syntax structure specified in section G.7.3.1.1, and returns
// as a new SVCExtension.
func NewSVCExtension(br *bits.BitReader) (*SVCExtension, error) {
e := &SVCExtension{}
r := newFieldReader(br)
e.IdrFlag = r.readBits(1) == 1
e.PriorityID = uint8(r.readBits(6))
e.NoInterLayerPredFlag = r.readBits(1) == 1
e.DependencyID = uint8(r.readBits(3))
e.QualityID = uint8(r.readBits(4))
e.TemporalID = uint8(r.readBits(3))
e.UseRefBasePicFlag = r.readBits(1) == 1
e.DiscardableFlag = r.readBits(1) == 1
e.OutputFlag = r.readBits(1) == 1
e.ReservedThree2Bits = uint8(r.readBits(2))
if r.err() != nil {
return nil, fmt.Errorf("error from fieldReader: %v", r.err())
}
return e, nil
}
// NALUnit describes a network abstraction layer unit, as defined in section
// 7.3.1 of the specifications.
// Field semantics are defined in section 7.4.1.
type NALUnit struct {
// forbidden_zero_bit, always 0.
ForbiddenZeroBit uint8
// nal_ref_idc, if not 0 indicates content of NAL contains a sequence parameter
// set, a sequence parameter set extension, a subset sequence parameter set,
// a picture parameter set, a slice of a reference picture, a slice data
// partition of a reference picture, or a prefix NAL preceding a slice of
// a reference picture.
RefIdc uint8
// nal_unit_type, specifies the type of RBSP data contained in the NAL as
// defined in Table 7-1.
Type uint8
// svc_extension_flag, indicates whether a nal_unit_header_svc_extension()
// (G.7.3.1.1) or nal_unit_header_mvc_extension() (H.7.3.1.1) will follow next
// in the syntax structure.
SVCExtensionFlag bool
// avc_3d_extension_flag, for nal_unit_type = 21, indicates that a
// nal_unit_header_mvc_extension() (H.7.3.1.1) or
// nal_unit_header_3davc_extension() (J.7.3.1.1) will follow next in syntax
// structure.
AVC3DExtensionFlag bool
// nal_unit_header_svc_extension() as defined in section G.7.3.1.1.
SVCExtension *SVCExtension
// nal_unit_header_3davc_extension() as defined in section J.7.3.1.1
ThreeDAVCExtension *ThreeDAVCExtension
// nal_unit_header_mvc_extension() as defined in section H.7.3.1.1).
MVCExtension *MVCExtension
// emulation_prevention_three_byte, equal to 0x03 and is discarded by decoder.
EmulationPreventionThreeByte byte
// rbsp_byte, the raw byte sequence payload data for the NAL.
RBSP []byte
}
// NewNALUnit parses a network abstraction layer unit from br following the
// syntax structure specified in section 7.3.1, and returns as a new NALUnit.
func NewNALUnit(br *bits.BitReader) (*NALUnit, error) {
n := &NALUnit{}
r := newFieldReader(br)
n.ForbiddenZeroBit = uint8(r.readBits(1))
n.RefIdc = uint8(r.readBits(2))
n.Type = uint8(r.readBits(5))
var err error
if n.Type == naluTypePrefixNALU || n.Type == naluTypeSliceLayerExtRBSP || n.Type == naluTypeSliceLayerExtRBSP2 {
if n.Type != naluTypeSliceLayerExtRBSP2 {
n.SVCExtensionFlag = r.readBits(1) == 1
} else {
n.AVC3DExtensionFlag = r.readBits(1) == 1
}
if n.SVCExtensionFlag {
n.SVCExtension, err = NewSVCExtension(br)
if err != nil {
return nil, errors.Wrap(err, "could not parse SVCExtension")
}
} else if n.AVC3DExtensionFlag {
n.ThreeDAVCExtension, err = NewThreeDAVCExtension(br)
if err != nil {
return nil, errors.Wrap(err, "could not parse ThreeDAVCExtension")
}
} else {
n.MVCExtension, err = NewMVCExtension(br)
if err != nil {
return nil, errors.Wrap(err, "could not parse MVCExtension")
}
}
}
for moreRBSPData(br) {
next3Bytes, err := br.PeekBits(24)
// If PeekBits cannot get 3 bytes, but there still might be 2 bytes left in
// the source, we will get an io.ErrUnexpectedEOF; we wish to ignore this
// and continue. The call to moreRBSPData will determine when we have
// reached the end of the NAL unit.
if err != nil && errors.Cause(err) != io.ErrUnexpectedEOF {
return nil, errors.Wrap(err, "could not Peek next 3 bytes")
}
if next3Bytes == 0x000003 {
for j := 0; j < 2; j++ {
rbspByte := byte(r.readBits(8))
n.RBSP = append(n.RBSP, byte(rbspByte))
}
// Read Emulation prevention three byte.
n.EmulationPreventionThreeByte = byte(r.readBits(8))
} else {
n.RBSP = append(n.RBSP, byte(r.readBits(8)))
}
}
if r.err() != nil {
return nil, fmt.Errorf("fieldReader error: %v", r.err())
}
return n, nil
}