cri-o/vendor/github.com/containers/storage/layers_ffjson.go

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// Code generated by ffjson <https://github.com/pquerna/ffjson>. DO NOT EDIT.
// source: layers.go. Hack to make this work on github.com
package storage
import (
"bytes"
"encoding/json"
"fmt"
"github.com/containers/storage/pkg/archive"
"github.com/opencontainers/go-digest"
fflib "github.com/pquerna/ffjson/fflib/v1"
)
// MarshalJSON marshal bytes to json - template
func (j *DiffOptions) MarshalJSON() ([]byte, error) {
var buf fflib.Buffer
if j == nil {
buf.WriteString("null")
return buf.Bytes(), nil
}
err := j.MarshalJSONBuf(&buf)
if err != nil {
return nil, err
}
return buf.Bytes(), nil
}
// MarshalJSONBuf marshal buff to json - template
func (j *DiffOptions) MarshalJSONBuf(buf fflib.EncodingBuffer) error {
if j == nil {
buf.WriteString("null")
return nil
}
var err error
var obj []byte
_ = obj
_ = err
if j.Compression != nil {
buf.WriteString(`{"Compression":`)
fflib.FormatBits2(buf, uint64(*j.Compression), 10, *j.Compression < 0)
} else {
buf.WriteString(`{"Compression":null`)
}
buf.WriteByte('}')
return nil
}
const (
ffjtDiffOptionsbase = iota
ffjtDiffOptionsnosuchkey
ffjtDiffOptionsCompression
)
var ffjKeyDiffOptionsCompression = []byte("Compression")
// UnmarshalJSON umarshall json - template of ffjson
func (j *DiffOptions) UnmarshalJSON(input []byte) error {
fs := fflib.NewFFLexer(input)
return j.UnmarshalJSONFFLexer(fs, fflib.FFParse_map_start)
}
// UnmarshalJSONFFLexer fast json unmarshall - template ffjson
func (j *DiffOptions) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error
currentKey := ffjtDiffOptionsbase
_ = currentKey
tok := fflib.FFTok_init
wantedTok := fflib.FFTok_init
mainparse:
for {
tok = fs.Scan()
// println(fmt.Sprintf("debug: tok: %v state: %v", tok, state))
if tok == fflib.FFTok_error {
goto tokerror
}
switch state {
case fflib.FFParse_map_start:
if tok != fflib.FFTok_left_bracket {
wantedTok = fflib.FFTok_left_bracket
goto wrongtokenerror
}
state = fflib.FFParse_want_key
continue
case fflib.FFParse_after_value:
if tok == fflib.FFTok_comma {
state = fflib.FFParse_want_key
} else if tok == fflib.FFTok_right_bracket {
goto done
} else {
wantedTok = fflib.FFTok_comma
goto wrongtokenerror
}
case fflib.FFParse_want_key:
// json {} ended. goto exit. woo.
if tok == fflib.FFTok_right_bracket {
goto done
}
if tok != fflib.FFTok_string {
wantedTok = fflib.FFTok_string
goto wrongtokenerror
}
kn := fs.Output.Bytes()
if len(kn) <= 0 {
// "" case. hrm.
currentKey = ffjtDiffOptionsnosuchkey
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'C':
if bytes.Equal(ffjKeyDiffOptionsCompression, kn) {
currentKey = ffjtDiffOptionsCompression
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.EqualFoldRight(ffjKeyDiffOptionsCompression, kn) {
currentKey = ffjtDiffOptionsCompression
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffjtDiffOptionsnosuchkey
state = fflib.FFParse_want_colon
goto mainparse
}
case fflib.FFParse_want_colon:
if tok != fflib.FFTok_colon {
wantedTok = fflib.FFTok_colon
goto wrongtokenerror
}
state = fflib.FFParse_want_value
continue
case fflib.FFParse_want_value:
if tok == fflib.FFTok_left_brace || tok == fflib.FFTok_left_bracket || tok == fflib.FFTok_integer || tok == fflib.FFTok_double || tok == fflib.FFTok_string || tok == fflib.FFTok_bool || tok == fflib.FFTok_null {
switch currentKey {
case ffjtDiffOptionsCompression:
goto handle_Compression
case ffjtDiffOptionsnosuchkey:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Compression:
/* handler: j.Compression type=archive.Compression kind=int quoted=false*/
{
if tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for Compression", tok))
}
}
{
if tok == fflib.FFTok_null {
j.Compression = nil
} else {
tval, err := fflib.ParseInt(fs.Output.Bytes(), 10, 64)
if err != nil {
return fs.WrapErr(err)
}
ttypval := archive.Compression(tval)
j.Compression = &ttypval
}
}
state = fflib.FFParse_after_value
goto mainparse
wantedvalue:
return fs.WrapErr(fmt.Errorf("wanted value token, but got token: %v", tok))
wrongtokenerror:
return fs.WrapErr(fmt.Errorf("ffjson: wanted token: %v, but got token: %v output=%s", wantedTok, tok, fs.Output.String()))
tokerror:
if fs.BigError != nil {
return fs.WrapErr(fs.BigError)
}
err = fs.Error.ToError()
if err != nil {
return fs.WrapErr(err)
}
panic("ffjson-generated: unreachable, please report bug.")
done:
return nil
}
// MarshalJSON marshal bytes to json - template
func (j *Layer) MarshalJSON() ([]byte, error) {
var buf fflib.Buffer
if j == nil {
buf.WriteString("null")
return buf.Bytes(), nil
}
err := j.MarshalJSONBuf(&buf)
if err != nil {
return nil, err
}
return buf.Bytes(), nil
}
// MarshalJSONBuf marshal buff to json - template
func (j *Layer) MarshalJSONBuf(buf fflib.EncodingBuffer) error {
if j == nil {
buf.WriteString("null")
return nil
}
var err error
var obj []byte
_ = obj
_ = err
buf.WriteString(`{ "id":`)
fflib.WriteJsonString(buf, string(j.ID))
buf.WriteByte(',')
if len(j.Names) != 0 {
buf.WriteString(`"names":`)
if j.Names != nil {
buf.WriteString(`[`)
for i, v := range j.Names {
if i != 0 {
buf.WriteString(`,`)
}
fflib.WriteJsonString(buf, string(v))
}
buf.WriteString(`]`)
} else {
buf.WriteString(`null`)
}
buf.WriteByte(',')
}
if len(j.Parent) != 0 {
buf.WriteString(`"parent":`)
fflib.WriteJsonString(buf, string(j.Parent))
buf.WriteByte(',')
}
if len(j.Metadata) != 0 {
buf.WriteString(`"metadata":`)
fflib.WriteJsonString(buf, string(j.Metadata))
buf.WriteByte(',')
}
if len(j.MountLabel) != 0 {
buf.WriteString(`"mountlabel":`)
fflib.WriteJsonString(buf, string(j.MountLabel))
buf.WriteByte(',')
}
if true {
buf.WriteString(`"created":`)
{
obj, err = j.Created.MarshalJSON()
if err != nil {
return err
}
buf.Write(obj)
}
buf.WriteByte(',')
}
if len(j.CompressedDigest) != 0 {
buf.WriteString(`"compressed-diff-digest":`)
fflib.WriteJsonString(buf, string(j.CompressedDigest))
buf.WriteByte(',')
}
if j.CompressedSize != 0 {
buf.WriteString(`"compressed-size":`)
fflib.FormatBits2(buf, uint64(j.CompressedSize), 10, j.CompressedSize < 0)
buf.WriteByte(',')
}
if len(j.UncompressedDigest) != 0 {
buf.WriteString(`"diff-digest":`)
fflib.WriteJsonString(buf, string(j.UncompressedDigest))
buf.WriteByte(',')
}
if j.UncompressedSize != 0 {
buf.WriteString(`"diff-size":`)
fflib.FormatBits2(buf, uint64(j.UncompressedSize), 10, j.UncompressedSize < 0)
buf.WriteByte(',')
}
if j.CompressionType != 0 {
buf.WriteString(`"compression":`)
fflib.FormatBits2(buf, uint64(j.CompressionType), 10, j.CompressionType < 0)
buf.WriteByte(',')
}
if len(j.Flags) != 0 {
buf.WriteString(`"flags":`)
/* Falling back. type=map[string]interface {} kind=map */
err = buf.Encode(j.Flags)
if err != nil {
return err
}
buf.WriteByte(',')
}
buf.Rewind(1)
buf.WriteByte('}')
return nil
}
const (
ffjtLayerbase = iota
ffjtLayernosuchkey
ffjtLayerID
ffjtLayerNames
ffjtLayerParent
ffjtLayerMetadata
ffjtLayerMountLabel
ffjtLayerCreated
ffjtLayerCompressedDigest
ffjtLayerCompressedSize
ffjtLayerUncompressedDigest
ffjtLayerUncompressedSize
ffjtLayerCompressionType
ffjtLayerFlags
)
var ffjKeyLayerID = []byte("id")
var ffjKeyLayerNames = []byte("names")
var ffjKeyLayerParent = []byte("parent")
var ffjKeyLayerMetadata = []byte("metadata")
var ffjKeyLayerMountLabel = []byte("mountlabel")
var ffjKeyLayerCreated = []byte("created")
var ffjKeyLayerCompressedDigest = []byte("compressed-diff-digest")
var ffjKeyLayerCompressedSize = []byte("compressed-size")
var ffjKeyLayerUncompressedDigest = []byte("diff-digest")
var ffjKeyLayerUncompressedSize = []byte("diff-size")
var ffjKeyLayerCompressionType = []byte("compression")
var ffjKeyLayerFlags = []byte("flags")
// UnmarshalJSON umarshall json - template of ffjson
func (j *Layer) UnmarshalJSON(input []byte) error {
fs := fflib.NewFFLexer(input)
return j.UnmarshalJSONFFLexer(fs, fflib.FFParse_map_start)
}
// UnmarshalJSONFFLexer fast json unmarshall - template ffjson
func (j *Layer) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error
currentKey := ffjtLayerbase
_ = currentKey
tok := fflib.FFTok_init
wantedTok := fflib.FFTok_init
mainparse:
for {
tok = fs.Scan()
// println(fmt.Sprintf("debug: tok: %v state: %v", tok, state))
if tok == fflib.FFTok_error {
goto tokerror
}
switch state {
case fflib.FFParse_map_start:
if tok != fflib.FFTok_left_bracket {
wantedTok = fflib.FFTok_left_bracket
goto wrongtokenerror
}
state = fflib.FFParse_want_key
continue
case fflib.FFParse_after_value:
if tok == fflib.FFTok_comma {
state = fflib.FFParse_want_key
} else if tok == fflib.FFTok_right_bracket {
goto done
} else {
wantedTok = fflib.FFTok_comma
goto wrongtokenerror
}
case fflib.FFParse_want_key:
// json {} ended. goto exit. woo.
if tok == fflib.FFTok_right_bracket {
goto done
}
if tok != fflib.FFTok_string {
wantedTok = fflib.FFTok_string
goto wrongtokenerror
}
kn := fs.Output.Bytes()
if len(kn) <= 0 {
// "" case. hrm.
currentKey = ffjtLayernosuchkey
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'c':
if bytes.Equal(ffjKeyLayerCreated, kn) {
currentKey = ffjtLayerCreated
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffjKeyLayerCompressedDigest, kn) {
currentKey = ffjtLayerCompressedDigest
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffjKeyLayerCompressedSize, kn) {
currentKey = ffjtLayerCompressedSize
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffjKeyLayerCompressionType, kn) {
currentKey = ffjtLayerCompressionType
state = fflib.FFParse_want_colon
goto mainparse
}
case 'd':
if bytes.Equal(ffjKeyLayerUncompressedDigest, kn) {
currentKey = ffjtLayerUncompressedDigest
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffjKeyLayerUncompressedSize, kn) {
currentKey = ffjtLayerUncompressedSize
state = fflib.FFParse_want_colon
goto mainparse
}
case 'f':
if bytes.Equal(ffjKeyLayerFlags, kn) {
currentKey = ffjtLayerFlags
state = fflib.FFParse_want_colon
goto mainparse
}
case 'i':
if bytes.Equal(ffjKeyLayerID, kn) {
currentKey = ffjtLayerID
state = fflib.FFParse_want_colon
goto mainparse
}
case 'm':
if bytes.Equal(ffjKeyLayerMetadata, kn) {
currentKey = ffjtLayerMetadata
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffjKeyLayerMountLabel, kn) {
currentKey = ffjtLayerMountLabel
state = fflib.FFParse_want_colon
goto mainparse
}
case 'n':
if bytes.Equal(ffjKeyLayerNames, kn) {
currentKey = ffjtLayerNames
state = fflib.FFParse_want_colon
goto mainparse
}
case 'p':
if bytes.Equal(ffjKeyLayerParent, kn) {
currentKey = ffjtLayerParent
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.EqualFoldRight(ffjKeyLayerFlags, kn) {
currentKey = ffjtLayerFlags
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffjKeyLayerCompressionType, kn) {
currentKey = ffjtLayerCompressionType
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffjKeyLayerUncompressedSize, kn) {
currentKey = ffjtLayerUncompressedSize
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffjKeyLayerUncompressedDigest, kn) {
currentKey = ffjtLayerUncompressedDigest
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffjKeyLayerCompressedSize, kn) {
currentKey = ffjtLayerCompressedSize
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffjKeyLayerCompressedDigest, kn) {
currentKey = ffjtLayerCompressedDigest
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffjKeyLayerCreated, kn) {
currentKey = ffjtLayerCreated
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffjKeyLayerMountLabel, kn) {
currentKey = ffjtLayerMountLabel
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffjKeyLayerMetadata, kn) {
currentKey = ffjtLayerMetadata
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffjKeyLayerParent, kn) {
currentKey = ffjtLayerParent
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffjKeyLayerNames, kn) {
currentKey = ffjtLayerNames
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffjKeyLayerID, kn) {
currentKey = ffjtLayerID
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffjtLayernosuchkey
state = fflib.FFParse_want_colon
goto mainparse
}
case fflib.FFParse_want_colon:
if tok != fflib.FFTok_colon {
wantedTok = fflib.FFTok_colon
goto wrongtokenerror
}
state = fflib.FFParse_want_value
continue
case fflib.FFParse_want_value:
if tok == fflib.FFTok_left_brace || tok == fflib.FFTok_left_bracket || tok == fflib.FFTok_integer || tok == fflib.FFTok_double || tok == fflib.FFTok_string || tok == fflib.FFTok_bool || tok == fflib.FFTok_null {
switch currentKey {
case ffjtLayerID:
goto handle_ID
case ffjtLayerNames:
goto handle_Names
case ffjtLayerParent:
goto handle_Parent
case ffjtLayerMetadata:
goto handle_Metadata
case ffjtLayerMountLabel:
goto handle_MountLabel
case ffjtLayerCreated:
goto handle_Created
case ffjtLayerCompressedDigest:
goto handle_CompressedDigest
case ffjtLayerCompressedSize:
goto handle_CompressedSize
case ffjtLayerUncompressedDigest:
goto handle_UncompressedDigest
case ffjtLayerUncompressedSize:
goto handle_UncompressedSize
case ffjtLayerCompressionType:
goto handle_CompressionType
case ffjtLayerFlags:
goto handle_Flags
case ffjtLayernosuchkey:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_ID:
/* handler: j.ID type=string kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for string", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
j.ID = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Names:
/* handler: j.Names type=[]string kind=slice quoted=false*/
{
{
if tok != fflib.FFTok_left_brace && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for ", tok))
}
}
if tok == fflib.FFTok_null {
j.Names = nil
} else {
j.Names = []string{}
wantVal := true
for {
var tmpJNames string
tok = fs.Scan()
if tok == fflib.FFTok_error {
goto tokerror
}
if tok == fflib.FFTok_right_brace {
break
}
if tok == fflib.FFTok_comma {
if wantVal == true {
// TODO(pquerna): this isn't an ideal error message, this handles
// things like [,,,] as an array value.
return fs.WrapErr(fmt.Errorf("wanted value token, but got token: %v", tok))
}
continue
} else {
wantVal = true
}
/* handler: tmpJNames type=string kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for string", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
tmpJNames = string(string(outBuf))
}
}
j.Names = append(j.Names, tmpJNames)
wantVal = false
}
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Parent:
/* handler: j.Parent type=string kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for string", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
j.Parent = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Metadata:
/* handler: j.Metadata type=string kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for string", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
j.Metadata = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_MountLabel:
/* handler: j.MountLabel type=string kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for string", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
j.MountLabel = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Created:
/* handler: j.Created type=time.Time kind=struct quoted=false*/
{
if tok == fflib.FFTok_null {
} else {
tbuf, err := fs.CaptureField(tok)
if err != nil {
return fs.WrapErr(err)
}
err = j.Created.UnmarshalJSON(tbuf)
if err != nil {
return fs.WrapErr(err)
}
}
state = fflib.FFParse_after_value
}
state = fflib.FFParse_after_value
goto mainparse
handle_CompressedDigest:
/* handler: j.CompressedDigest type=digest.Digest kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for Digest", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
j.CompressedDigest = digest.Digest(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CompressedSize:
/* handler: j.CompressedSize type=int64 kind=int64 quoted=false*/
{
if tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for int64", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseInt(fs.Output.Bytes(), 10, 64)
if err != nil {
return fs.WrapErr(err)
}
j.CompressedSize = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_UncompressedDigest:
/* handler: j.UncompressedDigest type=digest.Digest kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for Digest", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
j.UncompressedDigest = digest.Digest(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_UncompressedSize:
/* handler: j.UncompressedSize type=int64 kind=int64 quoted=false*/
{
if tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for int64", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseInt(fs.Output.Bytes(), 10, 64)
if err != nil {
return fs.WrapErr(err)
}
j.UncompressedSize = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CompressionType:
/* handler: j.CompressionType type=archive.Compression kind=int quoted=false*/
{
if tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for Compression", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseInt(fs.Output.Bytes(), 10, 64)
if err != nil {
return fs.WrapErr(err)
}
j.CompressionType = archive.Compression(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Flags:
/* handler: j.Flags type=map[string]interface {} kind=map quoted=false*/
{
{
if tok != fflib.FFTok_left_bracket && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for ", tok))
}
}
if tok == fflib.FFTok_null {
j.Flags = nil
} else {
j.Flags = make(map[string]interface{}, 0)
wantVal := true
for {
var k string
var tmpJFlags interface{}
tok = fs.Scan()
if tok == fflib.FFTok_error {
goto tokerror
}
if tok == fflib.FFTok_right_bracket {
break
}
if tok == fflib.FFTok_comma {
if wantVal == true {
// TODO(pquerna): this isn't an ideal error message, this handles
// things like [,,,] as an array value.
return fs.WrapErr(fmt.Errorf("wanted value token, but got token: %v", tok))
}
continue
} else {
wantVal = true
}
/* handler: k type=string kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for string", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
k = string(string(outBuf))
}
}
// Expect ':' after key
tok = fs.Scan()
if tok != fflib.FFTok_colon {
return fs.WrapErr(fmt.Errorf("wanted colon token, but got token: %v", tok))
}
tok = fs.Scan()
/* handler: tmpJFlags type=interface {} kind=interface quoted=false*/
{
/* Falling back. type=interface {} kind=interface */
tbuf, err := fs.CaptureField(tok)
if err != nil {
return fs.WrapErr(err)
}
err = json.Unmarshal(tbuf, &tmpJFlags)
if err != nil {
return fs.WrapErr(err)
}
}
j.Flags[k] = tmpJFlags
wantVal = false
}
}
}
state = fflib.FFParse_after_value
goto mainparse
wantedvalue:
return fs.WrapErr(fmt.Errorf("wanted value token, but got token: %v", tok))
wrongtokenerror:
return fs.WrapErr(fmt.Errorf("ffjson: wanted token: %v, but got token: %v output=%s", wantedTok, tok, fs.Output.String()))
tokerror:
if fs.BigError != nil {
return fs.WrapErr(fs.BigError)
}
err = fs.Error.ToError()
if err != nil {
return fs.WrapErr(err)
}
panic("ffjson-generated: unreachable, please report bug.")
done:
return nil
}
// MarshalJSON marshal bytes to json - template
func (j *layerMountPoint) MarshalJSON() ([]byte, error) {
var buf fflib.Buffer
if j == nil {
buf.WriteString("null")
return buf.Bytes(), nil
}
err := j.MarshalJSONBuf(&buf)
if err != nil {
return nil, err
}
return buf.Bytes(), nil
}
// MarshalJSONBuf marshal buff to json - template
func (j *layerMountPoint) MarshalJSONBuf(buf fflib.EncodingBuffer) error {
if j == nil {
buf.WriteString("null")
return nil
}
var err error
var obj []byte
_ = obj
_ = err
buf.WriteString(`{"id":`)
fflib.WriteJsonString(buf, string(j.ID))
buf.WriteString(`,"path":`)
fflib.WriteJsonString(buf, string(j.MountPoint))
buf.WriteString(`,"count":`)
fflib.FormatBits2(buf, uint64(j.MountCount), 10, j.MountCount < 0)
buf.WriteByte('}')
return nil
}
const (
ffjtlayerMountPointbase = iota
ffjtlayerMountPointnosuchkey
ffjtlayerMountPointID
ffjtlayerMountPointMountPoint
ffjtlayerMountPointMountCount
)
var ffjKeylayerMountPointID = []byte("id")
var ffjKeylayerMountPointMountPoint = []byte("path")
var ffjKeylayerMountPointMountCount = []byte("count")
// UnmarshalJSON umarshall json - template of ffjson
func (j *layerMountPoint) UnmarshalJSON(input []byte) error {
fs := fflib.NewFFLexer(input)
return j.UnmarshalJSONFFLexer(fs, fflib.FFParse_map_start)
}
// UnmarshalJSONFFLexer fast json unmarshall - template ffjson
func (j *layerMountPoint) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error
currentKey := ffjtlayerMountPointbase
_ = currentKey
tok := fflib.FFTok_init
wantedTok := fflib.FFTok_init
mainparse:
for {
tok = fs.Scan()
// println(fmt.Sprintf("debug: tok: %v state: %v", tok, state))
if tok == fflib.FFTok_error {
goto tokerror
}
switch state {
case fflib.FFParse_map_start:
if tok != fflib.FFTok_left_bracket {
wantedTok = fflib.FFTok_left_bracket
goto wrongtokenerror
}
state = fflib.FFParse_want_key
continue
case fflib.FFParse_after_value:
if tok == fflib.FFTok_comma {
state = fflib.FFParse_want_key
} else if tok == fflib.FFTok_right_bracket {
goto done
} else {
wantedTok = fflib.FFTok_comma
goto wrongtokenerror
}
case fflib.FFParse_want_key:
// json {} ended. goto exit. woo.
if tok == fflib.FFTok_right_bracket {
goto done
}
if tok != fflib.FFTok_string {
wantedTok = fflib.FFTok_string
goto wrongtokenerror
}
kn := fs.Output.Bytes()
if len(kn) <= 0 {
// "" case. hrm.
currentKey = ffjtlayerMountPointnosuchkey
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'c':
if bytes.Equal(ffjKeylayerMountPointMountCount, kn) {
currentKey = ffjtlayerMountPointMountCount
state = fflib.FFParse_want_colon
goto mainparse
}
case 'i':
if bytes.Equal(ffjKeylayerMountPointID, kn) {
currentKey = ffjtlayerMountPointID
state = fflib.FFParse_want_colon
goto mainparse
}
case 'p':
if bytes.Equal(ffjKeylayerMountPointMountPoint, kn) {
currentKey = ffjtlayerMountPointMountPoint
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.SimpleLetterEqualFold(ffjKeylayerMountPointMountCount, kn) {
currentKey = ffjtlayerMountPointMountCount
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffjKeylayerMountPointMountPoint, kn) {
currentKey = ffjtlayerMountPointMountPoint
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffjKeylayerMountPointID, kn) {
currentKey = ffjtlayerMountPointID
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffjtlayerMountPointnosuchkey
state = fflib.FFParse_want_colon
goto mainparse
}
case fflib.FFParse_want_colon:
if tok != fflib.FFTok_colon {
wantedTok = fflib.FFTok_colon
goto wrongtokenerror
}
state = fflib.FFParse_want_value
continue
case fflib.FFParse_want_value:
if tok == fflib.FFTok_left_brace || tok == fflib.FFTok_left_bracket || tok == fflib.FFTok_integer || tok == fflib.FFTok_double || tok == fflib.FFTok_string || tok == fflib.FFTok_bool || tok == fflib.FFTok_null {
switch currentKey {
case ffjtlayerMountPointID:
goto handle_ID
case ffjtlayerMountPointMountPoint:
goto handle_MountPoint
case ffjtlayerMountPointMountCount:
goto handle_MountCount
case ffjtlayerMountPointnosuchkey:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_ID:
/* handler: j.ID type=string kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for string", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
j.ID = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_MountPoint:
/* handler: j.MountPoint type=string kind=string quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for string", tok))
}
}
if tok == fflib.FFTok_null {
} else {
outBuf := fs.Output.Bytes()
j.MountPoint = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_MountCount:
/* handler: j.MountCount type=int kind=int quoted=false*/
{
if tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for int", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseInt(fs.Output.Bytes(), 10, 64)
if err != nil {
return fs.WrapErr(err)
}
j.MountCount = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
wantedvalue:
return fs.WrapErr(fmt.Errorf("wanted value token, but got token: %v", tok))
wrongtokenerror:
return fs.WrapErr(fmt.Errorf("ffjson: wanted token: %v, but got token: %v output=%s", wantedTok, tok, fs.Output.String()))
tokerror:
if fs.BigError != nil {
return fs.WrapErr(fs.BigError)
}
err = fs.Error.ToError()
if err != nil {
return fs.WrapErr(err)
}
panic("ffjson-generated: unreachable, please report bug.")
done:
return nil
}
// MarshalJSON marshal bytes to json - template
func (j *layerStore) MarshalJSON() ([]byte, error) {
var buf fflib.Buffer
if j == nil {
buf.WriteString("null")
return buf.Bytes(), nil
}
err := j.MarshalJSONBuf(&buf)
if err != nil {
return nil, err
}
return buf.Bytes(), nil
}
// MarshalJSONBuf marshal buff to json - template
func (j *layerStore) MarshalJSONBuf(buf fflib.EncodingBuffer) error {
if j == nil {
buf.WriteString("null")
return nil
}
var err error
var obj []byte
_ = obj
_ = err
buf.WriteString(`{}`)
return nil
}
const (
ffjtlayerStorebase = iota
ffjtlayerStorenosuchkey
)
// UnmarshalJSON umarshall json - template of ffjson
func (j *layerStore) UnmarshalJSON(input []byte) error {
fs := fflib.NewFFLexer(input)
return j.UnmarshalJSONFFLexer(fs, fflib.FFParse_map_start)
}
// UnmarshalJSONFFLexer fast json unmarshall - template ffjson
func (j *layerStore) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error
currentKey := ffjtlayerStorebase
_ = currentKey
tok := fflib.FFTok_init
wantedTok := fflib.FFTok_init
mainparse:
for {
tok = fs.Scan()
// println(fmt.Sprintf("debug: tok: %v state: %v", tok, state))
if tok == fflib.FFTok_error {
goto tokerror
}
switch state {
case fflib.FFParse_map_start:
if tok != fflib.FFTok_left_bracket {
wantedTok = fflib.FFTok_left_bracket
goto wrongtokenerror
}
state = fflib.FFParse_want_key
continue
case fflib.FFParse_after_value:
if tok == fflib.FFTok_comma {
state = fflib.FFParse_want_key
} else if tok == fflib.FFTok_right_bracket {
goto done
} else {
wantedTok = fflib.FFTok_comma
goto wrongtokenerror
}
case fflib.FFParse_want_key:
// json {} ended. goto exit. woo.
if tok == fflib.FFTok_right_bracket {
goto done
}
if tok != fflib.FFTok_string {
wantedTok = fflib.FFTok_string
goto wrongtokenerror
}
kn := fs.Output.Bytes()
if len(kn) <= 0 {
// "" case. hrm.
currentKey = ffjtlayerStorenosuchkey
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
}
currentKey = ffjtlayerStorenosuchkey
state = fflib.FFParse_want_colon
goto mainparse
}
case fflib.FFParse_want_colon:
if tok != fflib.FFTok_colon {
wantedTok = fflib.FFTok_colon
goto wrongtokenerror
}
state = fflib.FFParse_want_value
continue
case fflib.FFParse_want_value:
if tok == fflib.FFTok_left_brace || tok == fflib.FFTok_left_bracket || tok == fflib.FFTok_integer || tok == fflib.FFTok_double || tok == fflib.FFTok_string || tok == fflib.FFTok_bool || tok == fflib.FFTok_null {
switch currentKey {
case ffjtlayerStorenosuchkey:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
wantedvalue:
return fs.WrapErr(fmt.Errorf("wanted value token, but got token: %v", tok))
wrongtokenerror:
return fs.WrapErr(fmt.Errorf("ffjson: wanted token: %v, but got token: %v output=%s", wantedTok, tok, fs.Output.String()))
tokerror:
if fs.BigError != nil {
return fs.WrapErr(fs.BigError)
}
err = fs.Error.ToError()
if err != nil {
return fs.WrapErr(err)
}
panic("ffjson-generated: unreachable, please report bug.")
done:
return nil
}
// MarshalJSON marshal bytes to json - template
func (j *simpleGetCloser) MarshalJSON() ([]byte, error) {
var buf fflib.Buffer
if j == nil {
buf.WriteString("null")
return buf.Bytes(), nil
}
err := j.MarshalJSONBuf(&buf)
if err != nil {
return nil, err
}
return buf.Bytes(), nil
}
// MarshalJSONBuf marshal buff to json - template
func (j *simpleGetCloser) MarshalJSONBuf(buf fflib.EncodingBuffer) error {
if j == nil {
buf.WriteString("null")
return nil
}
var err error
var obj []byte
_ = obj
_ = err
buf.WriteString(`{}`)
return nil
}
const (
ffjtsimpleGetCloserbase = iota
ffjtsimpleGetClosernosuchkey
)
// UnmarshalJSON umarshall json - template of ffjson
func (j *simpleGetCloser) UnmarshalJSON(input []byte) error {
fs := fflib.NewFFLexer(input)
return j.UnmarshalJSONFFLexer(fs, fflib.FFParse_map_start)
}
// UnmarshalJSONFFLexer fast json unmarshall - template ffjson
func (j *simpleGetCloser) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error
currentKey := ffjtsimpleGetCloserbase
_ = currentKey
tok := fflib.FFTok_init
wantedTok := fflib.FFTok_init
mainparse:
for {
tok = fs.Scan()
// println(fmt.Sprintf("debug: tok: %v state: %v", tok, state))
if tok == fflib.FFTok_error {
goto tokerror
}
switch state {
case fflib.FFParse_map_start:
if tok != fflib.FFTok_left_bracket {
wantedTok = fflib.FFTok_left_bracket
goto wrongtokenerror
}
state = fflib.FFParse_want_key
continue
case fflib.FFParse_after_value:
if tok == fflib.FFTok_comma {
state = fflib.FFParse_want_key
} else if tok == fflib.FFTok_right_bracket {
goto done
} else {
wantedTok = fflib.FFTok_comma
goto wrongtokenerror
}
case fflib.FFParse_want_key:
// json {} ended. goto exit. woo.
if tok == fflib.FFTok_right_bracket {
goto done
}
if tok != fflib.FFTok_string {
wantedTok = fflib.FFTok_string
goto wrongtokenerror
}
kn := fs.Output.Bytes()
if len(kn) <= 0 {
// "" case. hrm.
currentKey = ffjtsimpleGetClosernosuchkey
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
}
currentKey = ffjtsimpleGetClosernosuchkey
state = fflib.FFParse_want_colon
goto mainparse
}
case fflib.FFParse_want_colon:
if tok != fflib.FFTok_colon {
wantedTok = fflib.FFTok_colon
goto wrongtokenerror
}
state = fflib.FFParse_want_value
continue
case fflib.FFParse_want_value:
if tok == fflib.FFTok_left_brace || tok == fflib.FFTok_left_bracket || tok == fflib.FFTok_integer || tok == fflib.FFTok_double || tok == fflib.FFTok_string || tok == fflib.FFTok_bool || tok == fflib.FFTok_null {
switch currentKey {
case ffjtsimpleGetClosernosuchkey:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
wantedvalue:
return fs.WrapErr(fmt.Errorf("wanted value token, but got token: %v", tok))
wrongtokenerror:
return fs.WrapErr(fmt.Errorf("ffjson: wanted token: %v, but got token: %v output=%s", wantedTok, tok, fs.Output.String()))
tokerror:
if fs.BigError != nil {
return fs.WrapErr(fs.BigError)
}
err = fs.Error.ToError()
if err != nil {
return fs.WrapErr(err)
}
panic("ffjson-generated: unreachable, please report bug.")
done:
return nil
}