// Code generated by ffjson . DO NOT EDIT. // source: layers.go 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 }