func (uj *LocRate) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_LocRatebase
_ = 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 = ffj_t_LocRateno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'l':
if bytes.Equal(ffj_key_LocRate_Limit, kn) {
currentKey = ffj_t_LocRate_Limit
state = fflib.FFParse_want_colon
goto mainparse
}
case 'r':
if bytes.Equal(ffj_key_LocRate_Remaining, kn) {
currentKey = ffj_t_LocRate_Remaining
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.SimpleLetterEqualFold(ffj_key_LocRate_Remaining, kn) {
currentKey = ffj_t_LocRate_Remaining
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_LocRate_Limit, kn) {
currentKey = ffj_t_LocRate_Limit
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_LocRateno_such_key
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 ffj_t_LocRate_Limit:
goto handle_Limit
case ffj_t_LocRate_Remaining:
goto handle_Remaining
case ffj_t_LocRateno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Limit:
/* handler: uj.Limit 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)
}
uj.Limit = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Remaining:
/* handler: uj.Remaining 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)
}
uj.Remaining = 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
}
func (uj *ServiceDefinition) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_ServiceDefinitionbase
_ = 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 = ffj_t_ServiceDefinitionno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'c':
if bytes.Equal(ffj_key_ServiceDefinition_ContainerPort, kn) {
currentKey = ffj_t_ServiceDefinition_ContainerPort
state = fflib.FFParse_want_colon
goto mainparse
}
case 'n':
if bytes.Equal(ffj_key_ServiceDefinition_NamePattern, kn) {
currentKey = ffj_t_ServiceDefinition_NamePattern
state = fflib.FFParse_want_colon
goto mainparse
}
case 't':
if bytes.Equal(ffj_key_ServiceDefinition_Type, kn) {
currentKey = ffj_t_ServiceDefinition_Type
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.AsciiEqualFold(ffj_key_ServiceDefinition_NamePattern, kn) {
currentKey = ffj_t_ServiceDefinition_NamePattern
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.AsciiEqualFold(ffj_key_ServiceDefinition_ContainerPort, kn) {
currentKey = ffj_t_ServiceDefinition_ContainerPort
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_ServiceDefinition_Type, kn) {
currentKey = ffj_t_ServiceDefinition_Type
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_ServiceDefinitionno_such_key
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 ffj_t_ServiceDefinition_Type:
goto handle_Type
case ffj_t_ServiceDefinition_ContainerPort:
goto handle_ContainerPort
case ffj_t_ServiceDefinition_NamePattern:
goto handle_NamePattern
case ffj_t_ServiceDefinitionno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Type:
/* handler: uj.Type 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()
uj.Type = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_ContainerPort:
/* handler: uj.ContainerPort 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)
}
uj.ContainerPort = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_NamePattern:
/* handler: uj.NamePattern 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 {
uj.NamePattern = nil
} else {
var tval string
outBuf := fs.Output.Bytes()
tval = string(string(outBuf))
uj.NamePattern = &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
}
func (uj *Collection) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_Collectionbase
_ = 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 = ffj_t_Collectionno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'C':
if bytes.Equal(ffj_key_Collection_Count, kn) {
currentKey = ffj_t_Collection_Count
state = fflib.FFParse_want_colon
goto mainparse
}
case 'D':
if bytes.Equal(ffj_key_Collection_Dynamic, kn) {
currentKey = ffj_t_Collection_Dynamic
state = fflib.FFParse_want_colon
goto mainparse
}
case 'H':
if bytes.Equal(ffj_key_Collection_Hidden, kn) {
currentKey = ffj_t_Collection_Hidden
state = fflib.FFParse_want_colon
goto mainparse
}
case 'N':
if bytes.Equal(ffj_key_Collection_Name, kn) {
currentKey = ffj_t_Collection_Name
state = fflib.FFParse_want_colon
goto mainparse
}
case 'R':
if bytes.Equal(ffj_key_Collection_ResolveList, kn) {
currentKey = ffj_t_Collection_ResolveList
state = fflib.FFParse_want_colon
goto mainparse
}
case 'U':
if bytes.Equal(ffj_key_Collection_UnknownCount, kn) {
currentKey = ffj_t_Collection_UnknownCount
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.EqualFoldRight(ffj_key_Collection_ResolveList, kn) {
currentKey = ffj_t_Collection_ResolveList
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Collection_Name, kn) {
currentKey = ffj_t_Collection_Name
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Collection_Hidden, kn) {
currentKey = ffj_t_Collection_Hidden
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Collection_UnknownCount, kn) {
currentKey = ffj_t_Collection_UnknownCount
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Collection_Dynamic, kn) {
currentKey = ffj_t_Collection_Dynamic
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Collection_Count, kn) {
currentKey = ffj_t_Collection_Count
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_Collectionno_such_key
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 ffj_t_Collection_Count:
goto handle_Count
case ffj_t_Collection_Dynamic:
goto handle_Dynamic
case ffj_t_Collection_UnknownCount:
goto handle_UnknownCount
case ffj_t_Collection_Hidden:
goto handle_Hidden
case ffj_t_Collection_Name:
goto handle_Name
case ffj_t_Collection_ResolveList:
goto handle_ResolveList
case ffj_t_Collectionno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Count:
/* handler: uj.Count 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)
}
uj.Count = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Dynamic:
/* handler: uj.Dynamic type=bool kind=bool quoted=false*/
{
if tok != fflib.FFTok_bool && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for bool", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tmpb := fs.Output.Bytes()
if bytes.Compare([]byte{'t', 'r', 'u', 'e'}, tmpb) == 0 {
uj.Dynamic = true
} else if bytes.Compare([]byte{'f', 'a', 'l', 's', 'e'}, tmpb) == 0 {
uj.Dynamic = false
} else {
err = errors.New("unexpected bytes for true/false value")
return fs.WrapErr(err)
}
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_UnknownCount:
/* handler: uj.UnknownCount type=bool kind=bool quoted=false*/
{
if tok != fflib.FFTok_bool && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for bool", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tmpb := fs.Output.Bytes()
if bytes.Compare([]byte{'t', 'r', 'u', 'e'}, tmpb) == 0 {
uj.UnknownCount = true
} else if bytes.Compare([]byte{'f', 'a', 'l', 's', 'e'}, tmpb) == 0 {
uj.UnknownCount = false
} else {
err = errors.New("unexpected bytes for true/false value")
return fs.WrapErr(err)
}
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Hidden:
/* handler: uj.Hidden type=bool kind=bool quoted=false*/
{
if tok != fflib.FFTok_bool && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for bool", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tmpb := fs.Output.Bytes()
if bytes.Compare([]byte{'t', 'r', 'u', 'e'}, tmpb) == 0 {
uj.Hidden = true
} else if bytes.Compare([]byte{'f', 'a', 'l', 's', 'e'}, tmpb) == 0 {
uj.Hidden = false
} else {
err = errors.New("unexpected bytes for true/false value")
return fs.WrapErr(err)
}
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Name:
/* handler: uj.Name 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()
uj.Name = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_ResolveList:
/* handler: uj.ResolveList 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 {
uj.ResolveList = nil
} else {
uj.ResolveList = make([]string, 0)
wantVal := true
for {
var v 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: v 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()
v = string(string(outBuf))
}
}
uj.ResolveList = append(uj.ResolveList, v)
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
}
func (uj *AnyType) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_AnyTypebase
_ = 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 = ffj_t_AnyTypeno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'C':
if bytes.Equal(ffj_key_AnyType_Channels, kn) {
currentKey = ffj_t_AnyType_Channels
state = fflib.FFParse_want_colon
goto mainparse
}
case 'E':
if bytes.Equal(ffj_key_AnyType_ExName, kn) {
currentKey = ffj_t_AnyType_ExName
state = fflib.FFParse_want_colon
goto mainparse
}
case 'F':
if bytes.Equal(ffj_key_AnyType_FileBytes, kn) {
currentKey = ffj_t_AnyType_FileBytes
state = fflib.FFParse_want_colon
goto mainparse
}
case 'H':
if bytes.Equal(ffj_key_AnyType_Height, kn) {
currentKey = ffj_t_AnyType_Height
state = fflib.FFParse_want_colon
goto mainparse
}
case 'I':
if bytes.Equal(ffj_key_AnyType_ID, kn) {
currentKey = ffj_t_AnyType_ID
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_AnyType_IsSharpen, kn) {
currentKey = ffj_t_AnyType_IsSharpen
state = fflib.FFParse_want_colon
goto mainparse
}
case 'L':
if bytes.Equal(ffj_key_AnyType_List, kn) {
currentKey = ffj_t_AnyType_List
state = fflib.FFParse_want_colon
goto mainparse
}
case 'M':
if bytes.Equal(ffj_key_AnyType_MinWidth, kn) {
currentKey = ffj_t_AnyType_MinWidth
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_AnyType_MinHeight, kn) {
currentKey = ffj_t_AnyType_MinHeight
state = fflib.FFParse_want_colon
goto mainparse
}
case 'P':
if bytes.Equal(ffj_key_AnyType_Proportion, kn) {
currentKey = ffj_t_AnyType_Proportion
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_AnyType_Position, kn) {
currentKey = ffj_t_AnyType_Position
state = fflib.FFParse_want_colon
goto mainparse
}
case 'R':
if bytes.Equal(ffj_key_AnyType_Radius, kn) {
currentKey = ffj_t_AnyType_Radius
state = fflib.FFParse_want_colon
goto mainparse
}
case 'S':
if bytes.Equal(ffj_key_AnyType_Sigma, kn) {
currentKey = ffj_t_AnyType_Sigma
state = fflib.FFParse_want_colon
goto mainparse
}
case 'T':
if bytes.Equal(ffj_key_AnyType_Type, kn) {
currentKey = ffj_t_AnyType_Type
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_AnyType_TargetFormat, kn) {
currentKey = ffj_t_AnyType_TargetFormat
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_AnyType_TargetQuality, kn) {
currentKey = ffj_t_AnyType_TargetQuality
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_AnyType_Transparency, kn) {
currentKey = ffj_t_AnyType_Transparency
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_AnyType_Taipe, kn) {
currentKey = ffj_t_AnyType_Taipe
state = fflib.FFParse_want_colon
goto mainparse
}
case 'W':
if bytes.Equal(ffj_key_AnyType_Width, kn) {
currentKey = ffj_t_AnyType_Width
state = fflib.FFParse_want_colon
goto mainparse
}
case 'X':
if bytes.Equal(ffj_key_AnyType_X, kn) {
currentKey = ffj_t_AnyType_X
state = fflib.FFParse_want_colon
goto mainparse
}
case 'Y':
if bytes.Equal(ffj_key_AnyType_Y, kn) {
currentKey = ffj_t_AnyType_Y
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_Taipe, kn) {
currentKey = ffj_t_AnyType_Taipe
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_Height, kn) {
currentKey = ffj_t_AnyType_Height
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_Width, kn) {
currentKey = ffj_t_AnyType_Width
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_AnyType_FileBytes, kn) {
currentKey = ffj_t_AnyType_FileBytes
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_MinHeight, kn) {
currentKey = ffj_t_AnyType_MinHeight
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_MinWidth, kn) {
currentKey = ffj_t_AnyType_MinWidth
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_Y, kn) {
currentKey = ffj_t_AnyType_Y
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_X, kn) {
currentKey = ffj_t_AnyType_X
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_AnyType_Position, kn) {
currentKey = ffj_t_AnyType_Position
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_AnyType_Transparency, kn) {
currentKey = ffj_t_AnyType_Transparency
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_Proportion, kn) {
currentKey = ffj_t_AnyType_Proportion
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_AnyType_List, kn) {
currentKey = ffj_t_AnyType_List
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_AnyType_Channels, kn) {
currentKey = ffj_t_AnyType_Channels
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_AnyType_Sigma, kn) {
currentKey = ffj_t_AnyType_Sigma
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_AnyType_Radius, kn) {
currentKey = ffj_t_AnyType_Radius
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_AnyType_IsSharpen, kn) {
currentKey = ffj_t_AnyType_IsSharpen
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_TargetQuality, kn) {
currentKey = ffj_t_AnyType_TargetQuality
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_TargetFormat, kn) {
currentKey = ffj_t_AnyType_TargetFormat
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_ExName, kn) {
currentKey = ffj_t_AnyType_ExName
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_ID, kn) {
currentKey = ffj_t_AnyType_ID
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_AnyType_Type, kn) {
currentKey = ffj_t_AnyType_Type
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_AnyTypeno_such_key
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 ffj_t_AnyType_Type:
goto handle_Type
case ffj_t_AnyType_ID:
goto handle_ID
case ffj_t_AnyType_ExName:
goto handle_ExName
case ffj_t_AnyType_TargetFormat:
goto handle_TargetFormat
case ffj_t_AnyType_TargetQuality:
goto handle_TargetQuality
case ffj_t_AnyType_IsSharpen:
goto handle_IsSharpen
case ffj_t_AnyType_Radius:
goto handle_Radius
case ffj_t_AnyType_Sigma:
goto handle_Sigma
case ffj_t_AnyType_Channels:
goto handle_Channels
case ffj_t_AnyType_List:
goto handle_List
case ffj_t_AnyType_Proportion:
goto handle_Proportion
case ffj_t_AnyType_Transparency:
goto handle_Transparency
case ffj_t_AnyType_Position:
goto handle_Position
case ffj_t_AnyType_X:
goto handle_X
case ffj_t_AnyType_Y:
goto handle_Y
case ffj_t_AnyType_MinWidth:
goto handle_MinWidth
case ffj_t_AnyType_MinHeight:
goto handle_MinHeight
case ffj_t_AnyType_FileBytes:
goto handle_FileBytes
case ffj_t_AnyType_Width:
goto handle_Width
case ffj_t_AnyType_Height:
goto handle_Height
case ffj_t_AnyType_Taipe:
goto handle_Taipe
case ffj_t_AnyTypeno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Type:
/* handler: uj.Type 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()
uj.Type = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_ID:
/* handler: uj.ID 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)
}
uj.ID = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_ExName:
/* handler: uj.ExName 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()
uj.ExName = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_TargetFormat:
/* handler: uj.TargetFormat 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()
uj.TargetFormat = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_TargetQuality:
/* handler: uj.TargetQuality 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()
uj.TargetQuality = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_IsSharpen:
/* handler: uj.IsSharpen type=bool kind=bool quoted=false*/
{
if tok != fflib.FFTok_bool && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for bool", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tmpb := fs.Output.Bytes()
if bytes.Compare([]byte{'t', 'r', 'u', 'e'}, tmpb) == 0 {
uj.IsSharpen = true
} else if bytes.Compare([]byte{'f', 'a', 'l', 's', 'e'}, tmpb) == 0 {
uj.IsSharpen = false
} else {
err = errors.New("unexpected bytes for true/false value")
return fs.WrapErr(err)
}
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Radius:
/* handler: uj.Radius 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)
}
uj.Radius = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Sigma:
/* handler: uj.Sigma 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)
}
uj.Sigma = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Channels:
/* handler: uj.Channels 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()
uj.Channels = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_List:
/* handler: uj.List type=processplan.ProcessList kind=struct quoted=false*/
{
if tok == fflib.FFTok_null {
state = fflib.FFParse_after_value
goto mainparse
}
err = uj.List.UnmarshalJSONFFLexer(fs, fflib.FFParse_want_key)
if err != nil {
return err
}
state = fflib.FFParse_after_value
}
state = fflib.FFParse_after_value
goto mainparse
handle_Proportion:
/* handler: uj.Proportion type=float64 kind=float64 quoted=false*/
{
if tok != fflib.FFTok_double && tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for float64", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseFloat(fs.Output.Bytes(), 64)
if err != nil {
return fs.WrapErr(err)
}
uj.Proportion = float64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Transparency:
/* handler: uj.Transparency type=float64 kind=float64 quoted=false*/
{
if tok != fflib.FFTok_double && tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for float64", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseFloat(fs.Output.Bytes(), 64)
if err != nil {
return fs.WrapErr(err)
}
uj.Transparency = float64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Position:
/* handler: uj.Position 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()
uj.Position = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_X:
/* handler: uj.X 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)
}
uj.X = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Y:
/* handler: uj.Y 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)
}
uj.Y = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_MinWidth:
/* handler: uj.MinWidth 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)
}
uj.MinWidth = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_MinHeight:
/* handler: uj.MinHeight 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)
}
uj.MinHeight = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_FileBytes:
/* handler: uj.FileBytes type=[]uint8 kind=slice quoted=false*/
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for ", tok))
}
}
if tok == fflib.FFTok_null {
uj.FileBytes = nil
} else {
b := make([]byte, base64.StdEncoding.DecodedLen(fs.Output.Len()))
n, err := base64.StdEncoding.Decode(b, fs.Output.Bytes())
if err != nil {
return fs.WrapErr(err)
}
v := reflect.ValueOf(&uj.FileBytes).Elem()
v.SetBytes(b[0:n])
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Width:
/* handler: uj.Width 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)
}
uj.Width = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Height:
/* handler: uj.Height 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)
}
uj.Height = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Taipe:
/* handler: uj.Taipe 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)
}
uj.Taipe = 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
}
func (uj *TaskEvent) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_TaskEventbase
_ = 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 = ffj_t_TaskEventno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'a':
if bytes.Equal(ffj_key_TaskEvent_Args, kn) {
currentKey = ffj_t_TaskEvent_Args
state = fflib.FFParse_want_colon
goto mainparse
}
case 'c':
if bytes.Equal(ffj_key_TaskEvent_Clock, kn) {
currentKey = ffj_t_TaskEvent_Clock
state = fflib.FFParse_want_colon
goto mainparse
}
case 'e':
if bytes.Equal(ffj_key_TaskEvent_ETA, kn) {
currentKey = ffj_t_TaskEvent_ETA
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TaskEvent_Exception, kn) {
currentKey = ffj_t_TaskEvent_Exception
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TaskEvent_Expired, kn) {
currentKey = ffj_t_TaskEvent_Expired
state = fflib.FFParse_want_colon
goto mainparse
}
case 'h':
if bytes.Equal(ffj_key_TaskEvent_Hostname, kn) {
currentKey = ffj_t_TaskEvent_Hostname
state = fflib.FFParse_want_colon
goto mainparse
}
case 'k':
if bytes.Equal(ffj_key_TaskEvent_Kwargs, kn) {
currentKey = ffj_t_TaskEvent_Kwargs
state = fflib.FFParse_want_colon
goto mainparse
}
case 'n':
if bytes.Equal(ffj_key_TaskEvent_Name, kn) {
currentKey = ffj_t_TaskEvent_Name
state = fflib.FFParse_want_colon
goto mainparse
}
case 'p':
if bytes.Equal(ffj_key_TaskEvent_PID, kn) {
currentKey = ffj_t_TaskEvent_PID
state = fflib.FFParse_want_colon
goto mainparse
}
case 'r':
if bytes.Equal(ffj_key_TaskEvent_Result, kn) {
currentKey = ffj_t_TaskEvent_Result
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TaskEvent_Runtime, kn) {
currentKey = ffj_t_TaskEvent_Runtime
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TaskEvent_Retries, kn) {
currentKey = ffj_t_TaskEvent_Retries
state = fflib.FFParse_want_colon
goto mainparse
}
case 's':
if bytes.Equal(ffj_key_TaskEvent_Signum, kn) {
currentKey = ffj_t_TaskEvent_Signum
state = fflib.FFParse_want_colon
goto mainparse
}
case 't':
if bytes.Equal(ffj_key_TaskEvent_Type, kn) {
currentKey = ffj_t_TaskEvent_Type
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TaskEvent_Timestamp, kn) {
currentKey = ffj_t_TaskEvent_Timestamp
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TaskEvent_Traceback, kn) {
currentKey = ffj_t_TaskEvent_Traceback
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TaskEvent_Terminated, kn) {
currentKey = ffj_t_TaskEvent_Terminated
state = fflib.FFParse_want_colon
goto mainparse
}
case 'u':
if bytes.Equal(ffj_key_TaskEvent_UTCOffset, kn) {
currentKey = ffj_t_TaskEvent_UTCOffset
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TaskEvent_UUID, kn) {
currentKey = ffj_t_TaskEvent_UUID
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.SimpleLetterEqualFold(ffj_key_TaskEvent_Expired, kn) {
currentKey = ffj_t_TaskEvent_Expired
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_Signum, kn) {
currentKey = ffj_t_TaskEvent_Signum
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TaskEvent_Terminated, kn) {
currentKey = ffj_t_TaskEvent_Terminated
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_Traceback, kn) {
currentKey = ffj_t_TaskEvent_Traceback
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TaskEvent_Exception, kn) {
currentKey = ffj_t_TaskEvent_Exception
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TaskEvent_ETA, kn) {
currentKey = ffj_t_TaskEvent_ETA
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_Retries, kn) {
currentKey = ffj_t_TaskEvent_Retries
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TaskEvent_Runtime, kn) {
currentKey = ffj_t_TaskEvent_Runtime
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_Result, kn) {
currentKey = ffj_t_TaskEvent_Result
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_Kwargs, kn) {
currentKey = ffj_t_TaskEvent_Kwargs
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_Args, kn) {
currentKey = ffj_t_TaskEvent_Args
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TaskEvent_Name, kn) {
currentKey = ffj_t_TaskEvent_Name
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TaskEvent_UUID, kn) {
currentKey = ffj_t_TaskEvent_UUID
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_UTCOffset, kn) {
currentKey = ffj_t_TaskEvent_UTCOffset
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_Clock, kn) {
currentKey = ffj_t_TaskEvent_Clock
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TaskEvent_PID, kn) {
currentKey = ffj_t_TaskEvent_PID
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_Timestamp, kn) {
currentKey = ffj_t_TaskEvent_Timestamp
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TaskEvent_Hostname, kn) {
currentKey = ffj_t_TaskEvent_Hostname
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TaskEvent_Type, kn) {
currentKey = ffj_t_TaskEvent_Type
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_TaskEventno_such_key
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 ffj_t_TaskEvent_Type:
goto handle_Type
case ffj_t_TaskEvent_Hostname:
goto handle_Hostname
case ffj_t_TaskEvent_Timestamp:
goto handle_Timestamp
case ffj_t_TaskEvent_PID:
goto handle_PID
case ffj_t_TaskEvent_Clock:
goto handle_Clock
case ffj_t_TaskEvent_UTCOffset:
goto handle_UTCOffset
case ffj_t_TaskEvent_UUID:
goto handle_UUID
case ffj_t_TaskEvent_Name:
goto handle_Name
case ffj_t_TaskEvent_Args:
goto handle_Args
case ffj_t_TaskEvent_Kwargs:
goto handle_Kwargs
case ffj_t_TaskEvent_Result:
goto handle_Result
case ffj_t_TaskEvent_Runtime:
goto handle_Runtime
case ffj_t_TaskEvent_Retries:
goto handle_Retries
case ffj_t_TaskEvent_ETA:
goto handle_ETA
case ffj_t_TaskEvent_Exception:
goto handle_Exception
case ffj_t_TaskEvent_Traceback:
goto handle_Traceback
case ffj_t_TaskEvent_Terminated:
goto handle_Terminated
case ffj_t_TaskEvent_Signum:
goto handle_Signum
case ffj_t_TaskEvent_Expired:
goto handle_Expired
case ffj_t_TaskEventno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Type:
/* handler: uj.Type 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()
uj.Type = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Hostname:
/* handler: uj.Hostname 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()
uj.Hostname = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Timestamp:
/* handler: uj.Timestamp type=float32 kind=float32 quoted=false*/
{
if tok != fflib.FFTok_double && tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for float32", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseFloat(fs.Output.Bytes(), 32)
if err != nil {
return fs.WrapErr(err)
}
uj.Timestamp = float32(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_PID:
/* handler: uj.PID 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)
}
uj.PID = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Clock:
/* handler: uj.Clock 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)
}
uj.Clock = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_UTCOffset:
/* handler: uj.UTCOffset 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)
}
uj.UTCOffset = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_UUID:
/* handler: uj.UUID 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()
uj.UUID = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Name:
/* handler: uj.Name 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()
uj.Name = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Args:
/* handler: uj.Args 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()
uj.Args = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Kwargs:
/* handler: uj.Kwargs 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()
uj.Kwargs = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Result:
/* handler: uj.Result 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()
uj.Result = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Runtime:
/* handler: uj.Runtime type=float32 kind=float32 quoted=false*/
{
if tok != fflib.FFTok_double && tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for float32", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseFloat(fs.Output.Bytes(), 32)
if err != nil {
return fs.WrapErr(err)
}
uj.Runtime = float32(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Retries:
/* handler: uj.Retries 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)
}
uj.Retries = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_ETA:
/* handler: uj.ETA 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)
}
uj.ETA = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Exception:
/* handler: uj.Exception 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()
uj.Exception = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Traceback:
/* handler: uj.Traceback 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()
uj.Traceback = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Terminated:
/* handler: uj.Terminated type=bool kind=bool quoted=false*/
{
if tok != fflib.FFTok_bool && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for bool", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tmpb := fs.Output.Bytes()
if bytes.Compare([]byte{'t', 'r', 'u', 'e'}, tmpb) == 0 {
uj.Terminated = true
} else if bytes.Compare([]byte{'f', 'a', 'l', 's', 'e'}, tmpb) == 0 {
uj.Terminated = false
} else {
err = errors.New("unexpected bytes for true/false value")
return fs.WrapErr(err)
}
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Signum:
/* handler: uj.Signum 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, &uj.Signum)
if err != nil {
return fs.WrapErr(err)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Expired:
/* handler: uj.Expired type=bool kind=bool quoted=false*/
{
if tok != fflib.FFTok_bool && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for bool", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tmpb := fs.Output.Bytes()
if bytes.Compare([]byte{'t', 'r', 'u', 'e'}, tmpb) == 0 {
uj.Expired = true
} else if bytes.Compare([]byte{'f', 'a', 'l', 's', 'e'}, tmpb) == 0 {
uj.Expired = false
} else {
err = errors.New("unexpected bytes for true/false value")
return fs.WrapErr(err)
}
}
}
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
}
func (uj *Event) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_Eventbase
_ = 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 = ffj_t_Eventno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'c':
if bytes.Equal(ffj_key_Event_Clock, kn) {
currentKey = ffj_t_Event_Clock
state = fflib.FFParse_want_colon
goto mainparse
}
case 'h':
if bytes.Equal(ffj_key_Event_Hostname, kn) {
currentKey = ffj_t_Event_Hostname
state = fflib.FFParse_want_colon
goto mainparse
}
case 'p':
if bytes.Equal(ffj_key_Event_PID, kn) {
currentKey = ffj_t_Event_PID
state = fflib.FFParse_want_colon
goto mainparse
}
case 't':
if bytes.Equal(ffj_key_Event_Type, kn) {
currentKey = ffj_t_Event_Type
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_Event_Timestamp, kn) {
currentKey = ffj_t_Event_Timestamp
state = fflib.FFParse_want_colon
goto mainparse
}
case 'u':
if bytes.Equal(ffj_key_Event_UTCOffset, kn) {
currentKey = ffj_t_Event_UTCOffset
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.EqualFoldRight(ffj_key_Event_UTCOffset, kn) {
currentKey = ffj_t_Event_UTCOffset
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Event_Clock, kn) {
currentKey = ffj_t_Event_Clock
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Event_PID, kn) {
currentKey = ffj_t_Event_PID
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Event_Timestamp, kn) {
currentKey = ffj_t_Event_Timestamp
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Event_Hostname, kn) {
currentKey = ffj_t_Event_Hostname
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Event_Type, kn) {
currentKey = ffj_t_Event_Type
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_Eventno_such_key
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 ffj_t_Event_Type:
goto handle_Type
case ffj_t_Event_Hostname:
goto handle_Hostname
case ffj_t_Event_Timestamp:
goto handle_Timestamp
case ffj_t_Event_PID:
goto handle_PID
case ffj_t_Event_Clock:
goto handle_Clock
case ffj_t_Event_UTCOffset:
goto handle_UTCOffset
case ffj_t_Eventno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Type:
/* handler: uj.Type 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()
uj.Type = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Hostname:
/* handler: uj.Hostname 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()
uj.Hostname = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Timestamp:
/* handler: uj.Timestamp type=float32 kind=float32 quoted=false*/
{
if tok != fflib.FFTok_double && tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for float32", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseFloat(fs.Output.Bytes(), 32)
if err != nil {
return fs.WrapErr(err)
}
uj.Timestamp = float32(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_PID:
/* handler: uj.PID 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)
}
uj.PID = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Clock:
/* handler: uj.Clock 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)
}
uj.Clock = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_UTCOffset:
/* handler: uj.UTCOffset 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)
}
uj.UTCOffset = 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
}
func (uj *Topic) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_Topicbase
_ = 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 = ffj_t_Topicno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'c':
if bytes.Equal(ffj_key_Topic_Created, kn) {
currentKey = ffj_t_Topic_Created
state = fflib.FFParse_want_colon
goto mainparse
}
case 'e':
if bytes.Equal(ffj_key_Topic_Ends, kn) {
currentKey = ffj_t_Topic_Ends
state = fflib.FFParse_want_colon
goto mainparse
}
case 'i':
if bytes.Equal(ffj_key_Topic_ID, kn) {
currentKey = ffj_t_Topic_ID
state = fflib.FFParse_want_colon
goto mainparse
}
case 'o':
if bytes.Equal(ffj_key_Topic_OptionA, kn) {
currentKey = ffj_t_Topic_OptionA
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_Topic_OptionB, kn) {
currentKey = ffj_t_Topic_OptionB
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.EqualFoldRight(ffj_key_Topic_Ends, kn) {
currentKey = ffj_t_Topic_Ends
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Topic_Created, kn) {
currentKey = ffj_t_Topic_Created
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Topic_ID, kn) {
currentKey = ffj_t_Topic_ID
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.AsciiEqualFold(ffj_key_Topic_OptionB, kn) {
currentKey = ffj_t_Topic_OptionB
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.AsciiEqualFold(ffj_key_Topic_OptionA, kn) {
currentKey = ffj_t_Topic_OptionA
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_Topicno_such_key
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 ffj_t_Topic_OptionA:
goto handle_OptionA
case ffj_t_Topic_OptionB:
goto handle_OptionB
case ffj_t_Topic_ID:
goto handle_ID
case ffj_t_Topic_Created:
goto handle_Created
case ffj_t_Topic_Ends:
goto handle_Ends
case ffj_t_Topicno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_OptionA:
/* handler: uj.OptionA 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()
uj.OptionA = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_OptionB:
/* handler: uj.OptionB 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()
uj.OptionB = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_ID:
/* handler: uj.ID 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)
}
uj.ID = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Created:
/* handler: uj.Created type=time.Time kind=struct quoted=false*/
{
if tok == fflib.FFTok_null {
state = fflib.FFParse_after_value
goto mainparse
}
tbuf, err := fs.CaptureField(tok)
if err != nil {
return fs.WrapErr(err)
}
err = uj.Created.UnmarshalJSON(tbuf)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
}
state = fflib.FFParse_after_value
goto mainparse
handle_Ends:
/* handler: uj.Ends type=time.Time kind=struct quoted=false*/
{
if tok == fflib.FFTok_null {
state = fflib.FFParse_after_value
goto mainparse
}
tbuf, err := fs.CaptureField(tok)
if err != nil {
return fs.WrapErr(err)
}
err = uj.Ends.UnmarshalJSON(tbuf)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
}
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
}
func (uj *WorkerEvent) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_WorkerEventbase
_ = 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 = ffj_t_WorkerEventno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'a':
if bytes.Equal(ffj_key_WorkerEvent_Active, kn) {
currentKey = ffj_t_WorkerEvent_Active
state = fflib.FFParse_want_colon
goto mainparse
}
case 'c':
if bytes.Equal(ffj_key_WorkerEvent_Clock, kn) {
currentKey = ffj_t_WorkerEvent_Clock
state = fflib.FFParse_want_colon
goto mainparse
}
case 'f':
if bytes.Equal(ffj_key_WorkerEvent_Freq, kn) {
currentKey = ffj_t_WorkerEvent_Freq
state = fflib.FFParse_want_colon
goto mainparse
}
case 'h':
if bytes.Equal(ffj_key_WorkerEvent_Hostname, kn) {
currentKey = ffj_t_WorkerEvent_Hostname
state = fflib.FFParse_want_colon
goto mainparse
}
case 'l':
if bytes.Equal(ffj_key_WorkerEvent_LoadAverage, kn) {
currentKey = ffj_t_WorkerEvent_LoadAverage
state = fflib.FFParse_want_colon
goto mainparse
}
case 'p':
if bytes.Equal(ffj_key_WorkerEvent_PID, kn) {
currentKey = ffj_t_WorkerEvent_PID
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_WorkerEvent_Processed, kn) {
currentKey = ffj_t_WorkerEvent_Processed
state = fflib.FFParse_want_colon
goto mainparse
}
case 's':
if bytes.Equal(ffj_key_WorkerEvent_SWSystem, kn) {
currentKey = ffj_t_WorkerEvent_SWSystem
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_WorkerEvent_SWVersion, kn) {
currentKey = ffj_t_WorkerEvent_SWVersion
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_WorkerEvent_SWIdentity, kn) {
currentKey = ffj_t_WorkerEvent_SWIdentity
state = fflib.FFParse_want_colon
goto mainparse
}
case 't':
if bytes.Equal(ffj_key_WorkerEvent_Type, kn) {
currentKey = ffj_t_WorkerEvent_Type
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_WorkerEvent_Timestamp, kn) {
currentKey = ffj_t_WorkerEvent_Timestamp
state = fflib.FFParse_want_colon
goto mainparse
}
case 'u':
if bytes.Equal(ffj_key_WorkerEvent_UTCOffset, kn) {
currentKey = ffj_t_WorkerEvent_UTCOffset
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.SimpleLetterEqualFold(ffj_key_WorkerEvent_Active, kn) {
currentKey = ffj_t_WorkerEvent_Active
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_WorkerEvent_Processed, kn) {
currentKey = ffj_t_WorkerEvent_Processed
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_WorkerEvent_SWIdentity, kn) {
currentKey = ffj_t_WorkerEvent_SWIdentity
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_WorkerEvent_Freq, kn) {
currentKey = ffj_t_WorkerEvent_Freq
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_WorkerEvent_LoadAverage, kn) {
currentKey = ffj_t_WorkerEvent_LoadAverage
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_WorkerEvent_SWVersion, kn) {
currentKey = ffj_t_WorkerEvent_SWVersion
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_WorkerEvent_SWSystem, kn) {
currentKey = ffj_t_WorkerEvent_SWSystem
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_WorkerEvent_UTCOffset, kn) {
currentKey = ffj_t_WorkerEvent_UTCOffset
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_WorkerEvent_Clock, kn) {
currentKey = ffj_t_WorkerEvent_Clock
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_WorkerEvent_PID, kn) {
currentKey = ffj_t_WorkerEvent_PID
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_WorkerEvent_Timestamp, kn) {
currentKey = ffj_t_WorkerEvent_Timestamp
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_WorkerEvent_Hostname, kn) {
currentKey = ffj_t_WorkerEvent_Hostname
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_WorkerEvent_Type, kn) {
currentKey = ffj_t_WorkerEvent_Type
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_WorkerEventno_such_key
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 ffj_t_WorkerEvent_Type:
goto handle_Type
case ffj_t_WorkerEvent_Hostname:
goto handle_Hostname
case ffj_t_WorkerEvent_Timestamp:
goto handle_Timestamp
case ffj_t_WorkerEvent_PID:
goto handle_PID
case ffj_t_WorkerEvent_Clock:
goto handle_Clock
case ffj_t_WorkerEvent_UTCOffset:
goto handle_UTCOffset
case ffj_t_WorkerEvent_SWSystem:
goto handle_SWSystem
case ffj_t_WorkerEvent_SWVersion:
goto handle_SWVersion
case ffj_t_WorkerEvent_LoadAverage:
goto handle_LoadAverage
case ffj_t_WorkerEvent_Freq:
goto handle_Freq
case ffj_t_WorkerEvent_SWIdentity:
goto handle_SWIdentity
case ffj_t_WorkerEvent_Processed:
goto handle_Processed
case ffj_t_WorkerEvent_Active:
goto handle_Active
case ffj_t_WorkerEventno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Type:
/* handler: uj.Type 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()
uj.Type = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Hostname:
/* handler: uj.Hostname 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()
uj.Hostname = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Timestamp:
/* handler: uj.Timestamp type=float32 kind=float32 quoted=false*/
{
if tok != fflib.FFTok_double && tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for float32", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseFloat(fs.Output.Bytes(), 32)
if err != nil {
return fs.WrapErr(err)
}
uj.Timestamp = float32(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_PID:
/* handler: uj.PID 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)
}
uj.PID = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Clock:
/* handler: uj.Clock 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)
}
uj.Clock = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_UTCOffset:
/* handler: uj.UTCOffset 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)
}
uj.UTCOffset = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_SWSystem:
/* handler: uj.SWSystem 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()
uj.SWSystem = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_SWVersion:
/* handler: uj.SWVersion 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()
uj.SWVersion = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_LoadAverage:
/* handler: uj.LoadAverage type=[]float32 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 {
uj.LoadAverage = nil
} else {
uj.LoadAverage = make([]float32, 0)
wantVal := true
for {
var v float32
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: v type=float32 kind=float32 quoted=false*/
{
if tok != fflib.FFTok_double && tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for float32", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseFloat(fs.Output.Bytes(), 32)
if err != nil {
return fs.WrapErr(err)
}
v = float32(tval)
}
}
uj.LoadAverage = append(uj.LoadAverage, v)
wantVal = false
}
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Freq:
/* handler: uj.Freq type=float32 kind=float32 quoted=false*/
{
if tok != fflib.FFTok_double && tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for float32", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseFloat(fs.Output.Bytes(), 32)
if err != nil {
return fs.WrapErr(err)
}
uj.Freq = float32(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_SWIdentity:
/* handler: uj.SWIdentity 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()
uj.SWIdentity = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Processed:
/* handler: uj.Processed 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)
}
uj.Processed = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Active:
/* handler: uj.Active 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)
}
uj.Active = 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
}
func (uj *User) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_Userbase
_ = 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 = ffj_t_Userno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'c':
if bytes.Equal(ffj_key_User_Color, kn) {
currentKey = ffj_t_User_Color
state = fflib.FFParse_want_colon
goto mainparse
}
case 'l':
if bytes.Equal(ffj_key_User_LoggedIn, kn) {
currentKey = ffj_t_User_LoggedIn
state = fflib.FFParse_want_colon
goto mainparse
}
case 'n':
if bytes.Equal(ffj_key_User_Name, kn) {
currentKey = ffj_t_User_Name
state = fflib.FFParse_want_colon
goto mainparse
}
case 'v':
if bytes.Equal(ffj_key_User_Votes, kn) {
currentKey = ffj_t_User_Votes
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.EqualFoldRight(ffj_key_User_Votes, kn) {
currentKey = ffj_t_User_Votes
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.AsciiEqualFold(ffj_key_User_LoggedIn, kn) {
currentKey = ffj_t_User_LoggedIn
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_User_Color, kn) {
currentKey = ffj_t_User_Color
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_User_Name, kn) {
currentKey = ffj_t_User_Name
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_Userno_such_key
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 ffj_t_User_Name:
goto handle_Name
case ffj_t_User_Color:
goto handle_Color
case ffj_t_User_LoggedIn:
goto handle_LoggedIn
case ffj_t_User_Votes:
goto handle_Votes
case ffj_t_Userno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Name:
/* handler: uj.Name 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()
uj.Name = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Color:
/* handler: uj.Color 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()
uj.Color = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_LoggedIn:
/* handler: uj.LoggedIn type=bool kind=bool quoted=false*/
{
if tok != fflib.FFTok_bool && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for bool", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tmpb := fs.Output.Bytes()
if bytes.Compare([]byte{'t', 'r', 'u', 'e'}, tmpb) == 0 {
uj.LoggedIn = true
} else if bytes.Compare([]byte{'f', 'a', 'l', 's', 'e'}, tmpb) == 0 {
uj.LoggedIn = false
} else {
err = errors.New("unexpected bytes for true/false value")
return fs.WrapErr(err)
}
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Votes:
/* handler: uj.Votes type=map[int]chat.voteOption 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 {
uj.Votes = nil
} else {
uj.Votes = make(map[int]voteOption, 0)
wantVal := true
for {
var k int
var v voteOption
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=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)
}
k = int(tval)
}
}
// 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: v type=chat.voteOption kind=uint16 quoted=false*/
{
if tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for voteOption", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseUint(fs.Output.Bytes(), 10, 16)
if err != nil {
return fs.WrapErr(err)
}
v = voteOption(tval)
}
}
uj.Votes[k] = v
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
}
func (uj *Server) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_Serverbase
_ = 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 = ffj_t_Serverno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'u':
if bytes.Equal(ffj_key_Server_Topics, kn) {
currentKey = ffj_t_Server_Topics
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.EqualFoldRight(ffj_key_Server_Topics, kn) {
currentKey = ffj_t_Server_Topics
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_Serverno_such_key
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 ffj_t_Server_Topics:
goto handle_Topics
case ffj_t_Serverno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Topics:
/* handler: uj.Topics type=map[int]*chat.Topic 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 {
uj.Topics = nil
} else {
uj.Topics = make(map[int]*Topic, 0)
wantVal := true
for {
var k int
var v *Topic
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=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)
}
k = int(tval)
}
}
// 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: v type=*chat.Topic kind=ptr quoted=false*/
{
if tok == fflib.FFTok_null {
v = nil
state = fflib.FFParse_after_value
goto mainparse
}
if v == nil {
v = new(Topic)
}
err = v.UnmarshalJSONFFLexer(fs, fflib.FFParse_want_key)
if err != nil {
return err
}
state = fflib.FFParse_after_value
}
uj.Topics[k] = v
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
}
func (uj *Event) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_Eventbase
_ = 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 = ffj_t_Eventno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'c':
if bytes.Equal(ffj_key_Event_Color, kn) {
currentKey = ffj_t_Event_Color
state = fflib.FFParse_want_colon
goto mainparse
}
case 'e':
if bytes.Equal(ffj_key_Event_Error, kn) {
currentKey = ffj_t_Event_Error
state = fflib.FFParse_want_colon
goto mainparse
}
case 'o':
if bytes.Equal(ffj_key_Event_OptionA, kn) {
currentKey = ffj_t_Event_OptionA
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_Event_OptionB, kn) {
currentKey = ffj_t_Event_OptionB
state = fflib.FFParse_want_colon
goto mainparse
}
case 't':
if bytes.Equal(ffj_key_Event_Type, kn) {
currentKey = ffj_t_Event_Type
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_Event_Text, kn) {
currentKey = ffj_t_Event_Text
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_Event_TopicID, kn) {
currentKey = ffj_t_Event_TopicID
state = fflib.FFParse_want_colon
goto mainparse
}
case 'u':
if bytes.Equal(ffj_key_Event_Username, kn) {
currentKey = ffj_t_Event_Username
state = fflib.FFParse_want_colon
goto mainparse
}
case 'v':
if bytes.Equal(ffj_key_Event_VoteMask, kn) {
currentKey = ffj_t_Event_VoteMask
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.SimpleLetterEqualFold(ffj_key_Event_Error, kn) {
currentKey = ffj_t_Event_Error
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Event_VoteMask, kn) {
currentKey = ffj_t_Event_VoteMask
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.AsciiEqualFold(ffj_key_Event_OptionB, kn) {
currentKey = ffj_t_Event_OptionB
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.AsciiEqualFold(ffj_key_Event_OptionA, kn) {
currentKey = ffj_t_Event_OptionA
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.AsciiEqualFold(ffj_key_Event_TopicID, kn) {
currentKey = ffj_t_Event_TopicID
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Event_Text, kn) {
currentKey = ffj_t_Event_Text
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Event_Color, kn) {
currentKey = ffj_t_Event_Color
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Event_Username, kn) {
currentKey = ffj_t_Event_Username
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Event_Type, kn) {
currentKey = ffj_t_Event_Type
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_Eventno_such_key
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 ffj_t_Event_Type:
goto handle_Type
case ffj_t_Event_Username:
goto handle_Username
case ffj_t_Event_Color:
goto handle_Color
case ffj_t_Event_Text:
goto handle_Text
case ffj_t_Event_TopicID:
goto handle_TopicID
case ffj_t_Event_OptionA:
goto handle_OptionA
case ffj_t_Event_OptionB:
goto handle_OptionB
case ffj_t_Event_VoteMask:
goto handle_VoteMask
case ffj_t_Event_Error:
goto handle_Error
case ffj_t_Eventno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Type:
/* handler: uj.Type 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()
uj.Type = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Username:
/* handler: uj.Username 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()
uj.Username = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Color:
/* handler: uj.Color 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()
uj.Color = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Text:
/* handler: uj.Text 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()
uj.Text = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_TopicID:
/* handler: uj.TopicID 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)
}
uj.TopicID = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_OptionA:
/* handler: uj.OptionA 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()
uj.OptionA = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_OptionB:
/* handler: uj.OptionB 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()
uj.OptionB = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_VoteMask:
/* handler: uj.VoteMask type=chat.voteOption kind=uint16 quoted=false*/
{
if tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for voteOption", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseUint(fs.Output.Bytes(), 10, 16)
if err != nil {
return fs.WrapErr(err)
}
uj.VoteMask = voteOption(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Error:
/* handler: uj.Error 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()
uj.Error = string(string(outBuf))
}
}
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
}
func (uj *Incident) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_Incidentbase
_ = 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 = ffj_t_Incidentno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'a':
if bytes.Equal(ffj_key_Incident_Active, kn) {
currentKey = ffj_t_Incident_Active
state = fflib.FFParse_want_colon
goto mainparse
}
case 'd':
if bytes.Equal(ffj_key_Incident_Description, kn) {
currentKey = ffj_t_Incident_Description
state = fflib.FFParse_want_colon
goto mainparse
}
case 'e':
if bytes.Equal(ffj_key_Incident_EventName, kn) {
currentKey = ffj_t_Incident_EventName
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_Incident_Escalation, kn) {
currentKey = ffj_t_Incident_Escalation
state = fflib.FFParse_want_colon
goto mainparse
}
case 'h':
if bytes.Equal(ffj_key_Incident_Host, kn) {
currentKey = ffj_t_Incident_Host
state = fflib.FFParse_want_colon
goto mainparse
}
case 'i':
if bytes.Equal(ffj_key_Incident_Id, kn) {
currentKey = ffj_t_Incident_Id
state = fflib.FFParse_want_colon
goto mainparse
}
case 'm':
if bytes.Equal(ffj_key_Incident_Metric, kn) {
currentKey = ffj_t_Incident_Metric
state = fflib.FFParse_want_colon
goto mainparse
}
case 'p':
if bytes.Equal(ffj_key_Incident_Policy, kn) {
currentKey = ffj_t_Incident_Policy
state = fflib.FFParse_want_colon
goto mainparse
}
case 's':
if bytes.Equal(ffj_key_Incident_Status, kn) {
currentKey = ffj_t_Incident_Status
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_Incident_Service, kn) {
currentKey = ffj_t_Incident_Service
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_Incident_SubService, kn) {
currentKey = ffj_t_Incident_SubService
state = fflib.FFParse_want_colon
goto mainparse
}
case 't':
if bytes.Equal(ffj_key_Incident_Time, kn) {
currentKey = ffj_t_Incident_Time
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_Incident_Tags, kn) {
currentKey = ffj_t_Incident_Tags
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.EqualFoldRight(ffj_key_Incident_Tags, kn) {
currentKey = ffj_t_Incident_Tags
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Incident_Metric, kn) {
currentKey = ffj_t_Incident_Metric
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Incident_SubService, kn) {
currentKey = ffj_t_Incident_SubService
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Incident_Service, kn) {
currentKey = ffj_t_Incident_Service
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Incident_Host, kn) {
currentKey = ffj_t_Incident_Host
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Incident_Status, kn) {
currentKey = ffj_t_Incident_Status
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Incident_Policy, kn) {
currentKey = ffj_t_Incident_Policy
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Incident_Description, kn) {
currentKey = ffj_t_Incident_Description
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Incident_Escalation, kn) {
currentKey = ffj_t_Incident_Escalation
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Incident_Active, kn) {
currentKey = ffj_t_Incident_Active
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Incident_Id, kn) {
currentKey = ffj_t_Incident_Id
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Incident_Time, kn) {
currentKey = ffj_t_Incident_Time
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Incident_EventName, kn) {
currentKey = ffj_t_Incident_EventName
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_Incidentno_such_key
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 ffj_t_Incident_EventName:
goto handle_EventName
case ffj_t_Incident_Time:
goto handle_Time
case ffj_t_Incident_Id:
goto handle_Id
case ffj_t_Incident_Active:
goto handle_Active
case ffj_t_Incident_Escalation:
goto handle_Escalation
case ffj_t_Incident_Description:
goto handle_Description
case ffj_t_Incident_Policy:
goto handle_Policy
case ffj_t_Incident_Status:
goto handle_Status
case ffj_t_Incident_Host:
goto handle_Host
case ffj_t_Incident_Service:
goto handle_Service
case ffj_t_Incident_SubService:
goto handle_SubService
case ffj_t_Incident_Metric:
goto handle_Metric
case ffj_t_Incident_Tags:
goto handle_Tags
case ffj_t_Incidentno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_EventName:
/* handler: uj.EventName type=[]uint8 kind=slice */
{
{
if tok != fflib.FFTok_string && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for ", tok))
}
}
if tok == fflib.FFTok_null {
uj.EventName = nil
} else {
b := make([]byte, base64.StdEncoding.DecodedLen(fs.Output.Len()))
n, err := base64.StdEncoding.Decode(b, fs.Output.Bytes())
if err != nil {
return fs.WrapErr(err)
}
v := reflect.ValueOf(&uj.EventName).Elem()
v.SetBytes(b[0:n])
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Time:
/* handler: uj.Time type=int64 kind=int64 */
{
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)
}
uj.Time = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Id:
/* handler: uj.Id type=int64 kind=int64 */
{
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)
}
uj.Id = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Active:
/* handler: uj.Active type=bool kind=bool */
{
{
if tok != fflib.FFTok_bool && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for bool", tok))
}
}
if tok == fflib.FFTok_null {
} else {
tmpb := fs.Output.Bytes()
if bytes.Compare([]byte{'t', 'r', 'u', 'e'}, tmpb) == 0 {
uj.Active = true
} else if bytes.Compare([]byte{'f', 'a', 'l', 's', 'e'}, tmpb) == 0 {
uj.Active = false
} else {
err = errors.New("unexpected bytes for true/false value")
return fs.WrapErr(err)
}
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Escalation:
/* handler: uj.Escalation type=string kind=string */
{
{
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 {
uj.Escalation = string(fs.Output.String())
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Description:
/* handler: uj.Description type=string kind=string */
{
{
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 {
uj.Description = string(fs.Output.String())
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Policy:
/* handler: uj.Policy type=string kind=string */
{
{
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 {
uj.Policy = string(fs.Output.String())
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Status:
/* handler: uj.Status type=int kind=int */
{
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)
}
uj.Status = int(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Host:
/* handler: uj.Host type=string kind=string */
{
{
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 {
uj.Host = string(fs.Output.String())
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Service:
/* handler: uj.Service type=string kind=string */
{
{
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 {
uj.Service = string(fs.Output.String())
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_SubService:
/* handler: uj.SubService type=string kind=string */
{
{
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 {
uj.SubService = string(fs.Output.String())
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Metric:
/* handler: uj.Metric type=float64 kind=float64 */
{
if tok != fflib.FFTok_double && tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for float64", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseFloat(fs.Output.Bytes(), 64)
if err != nil {
return fs.WrapErr(err)
}
uj.Metric = float64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Tags:
/* handler: uj.Tags type=map[string]string kind=map */
{
/* Falling back. type=map[string]string kind=map */
tbuf, err := fs.CaptureField(tok)
if err != nil {
return fs.WrapErr(err)
}
err = json.Unmarshal(tbuf, &uj.Tags)
if err != nil {
return fs.WrapErr(err)
}
}
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
}
func (uj *Fingerprint) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_Fingerprintbase
_ = 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 = ffj_t_Fingerprintno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'g':
if bytes.Equal(ffj_key_Fingerprint_Group, kn) {
currentKey = ffj_t_Fingerprint_Group
state = fflib.FFParse_want_colon
goto mainparse
}
case 'l':
if bytes.Equal(ffj_key_Fingerprint_Location, kn) {
currentKey = ffj_t_Fingerprint_Location
state = fflib.FFParse_want_colon
goto mainparse
}
case 't':
if bytes.Equal(ffj_key_Fingerprint_Timestamp, kn) {
currentKey = ffj_t_Fingerprint_Timestamp
state = fflib.FFParse_want_colon
goto mainparse
}
case 'u':
if bytes.Equal(ffj_key_Fingerprint_Username, kn) {
currentKey = ffj_t_Fingerprint_Username
state = fflib.FFParse_want_colon
goto mainparse
}
case 'w':
if bytes.Equal(ffj_key_Fingerprint_WifiFingerprint, kn) {
currentKey = ffj_t_Fingerprint_WifiFingerprint
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.AsciiEqualFold(ffj_key_Fingerprint_WifiFingerprint, kn) {
currentKey = ffj_t_Fingerprint_WifiFingerprint
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Fingerprint_Timestamp, kn) {
currentKey = ffj_t_Fingerprint_Timestamp
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Fingerprint_Location, kn) {
currentKey = ffj_t_Fingerprint_Location
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_Fingerprint_Username, kn) {
currentKey = ffj_t_Fingerprint_Username
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_Fingerprint_Group, kn) {
currentKey = ffj_t_Fingerprint_Group
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_Fingerprintno_such_key
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 ffj_t_Fingerprint_Group:
goto handle_Group
case ffj_t_Fingerprint_Username:
goto handle_Username
case ffj_t_Fingerprint_Location:
goto handle_Location
case ffj_t_Fingerprint_Timestamp:
goto handle_Timestamp
case ffj_t_Fingerprint_WifiFingerprint:
goto handle_WifiFingerprint
case ffj_t_Fingerprintno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Group:
/* handler: uj.Group 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()
uj.Group = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Username:
/* handler: uj.Username 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()
uj.Username = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Location:
/* handler: uj.Location 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()
uj.Location = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Timestamp:
/* handler: uj.Timestamp 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)
}
uj.Timestamp = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_WifiFingerprint:
/* handler: uj.WifiFingerprint type=[]find.Router 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 {
uj.WifiFingerprint = nil
} else {
uj.WifiFingerprint = make([]Router, 0)
wantVal := true
for {
var tmp_uj__WifiFingerprint Router
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: tmp_uj__WifiFingerprint type=find.Router kind=struct quoted=false*/
{
if tok == fflib.FFTok_null {
state = fflib.FFParse_after_value
goto mainparse
}
err = tmp_uj__WifiFingerprint.UnmarshalJSONFFLexer(fs, fflib.FFParse_want_key)
if err != nil {
return err
}
state = fflib.FFParse_after_value
}
uj.WifiFingerprint = append(uj.WifiFingerprint, tmp_uj__WifiFingerprint)
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
}
func (uj *TCARD) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_TCARDbase
_ = 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 = ffj_t_TCARDno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'C':
if bytes.Equal(ffj_key_TCARD_CARDIDEX, kn) {
currentKey = ffj_t_TCARD_CARDIDEX
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDBDID, kn) {
currentKey = ffj_t_TCARD_CARDBDID
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDKJND, kn) {
currentKey = ffj_t_TCARD_CARDKJND
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDKJQJ, kn) {
currentKey = ffj_t_TCARD_CARDKJQJ
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDYWBZ, kn) {
currentKey = ffj_t_TCARD_CARDYWBZ
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDNAME, kn) {
currentKey = ffj_t_TCARD_CARDNAME
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDZJNX, kn) {
currentKey = ffj_t_TCARD_CARDZJNX
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDZJFF, kn) {
currentKey = ffj_t_TCARD_CARDZJFF
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDZJZT, kn) {
currentKey = ffj_t_TCARD_CARDZJZT
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDCODE, kn) {
currentKey = ffj_t_TCARD_CARDCODE
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDJLDW, kn) {
currentKey = ffj_t_TCARD_CARDJLDW
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_CARDGGXH, kn) {
currentKey = ffj_t_TCARD_CARDGGXH
state = fflib.FFParse_want_colon
goto mainparse
}
case 'D':
if bytes.Equal(ffj_key_TCARD_DEPTLINK, kn) {
currentKey = ffj_t_TCARD_DEPTLINK
state = fflib.FFParse_want_colon
goto mainparse
}
case 'S':
if bytes.Equal(ffj_key_TCARD_SORTTYPE, kn) {
currentKey = ffj_t_TCARD_SORTTYPE
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_SORTNAME, kn) {
currentKey = ffj_t_TCARD_SORTNAME
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_SORTLINK, kn) {
currentKey = ffj_t_TCARD_SORTLINK
state = fflib.FFParse_want_colon
goto mainparse
}
case 'U':
if bytes.Equal(ffj_key_TCARD_UNITLINK, kn) {
currentKey = ffj_t_TCARD_UNITLINK
state = fflib.FFParse_want_colon
goto mainparse
}
case 'Z':
if bytes.Equal(ffj_key_TCARD_ZCLBTYPE, kn) {
currentKey = ffj_t_TCARD_ZCLBTYPE
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_ZCLBNAME, kn) {
currentKey = ffj_t_TCARD_ZCLBNAME
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_TCARD_ZCLBLINK, kn) {
currentKey = ffj_t_TCARD_ZCLBLINK
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDGGXH, kn) {
currentKey = ffj_t_TCARD_CARDGGXH
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDJLDW, kn) {
currentKey = ffj_t_TCARD_CARDJLDW
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDCODE, kn) {
currentKey = ffj_t_TCARD_CARDCODE
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDZJZT, kn) {
currentKey = ffj_t_TCARD_CARDZJZT
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDZJFF, kn) {
currentKey = ffj_t_TCARD_CARDZJFF
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDZJNX, kn) {
currentKey = ffj_t_TCARD_CARDZJNX
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDNAME, kn) {
currentKey = ffj_t_TCARD_CARDNAME
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TCARD_ZCLBLINK, kn) {
currentKey = ffj_t_TCARD_ZCLBLINK
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_ZCLBNAME, kn) {
currentKey = ffj_t_TCARD_ZCLBNAME
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_ZCLBTYPE, kn) {
currentKey = ffj_t_TCARD_ZCLBTYPE
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TCARD_SORTLINK, kn) {
currentKey = ffj_t_TCARD_SORTLINK
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TCARD_SORTNAME, kn) {
currentKey = ffj_t_TCARD_SORTNAME
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TCARD_SORTTYPE, kn) {
currentKey = ffj_t_TCARD_SORTTYPE
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDYWBZ, kn) {
currentKey = ffj_t_TCARD_CARDYWBZ
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TCARD_DEPTLINK, kn) {
currentKey = ffj_t_TCARD_DEPTLINK
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TCARD_CARDKJQJ, kn) {
currentKey = ffj_t_TCARD_CARDKJQJ
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TCARD_CARDKJND, kn) {
currentKey = ffj_t_TCARD_CARDKJND
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDBDID, kn) {
currentKey = ffj_t_TCARD_CARDBDID
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_TCARD_CARDIDEX, kn) {
currentKey = ffj_t_TCARD_CARDIDEX
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_TCARD_UNITLINK, kn) {
currentKey = ffj_t_TCARD_UNITLINK
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_TCARDno_such_key
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 ffj_t_TCARD_UNITLINK:
goto handle_UNITLINK
case ffj_t_TCARD_CARDIDEX:
goto handle_CARDIDEX
case ffj_t_TCARD_CARDBDID:
goto handle_CARDBDID
case ffj_t_TCARD_CARDKJND:
goto handle_CARDKJND
case ffj_t_TCARD_CARDKJQJ:
goto handle_CARDKJQJ
case ffj_t_TCARD_DEPTLINK:
goto handle_DEPTLINK
case ffj_t_TCARD_CARDYWBZ:
goto handle_CARDYWBZ
case ffj_t_TCARD_SORTTYPE:
goto handle_SORTTYPE
case ffj_t_TCARD_SORTNAME:
goto handle_SORTNAME
case ffj_t_TCARD_SORTLINK:
goto handle_SORTLINK
case ffj_t_TCARD_ZCLBTYPE:
goto handle_ZCLBTYPE
case ffj_t_TCARD_ZCLBNAME:
goto handle_ZCLBNAME
case ffj_t_TCARD_ZCLBLINK:
goto handle_ZCLBLINK
case ffj_t_TCARD_CARDNAME:
goto handle_CARDNAME
case ffj_t_TCARD_CARDZJNX:
goto handle_CARDZJNX
case ffj_t_TCARD_CARDZJFF:
goto handle_CARDZJFF
case ffj_t_TCARD_CARDZJZT:
goto handle_CARDZJZT
case ffj_t_TCARD_CARDCODE:
goto handle_CARDCODE
case ffj_t_TCARD_CARDJLDW:
goto handle_CARDJLDW
case ffj_t_TCARD_CARDGGXH:
goto handle_CARDGGXH
case ffj_t_TCARDno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_UNITLINK:
/* handler: uj.UNITLINK 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()
uj.UNITLINK = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDIDEX:
/* handler: uj.CARDIDEX 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)
}
uj.CARDIDEX = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDBDID:
/* handler: uj.CARDBDID 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)
}
uj.CARDBDID = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDKJND:
/* handler: uj.CARDKJND 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)
}
uj.CARDKJND = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDKJQJ:
/* handler: uj.CARDKJQJ 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)
}
uj.CARDKJQJ = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_DEPTLINK:
/* handler: uj.DEPTLINK 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()
uj.DEPTLINK = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDYWBZ:
/* handler: uj.CARDYWBZ 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)
}
uj.CARDYWBZ = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_SORTTYPE:
/* handler: uj.SORTTYPE 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()
uj.SORTTYPE = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_SORTNAME:
/* handler: uj.SORTNAME 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()
uj.SORTNAME = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_SORTLINK:
/* handler: uj.SORTLINK 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()
uj.SORTLINK = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_ZCLBTYPE:
/* handler: uj.ZCLBTYPE 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()
uj.ZCLBTYPE = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_ZCLBNAME:
/* handler: uj.ZCLBNAME 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()
uj.ZCLBNAME = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_ZCLBLINK:
/* handler: uj.ZCLBLINK 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()
uj.ZCLBLINK = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDNAME:
/* handler: uj.CARDNAME 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()
uj.CARDNAME = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDZJNX:
/* handler: uj.CARDZJNX 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)
}
uj.CARDZJNX = int64(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDZJFF:
/* handler: uj.CARDZJFF 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()
uj.CARDZJFF = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDZJZT:
/* handler: uj.CARDZJZT 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()
uj.CARDZJZT = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDCODE:
/* handler: uj.CARDCODE 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()
uj.CARDCODE = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDJLDW:
/* handler: uj.CARDJLDW 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()
uj.CARDJLDW = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_CARDGGXH:
/* handler: uj.CARDGGXH 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()
uj.CARDGGXH = string(string(outBuf))
}
}
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
}
func (uj *LogFormat) UnmarshalJSONFFLexer(fs *fflib.FFLexer, state fflib.FFParseState) error {
var err error = nil
currentKey := ffj_t_LogFormatbase
_ = 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 = ffj_t_LogFormatno_such_key
state = fflib.FFParse_want_colon
goto mainparse
} else {
switch kn[0] {
case 'C':
if bytes.Equal(ffj_key_LogFormat_Caller, kn) {
currentKey = ffj_t_LogFormat_Caller
state = fflib.FFParse_want_colon
goto mainparse
}
case 'H':
if bytes.Equal(ffj_key_LogFormat_Host, kn) {
currentKey = ffj_t_LogFormat_Host
state = fflib.FFParse_want_colon
goto mainparse
}
case 'L':
if bytes.Equal(ffj_key_LogFormat_Level, kn) {
currentKey = ffj_t_LogFormat_Level
state = fflib.FFParse_want_colon
goto mainparse
} else if bytes.Equal(ffj_key_LogFormat_LineNo, kn) {
currentKey = ffj_t_LogFormat_LineNo
state = fflib.FFParse_want_colon
goto mainparse
}
case 'M':
if bytes.Equal(ffj_key_LogFormat_Msg, kn) {
currentKey = ffj_t_LogFormat_Msg
state = fflib.FFParse_want_colon
goto mainparse
}
case 'P':
if bytes.Equal(ffj_key_LogFormat_Prefix, kn) {
currentKey = ffj_t_LogFormat_Prefix
state = fflib.FFParse_want_colon
goto mainparse
}
case 'T':
if bytes.Equal(ffj_key_LogFormat_Time, kn) {
currentKey = ffj_t_LogFormat_Time
state = fflib.FFParse_want_colon
goto mainparse
}
}
if fflib.SimpleLetterEqualFold(ffj_key_LogFormat_LineNo, kn) {
currentKey = ffj_t_LogFormat_LineNo
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_LogFormat_Caller, kn) {
currentKey = ffj_t_LogFormat_Caller
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_LogFormat_Msg, kn) {
currentKey = ffj_t_LogFormat_Msg
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_LogFormat_Level, kn) {
currentKey = ffj_t_LogFormat_Level
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.EqualFoldRight(ffj_key_LogFormat_Host, kn) {
currentKey = ffj_t_LogFormat_Host
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_LogFormat_Time, kn) {
currentKey = ffj_t_LogFormat_Time
state = fflib.FFParse_want_colon
goto mainparse
}
if fflib.SimpleLetterEqualFold(ffj_key_LogFormat_Prefix, kn) {
currentKey = ffj_t_LogFormat_Prefix
state = fflib.FFParse_want_colon
goto mainparse
}
currentKey = ffj_t_LogFormatno_such_key
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 ffj_t_LogFormat_Prefix:
goto handle_Prefix
case ffj_t_LogFormat_Time:
goto handle_Time
case ffj_t_LogFormat_Host:
goto handle_Host
case ffj_t_LogFormat_Level:
goto handle_Level
case ffj_t_LogFormat_Msg:
goto handle_Msg
case ffj_t_LogFormat_Caller:
goto handle_Caller
case ffj_t_LogFormat_LineNo:
goto handle_LineNo
case ffj_t_LogFormatno_such_key:
err = fs.SkipField(tok)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
goto mainparse
}
} else {
goto wantedvalue
}
}
}
handle_Prefix:
/* handler: uj.Prefix 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()
uj.Prefix = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Time:
/* handler: uj.Time type=time.Time kind=struct quoted=false*/
{
if tok == fflib.FFTok_null {
state = fflib.FFParse_after_value
goto mainparse
}
tbuf, err := fs.CaptureField(tok)
if err != nil {
return fs.WrapErr(err)
}
err = uj.Time.UnmarshalJSON(tbuf)
if err != nil {
return fs.WrapErr(err)
}
state = fflib.FFParse_after_value
}
state = fflib.FFParse_after_value
goto mainparse
handle_Host:
/* handler: uj.Host 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()
uj.Host = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Level:
/* handler: uj.Level type=uint8 kind=uint8 quoted=false*/
{
if tok != fflib.FFTok_integer && tok != fflib.FFTok_null {
return fs.WrapErr(fmt.Errorf("cannot unmarshal %s into Go value for uint8", tok))
}
}
{
if tok == fflib.FFTok_null {
} else {
tval, err := fflib.ParseUint(fs.Output.Bytes(), 10, 8)
if err != nil {
return fs.WrapErr(err)
}
uj.Level = uint8(tval)
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Msg:
/* handler: uj.Msg 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()
uj.Msg = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_Caller:
/* handler: uj.Caller 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()
uj.Caller = string(string(outBuf))
}
}
state = fflib.FFParse_after_value
goto mainparse
handle_LineNo:
/* handler: uj.LineNo 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)
}
uj.LineNo = 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
}
