package main import "fmt" // Arguments to format are: // [1]: type name const stringNameToValueMethod = `// %[1]sString retrieves an enum value from the enum constants string name. // Throws an error if the param is not part of the enum. func %[1]sString(s string) (%[1]s, error) { if val, ok := _%[1]sNameToValueMap[s]; ok { return val, nil } return 0, fmt.Errorf("%%s does not belong to %[1]s values", s) } ` // Arguments to format are: // [1]: type name const stringValuesMethod = `// %[1]sValues returns all values of the enum func %[1]sValues() []%[1]s { return _%[1]sValues } ` // Arguments to format are: // [1]: type name const stringBelongsMethod = `// belongsTo%[1]s returns "true" if the value is listed in the enum definition. "false" otherwise func (i %[1]s) belongsTo%[1]s() bool { for _, v := range _%[1]sValues { if i == v { return true } } return false } ` func (g *Generator) buildBasicExtras(runs [][]Value, typeName string, runsThreshold int) { // At this moment, either "g.declareIndexAndNameVars()" or "g.declareNameVars()" has been called // Print the slice of values g.Printf("\nvar _%sValues = []%s{", typeName, typeName) for _, values := range runs { for _, value := range values { g.Printf("\t%s, ", value.str) } } g.Printf("}\n\n") // Print the map between name and value g.Printf("\nvar _%sNameToValueMap = map[string]%s{\n", typeName, typeName) thereAreRuns := len(runs) > 1 && len(runs) <= runsThreshold var n int var runID string for i, values := range runs { if thereAreRuns { runID = "_" + fmt.Sprintf("%d", i) n = 0 } else { runID = "" } for _, value := range values { g.Printf("\t_%sName%s[%d:%d]: %s,\n", typeName, runID, n, n+len(value.name), &value) n += len(value.name) } } g.Printf("}\n\n") // Print the basic extra methods g.Printf(stringNameToValueMethod, typeName) g.Printf(stringValuesMethod, typeName) g.Printf(stringBelongsMethod, typeName) } // Arguments to format are: // [1]: type name const jsonMethods = ` // MarshalJSON implements the json.Marshaler interface for %[1]s func (i %[1]s) MarshalJSON() ([]byte, error) { return json.Marshal(i.String()) } // UnmarshalJSON implements the json.Unmarshaler interface for %[1]s func (i *%[1]s) UnmarshalJSON(data []byte) error { var s string if err := json.Unmarshal(data, &s); err != nil { return fmt.Errorf("%[1]s should be a string, got %%s", data) } var err error *i, err = %[1]sString(s) return err } ` func (g *Generator) buildJSONMethods(runs [][]Value, typeName string, runsThreshold int) { g.Printf(jsonMethods, typeName) } // Arguments to format are: // [1]: type name const textMethods = ` // MarshalText implements the encoding.TextMarshaler interface for %[1]s func (i %[1]s) MarshalText() ([]byte, error) { return []byte(i.String()), nil } // MarshalText implements the encoding.TextUnmarshaler interface for %[1]s func (i *%[1]s) UnmarshalText(text []byte) error { var err error *i, err = %[1]sString(string(text)) return err } ` func (g *Generator) buildTextMethods(runs [][]Value, typeName string, runsThreshold int) { g.Printf(textMethods, typeName) } // Arguments to format are: // [1]: type name const yamlMethods = ` // MarshalYAML implements a YAML Marshaler for %[1]s func (i %[1]s) MarshalYAML() (interface{}, error) { return i.String(), nil } // UnmarshalYAML implements a YAML Unmarshaler for %[1]s func (i *%[1]s) UnmarshalYAML(unmarshal func(interface{}) error) error { var s string if err := unmarshal(&s); err != nil { return err } var err error *i, err = %[1]sString(s) return err } ` func (g *Generator) buildYAMLMethods(runs [][]Value, typeName string, runsThreshold int) { g.Printf(yamlMethods, typeName) }