package form import ( "fmt" "net/url" "reflect" "strconv" "time" ) type encoder struct { e *Encoder errs EncodeErrors values url.Values namespace []byte } func (e *encoder) setError(namespace []byte, err error) { if e.errs == nil { e.errs = make(EncodeErrors) } e.errs[string(namespace)] = err } func (e *encoder) setVal(namespace []byte, idx int, vals ...string) { arr, ok := e.values[string(namespace)] if ok { arr = append(arr, vals...) } else { arr = vals } e.values[string(namespace)] = arr } func (e *encoder) traverseStruct(v reflect.Value, namespace []byte, idx int) { typ := v.Type() l := len(namespace) first := l == 0 // anonymous structs will still work for caching as the whole definition is stored // including tags s, ok := e.e.structCache.Get(typ) if !ok { s = e.e.structCache.parseStruct(e.e.mode, v, typ, e.e.tagName) } for _, f := range s.fields { namespace = namespace[:l] if f.isAnonymous && e.e.embedAnonymous { e.setFieldByType(v.Field(f.idx), namespace, idx, f.isOmitEmpty) continue } if first { namespace = append(namespace, f.name...) } else { namespace = append(namespace, e.e.namespacePrefix...) namespace = append(namespace, f.name...) namespace = append(namespace, e.e.namespaceSuffix...) } e.setFieldByType(v.Field(f.idx), namespace, idx, f.isOmitEmpty) } } func (e *encoder) setFieldByType(current reflect.Value, namespace []byte, idx int, isOmitEmpty bool) { if idx > -1 && current.Kind() == reflect.Ptr { namespace = append(namespace, '[') namespace = strconv.AppendInt(namespace, int64(idx), 10) namespace = append(namespace, ']') idx = -2 } if isOmitEmpty && !hasValue(current) { return } v, kind := ExtractType(current) if e.e.customTypeFuncs != nil { if cf, ok := e.e.customTypeFuncs[v.Type()]; ok { arr, err := cf(v.Interface()) if err != nil { e.setError(namespace, err) return } if idx > -1 { namespace = append(namespace, '[') namespace = strconv.AppendInt(namespace, int64(idx), 10) namespace = append(namespace, ']') } e.setVal(namespace, idx, arr...) return } } switch kind { case reflect.Ptr, reflect.Interface, reflect.Invalid: return case reflect.String: e.setVal(namespace, idx, v.String()) case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64: e.setVal(namespace, idx, strconv.FormatUint(v.Uint(), 10)) case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: e.setVal(namespace, idx, strconv.FormatInt(v.Int(), 10)) case reflect.Float32: e.setVal(namespace, idx, strconv.FormatFloat(v.Float(), 'f', -1, 32)) case reflect.Float64: e.setVal(namespace, idx, strconv.FormatFloat(v.Float(), 'f', -1, 64)) case reflect.Bool: e.setVal(namespace, idx, strconv.FormatBool(v.Bool())) case reflect.Slice, reflect.Array: if idx == -1 { for i := 0; i < v.Len(); i++ { e.setFieldByType(v.Index(i), namespace, i, false) } return } if idx > -1 { namespace = append(namespace, '[') namespace = strconv.AppendInt(namespace, int64(idx), 10) namespace = append(namespace, ']') } namespace = append(namespace, '[') l := len(namespace) for i := 0; i < v.Len(); i++ { namespace = namespace[:l] namespace = strconv.AppendInt(namespace, int64(i), 10) namespace = append(namespace, ']') e.setFieldByType(v.Index(i), namespace, -2, false) } case reflect.Map: if idx > -1 { namespace = append(namespace, '[') namespace = strconv.AppendInt(namespace, int64(idx), 10) namespace = append(namespace, ']') } var valid bool var s string l := len(namespace) for _, key := range v.MapKeys() { namespace = namespace[:l] if s, valid = e.getMapKey(key, namespace); !valid { continue } namespace = append(namespace, '[') namespace = append(namespace, s...) namespace = append(namespace, ']') e.setFieldByType(v.MapIndex(key), namespace, -2, false) } case reflect.Struct: // if we get here then no custom time function declared so use RFC3339 by default if v.Type() == timeType { if idx > -1 { namespace = append(namespace, '[') namespace = strconv.AppendInt(namespace, int64(idx), 10) namespace = append(namespace, ']') } e.setVal(namespace, idx, v.Interface().(time.Time).Format(time.RFC3339)) return } if idx == -1 { e.traverseStruct(v, namespace, idx) return } if idx > -1 { namespace = append(namespace, '[') namespace = strconv.AppendInt(namespace, int64(idx), 10) namespace = append(namespace, ']') } e.traverseStruct(v, namespace, -2) } } func (e *encoder) getMapKey(key reflect.Value, namespace []byte) (string, bool) { v, kind := ExtractType(key) if e.e.customTypeFuncs != nil { if cf, ok := e.e.customTypeFuncs[v.Type()]; ok { arr, err := cf(v.Interface()) if err != nil { e.setError(namespace, err) return "", false } return arr[0], true } } switch kind { case reflect.Interface, reflect.Ptr: return "", false case reflect.String: return v.String(), true case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64: return strconv.FormatUint(v.Uint(), 10), true case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: return strconv.FormatInt(v.Int(), 10), true case reflect.Float32: return strconv.FormatFloat(v.Float(), 'f', -1, 32), true case reflect.Float64: return strconv.FormatFloat(v.Float(), 'f', -1, 64), true case reflect.Bool: return strconv.FormatBool(v.Bool()), true default: e.setError(namespace, fmt.Errorf("Unsupported Map Key '%v' Namespace '%s'", v.String(), namespace)) return "", false } }