zolfa
/
tendermint


								package json


								import (

									"bytes"

									"encoding/json"

									"errors"

									"fmt"

									"io"

									"reflect"

									"strconv"

									"time"

								)


								var (

									timeType            = reflect.TypeOf(time.Time{})

									jsonMarshalerType   = reflect.TypeOf(new(json.Marshaler)).Elem()

									jsonUnmarshalerType = reflect.TypeOf(new(json.Unmarshaler)).Elem()

								)


								// Marshal marshals the value as JSON, using Amino-compatible JSON encoding (strings for

								// 64-bit numbers, and type wrappers for registered types).

								func Marshal(v interface{}) ([]byte, error) {

									buf := new(bytes.Buffer)

									err := encode(buf, v)

									if err != nil {

										return nil, err

									}

									return buf.Bytes(), nil

								}


								// MarshalIndent marshals the value as JSON, using the given prefix and indentation.

								func MarshalIndent(v interface{}, prefix, indent string) ([]byte, error) {

									bz, err := Marshal(v)

									if err != nil {

										return nil, err

									}

									buf := new(bytes.Buffer)

									err = json.Indent(buf, bz, prefix, indent)

									if err != nil {

										return nil, err

									}

									return buf.Bytes(), nil

								}


								func encode(w io.Writer, v interface{}) error {

									// Bare nil values can't be reflected, so we must handle them here.

									if v == nil {

										return writeStr(w, "null")

									}

									rv := reflect.ValueOf(v)


									// If this is a registered type, defer to interface encoder regardless of whether the input is

									// an interface or a bare value. This retains Amino's behavior, but is inconsistent with

									// behavior in structs where an interface field will get the type wrapper while a bare value

									// field will not.

									if typeRegistry.name(rv.Type()) != "" {

										return encodeReflectInterface(w, rv)

									}


									return encodeReflect(w, rv)

								}


								func encodeReflect(w io.Writer, rv reflect.Value) error {

									if !rv.IsValid() {

										return errors.New("invalid reflect value")

									}


									// Recursively dereference if pointer.

									for rv.Kind() == reflect.Ptr {

										if rv.IsNil() {

											return writeStr(w, "null")

										}

										rv = rv.Elem()

									}


									// Convert times to UTC.

									if rv.Type() == timeType {

										rv = reflect.ValueOf(rv.Interface().(time.Time).Round(0).UTC())

									}


									// If the value implements json.Marshaler, defer to stdlib directly. Since we've already

									// dereferenced, we try implementations with both value receiver and pointer receiver. We must

									// do this after the time normalization above, and thus after dereferencing.

									if rv.Type().Implements(jsonMarshalerType) {

										return encodeStdlib(w, rv.Interface())

									} else if rv.CanAddr() && rv.Addr().Type().Implements(jsonMarshalerType) {

										return encodeStdlib(w, rv.Addr().Interface())

									}


									switch rv.Type().Kind() {

									// Complex types must be recursively encoded.

									case reflect.Interface:

										return encodeReflectInterface(w, rv)


									case reflect.Array, reflect.Slice:

										return encodeReflectList(w, rv)


									case reflect.Map:

										return encodeReflectMap(w, rv)


									case reflect.Struct:

										return encodeReflectStruct(w, rv)


									// 64-bit integers are emitted as strings, to avoid precision problems with e.g.

									// Javascript which uses 64-bit floats (having 53-bit precision).

									case reflect.Int64, reflect.Int:

										return writeStr(w, `"`+strconv.FormatInt(rv.Int(), 10)+`"`)


									case reflect.Uint64, reflect.Uint:

										return writeStr(w, `"`+strconv.FormatUint(rv.Uint(), 10)+`"`)


									// For everything else, defer to the stdlib encoding/json encoder

									default:

										return encodeStdlib(w, rv.Interface())

									}

								}


								func encodeReflectList(w io.Writer, rv reflect.Value) error {

									// Emit nil slices as null.

									if rv.Kind() == reflect.Slice && rv.IsNil() {

										return writeStr(w, "null")

									}


									// Encode byte slices as base64 with the stdlib encoder.

									if rv.Type().Elem().Kind() == reflect.Uint8 {

										// Stdlib does not base64-encode byte arrays, only slices, so we copy to slice.

										if rv.Type().Kind() == reflect.Array {

											slice := reflect.MakeSlice(reflect.SliceOf(rv.Type().Elem()), rv.Len(), rv.Len())

											reflect.Copy(slice, rv)

											rv = slice

										}

										return encodeStdlib(w, rv.Interface())

									}


									// Anything else we recursively encode ourselves.

									length := rv.Len()

									if err := writeStr(w, "["); err != nil {

										return err

									}

									for i := 0; i < length; i++ {

										if err := encodeReflect(w, rv.Index(i)); err != nil {

											return err

										}

										if i < length-1 {

											if err := writeStr(w, ","); err != nil {

												return err

											}

										}

									}

									return writeStr(w, "]")

								}


								func encodeReflectMap(w io.Writer, rv reflect.Value) error {

									if rv.Type().Key().Kind() != reflect.String {

										return errors.New("map key must be string")

									}


									// nil maps are not emitted as nil, to retain Amino compatibility.


									if err := writeStr(w, "{"); err != nil {

										return err

									}

									writeComma := false

									for _, keyrv := range rv.MapKeys() {

										if writeComma {

											if err := writeStr(w, ","); err != nil {

												return err

											}

										}

										if err := encodeStdlib(w, keyrv.Interface()); err != nil {

											return err

										}

										if err := writeStr(w, ":"); err != nil {

											return err

										}

										if err := encodeReflect(w, rv.MapIndex(keyrv)); err != nil {

											return err

										}

										writeComma = true

									}

									return writeStr(w, "}")

								}


								func encodeReflectStruct(w io.Writer, rv reflect.Value) error {

									sInfo := makeStructInfo(rv.Type())

									if err := writeStr(w, "{"); err != nil {

										return err

									}

									writeComma := false

									for i, fInfo := range sInfo.fields {

										frv := rv.Field(i)

										if fInfo.hidden || (fInfo.omitEmpty && frv.IsZero()) {

											continue

										}


										if writeComma {

											if err := writeStr(w, ","); err != nil {

												return err

											}

										}

										if err := encodeStdlib(w, fInfo.jsonName); err != nil {

											return err

										}

										if err := writeStr(w, ":"); err != nil {

											return err

										}

										if err := encodeReflect(w, frv); err != nil {

											return err

										}

										writeComma = true

									}

									return writeStr(w, "}")

								}


								func encodeReflectInterface(w io.Writer, rv reflect.Value) error {

									// Get concrete value and dereference pointers.

									for rv.Kind() == reflect.Ptr || rv.Kind() == reflect.Interface {

										if rv.IsNil() {

											return writeStr(w, "null")

										}

										rv = rv.Elem()

									}


									// Look up the name of the concrete type

									name := typeRegistry.name(rv.Type())

									if name == "" {

										return fmt.Errorf("cannot encode unregistered type %v", rv.Type())

									}


									// Write value wrapped in interface envelope

									if err := writeStr(w, fmt.Sprintf(`{"type":%q,"value":`, name)); err != nil {

										return err

									}

									if err := encodeReflect(w, rv); err != nil {

										return err

									}

									return writeStr(w, "}")

								}


								func encodeStdlib(w io.Writer, v interface{}) error {

									// Doesn't stream the output because that adds a newline, as per:

									// https://golang.org/pkg/encoding/json/#Encoder.Encode

									blob, err := json.Marshal(v)

									if err != nil {

										return err

									}

									_, err = w.Write(blob)

									return err

								}


								func writeStr(w io.Writer, s string) error {

									_, err := w.Write([]byte(s))

									return err

								}