vendor/go.uber.org/zap/zapcore/json_encoder.go - voltha-go - Gitiles

 // Copyright (c) 2016 Uber Technologies, Inc.
 //
 // Permission is hereby granted, free of charge, to any person obtaining a copy
 // of this software and associated documentation files (the "Software"), to deal
 // in the Software without restriction, including without limitation the rights
 // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 // copies of the Software, and to permit persons to whom the Software is
 // furnished to do so, subject to the following conditions:
 //
 // The above copyright notice and this permission notice shall be included in
 // all copies or substantial portions of the Software.
 //
 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 // THE SOFTWARE.

 package zapcore

 import (
 	"encoding/base64"
 	"encoding/json"
 	"math"
 	"sync"
 	"time"
 	"unicode/utf8"

 	"go.uber.org/zap/buffer"
 	"go.uber.org/zap/internal/bufferpool"
 )

 // For JSON-escaping; see jsonEncoder.safeAddString below.
 const _hex = "0123456789abcdef"

 var _jsonPool = sync.Pool{New: func() interface{} {
 	return &jsonEncoder{}
 }}

 func getJSONEncoder() *jsonEncoder {
 	return _jsonPool.Get().(*jsonEncoder)
 }

 func putJSONEncoder(enc *jsonEncoder) {
 	if enc.reflectBuf != nil {
 		enc.reflectBuf.Free()
 	}
 	enc.EncoderConfig = nil
 	enc.buf = nil
 	enc.spaced = false
 	enc.openNamespaces = 0
 	enc.reflectBuf = nil
 	enc.reflectEnc = nil
 	_jsonPool.Put(enc)
 }

 type jsonEncoder struct {
 	*EncoderConfig
 	buf            *buffer.Buffer
 	spaced         bool // include spaces after colons and commas
 	openNamespaces int

 	// for encoding generic values by reflection
 	reflectBuf *buffer.Buffer
 	reflectEnc *json.Encoder
 }

 // NewJSONEncoder creates a fast, low-allocation JSON encoder. The encoder
 // appropriately escapes all field keys and values.
 //
 // Note that the encoder doesn't deduplicate keys, so it's possible to produce
 // a message like
 //   {"foo":"bar","foo":"baz"}
 // This is permitted by the JSON specification, but not encouraged. Many
 // libraries will ignore duplicate key-value pairs (typically keeping the last
 // pair) when unmarshaling, but users should attempt to avoid adding duplicate
 // keys.
 func NewJSONEncoder(cfg EncoderConfig) Encoder {
 	return newJSONEncoder(cfg, false)
 }

 func newJSONEncoder(cfg EncoderConfig, spaced bool) *jsonEncoder {
 	return &jsonEncoder{
 		EncoderConfig: &cfg,
 		buf:           bufferpool.Get(),
 		spaced:        spaced,
 	}
 }

 func (enc *jsonEncoder) AddArray(key string, arr ArrayMarshaler) error {
 	enc.addKey(key)
 	return enc.AppendArray(arr)
 }

 func (enc *jsonEncoder) AddObject(key string, obj ObjectMarshaler) error {
 	enc.addKey(key)
 	return enc.AppendObject(obj)
 }

 func (enc *jsonEncoder) AddBinary(key string, val []byte) {
 	enc.AddString(key, base64.StdEncoding.EncodeToString(val))
 }

 func (enc *jsonEncoder) AddByteString(key string, val []byte) {
 	enc.addKey(key)
 	enc.AppendByteString(val)
 }

 func (enc *jsonEncoder) AddBool(key string, val bool) {
 	enc.addKey(key)
 	enc.AppendBool(val)
 }

 func (enc *jsonEncoder) AddComplex128(key string, val complex128) {
 	enc.addKey(key)
 	enc.AppendComplex128(val)
 }

 func (enc *jsonEncoder) AddDuration(key string, val time.Duration) {
 	enc.addKey(key)
 	enc.AppendDuration(val)
 }

 func (enc *jsonEncoder) AddFloat64(key string, val float64) {
 	enc.addKey(key)
 	enc.AppendFloat64(val)
 }

 func (enc *jsonEncoder) AddInt64(key string, val int64) {
 	enc.addKey(key)
 	enc.AppendInt64(val)
 }

 func (enc *jsonEncoder) resetReflectBuf() {
 	if enc.reflectBuf == nil {
 		enc.reflectBuf = bufferpool.Get()
 		enc.reflectEnc = json.NewEncoder(enc.reflectBuf)

 		// For consistency with our custom JSON encoder.
 		enc.reflectEnc.SetEscapeHTML(false)
 	} else {
 		enc.reflectBuf.Reset()
 	}
 }

 var nullLiteralBytes = []byte("null")

 // Only invoke the standard JSON encoder if there is actually something to
 // encode; otherwise write JSON null literal directly.
 func (enc *jsonEncoder) encodeReflected(obj interface{}) ([]byte, error) {
 	if obj == nil {
 		return nullLiteralBytes, nil
 	}
 	enc.resetReflectBuf()
 	if err := enc.reflectEnc.Encode(obj); err != nil {
 		return nil, err
 	}
 	enc.reflectBuf.TrimNewline()
 	return enc.reflectBuf.Bytes(), nil
 }

 func (enc *jsonEncoder) AddReflected(key string, obj interface{}) error {
 	valueBytes, err := enc.encodeReflected(obj)
 	if err != nil {
 		return err
 	}
 	enc.addKey(key)
 	_, err = enc.buf.Write(valueBytes)
 	return err
 }

 func (enc *jsonEncoder) OpenNamespace(key string) {
 	enc.addKey(key)
 	enc.buf.AppendByte('{')
 	enc.openNamespaces++
 }

 func (enc *jsonEncoder) AddString(key, val string) {
 	enc.addKey(key)
 	enc.AppendString(val)
 }

 func (enc *jsonEncoder) AddTime(key string, val time.Time) {
 	enc.addKey(key)
 	enc.AppendTime(val)
 }

 func (enc *jsonEncoder) AddUint64(key string, val uint64) {
 	enc.addKey(key)
 	enc.AppendUint64(val)
 }

 func (enc *jsonEncoder) AppendArray(arr ArrayMarshaler) error {
 	enc.addElementSeparator()
 	enc.buf.AppendByte('[')
 	err := arr.MarshalLogArray(enc)
 	enc.buf.AppendByte(']')
 	return err
 }

 func (enc *jsonEncoder) AppendObject(obj ObjectMarshaler) error {
 	enc.addElementSeparator()
 	enc.buf.AppendByte('{')
 	err := obj.MarshalLogObject(enc)
 	enc.buf.AppendByte('}')
 	return err
 }

 func (enc *jsonEncoder) AppendBool(val bool) {
 	enc.addElementSeparator()
 	enc.buf.AppendBool(val)
 }

 func (enc *jsonEncoder) AppendByteString(val []byte) {
 	enc.addElementSeparator()
 	enc.buf.AppendByte('"')
 	enc.safeAddByteString(val)
 	enc.buf.AppendByte('"')
 }

 func (enc *jsonEncoder) AppendComplex128(val complex128) {
 	enc.addElementSeparator()
 	// Cast to a platform-independent, fixed-size type.
 	r, i := float64(real(val)), float64(imag(val))
 	enc.buf.AppendByte('"')
 	// Because we're always in a quoted string, we can use strconv without
 	// special-casing NaN and +/-Inf.
 	enc.buf.AppendFloat(r, 64)
 	enc.buf.AppendByte('+')
 	enc.buf.AppendFloat(i, 64)
 	enc.buf.AppendByte('i')
 	enc.buf.AppendByte('"')
 }

 func (enc *jsonEncoder) AppendDuration(val time.Duration) {
 	cur := enc.buf.Len()
 	if e := enc.EncodeDuration; e != nil {
 		e(val, enc)
 	}
 	if cur == enc.buf.Len() {
 		// User-supplied EncodeDuration is a no-op. Fall back to nanoseconds to keep
 		// JSON valid.
 		enc.AppendInt64(int64(val))
 	}
 }

 func (enc *jsonEncoder) AppendInt64(val int64) {
 	enc.addElementSeparator()
 	enc.buf.AppendInt(val)
 }

 func (enc *jsonEncoder) AppendReflected(val interface{}) error {
 	valueBytes, err := enc.encodeReflected(val)
 	if err != nil {
 		return err
 	}
 	enc.addElementSeparator()
 	_, err = enc.buf.Write(valueBytes)
 	return err
 }

 func (enc *jsonEncoder) AppendString(val string) {
 	enc.addElementSeparator()
 	enc.buf.AppendByte('"')
 	enc.safeAddString(val)
 	enc.buf.AppendByte('"')
 }

 func (enc *jsonEncoder) AppendTimeLayout(time time.Time, layout string) {
 	enc.addElementSeparator()
 	enc.buf.AppendByte('"')
 	enc.buf.AppendTime(time, layout)
 	enc.buf.AppendByte('"')
 }

 func (enc *jsonEncoder) AppendTime(val time.Time) {
 	cur := enc.buf.Len()
 	if e := enc.EncodeTime; e != nil {
 		e(val, enc)
 	}
 	if cur == enc.buf.Len() {
 		// User-supplied EncodeTime is a no-op. Fall back to nanos since epoch to keep
 		// output JSON valid.
 		enc.AppendInt64(val.UnixNano())
 	}
 }

 func (enc *jsonEncoder) AppendUint64(val uint64) {
 	enc.addElementSeparator()
 	enc.buf.AppendUint(val)
 }

 func (enc *jsonEncoder) AddComplex64(k string, v complex64) { enc.AddComplex128(k, complex128(v)) }
 func (enc *jsonEncoder) AddFloat32(k string, v float32)     { enc.AddFloat64(k, float64(v)) }
 func (enc *jsonEncoder) AddInt(k string, v int)             { enc.AddInt64(k, int64(v)) }
 func (enc *jsonEncoder) AddInt32(k string, v int32)         { enc.AddInt64(k, int64(v)) }
 func (enc *jsonEncoder) AddInt16(k string, v int16)         { enc.AddInt64(k, int64(v)) }
 func (enc *jsonEncoder) AddInt8(k string, v int8)           { enc.AddInt64(k, int64(v)) }
 func (enc *jsonEncoder) AddUint(k string, v uint)           { enc.AddUint64(k, uint64(v)) }
 func (enc *jsonEncoder) AddUint32(k string, v uint32)       { enc.AddUint64(k, uint64(v)) }
 func (enc *jsonEncoder) AddUint16(k string, v uint16)       { enc.AddUint64(k, uint64(v)) }
 func (enc *jsonEncoder) AddUint8(k string, v uint8)         { enc.AddUint64(k, uint64(v)) }
 func (enc *jsonEncoder) AddUintptr(k string, v uintptr)     { enc.AddUint64(k, uint64(v)) }
 func (enc *jsonEncoder) AppendComplex64(v complex64)        { enc.AppendComplex128(complex128(v)) }
 func (enc *jsonEncoder) AppendFloat64(v float64)            { enc.appendFloat(v, 64) }
 func (enc *jsonEncoder) AppendFloat32(v float32)            { enc.appendFloat(float64(v), 32) }
 func (enc *jsonEncoder) AppendInt(v int)                    { enc.AppendInt64(int64(v)) }
 func (enc *jsonEncoder) AppendInt32(v int32)                { enc.AppendInt64(int64(v)) }
 func (enc *jsonEncoder) AppendInt16(v int16)                { enc.AppendInt64(int64(v)) }
 func (enc *jsonEncoder) AppendInt8(v int8)                  { enc.AppendInt64(int64(v)) }
 func (enc *jsonEncoder) AppendUint(v uint)                  { enc.AppendUint64(uint64(v)) }
 func (enc *jsonEncoder) AppendUint32(v uint32)              { enc.AppendUint64(uint64(v)) }
 func (enc *jsonEncoder) AppendUint16(v uint16)              { enc.AppendUint64(uint64(v)) }
 func (enc *jsonEncoder) AppendUint8(v uint8)                { enc.AppendUint64(uint64(v)) }
 func (enc *jsonEncoder) AppendUintptr(v uintptr)            { enc.AppendUint64(uint64(v)) }

 func (enc *jsonEncoder) Clone() Encoder {
 	clone := enc.clone()
 	clone.buf.Write(enc.buf.Bytes())
 	return clone
 }

 func (enc *jsonEncoder) clone() *jsonEncoder {
 	clone := getJSONEncoder()
 	clone.EncoderConfig = enc.EncoderConfig
 	clone.spaced = enc.spaced
 	clone.openNamespaces = enc.openNamespaces
 	clone.buf = bufferpool.Get()
 	return clone
 }

 func (enc *jsonEncoder) EncodeEntry(ent Entry, fields []Field) (*buffer.Buffer, error) {
 	final := enc.clone()
 	final.buf.AppendByte('{')

 	if final.LevelKey != "" {
 		final.addKey(final.LevelKey)
 		cur := final.buf.Len()
 		final.EncodeLevel(ent.Level, final)
 		if cur == final.buf.Len() {
 			// User-supplied EncodeLevel was a no-op. Fall back to strings to keep
 			// output JSON valid.
 			final.AppendString(ent.Level.String())
 		}
 	}
 	if final.TimeKey != "" {
 		final.AddTime(final.TimeKey, ent.Time)
 	}
 	if ent.LoggerName != "" && final.NameKey != "" {
 		final.addKey(final.NameKey)
 		cur := final.buf.Len()
 		nameEncoder := final.EncodeName

 		// if no name encoder provided, fall back to FullNameEncoder for backwards
 		// compatibility
 		if nameEncoder == nil {
 			nameEncoder = FullNameEncoder
 		}

 		nameEncoder(ent.LoggerName, final)
 		if cur == final.buf.Len() {
 			// User-supplied EncodeName was a no-op. Fall back to strings to
 			// keep output JSON valid.
 			final.AppendString(ent.LoggerName)
 		}
 	}
 	if ent.Caller.Defined {
 		if final.CallerKey != "" {
 			final.addKey(final.CallerKey)
 			cur := final.buf.Len()
 			final.EncodeCaller(ent.Caller, final)
 			if cur == final.buf.Len() {
 				// User-supplied EncodeCaller was a no-op. Fall back to strings to
 				// keep output JSON valid.
 				final.AppendString(ent.Caller.String())
 			}
 		}
 		if final.FunctionKey != "" {
 			final.addKey(final.FunctionKey)
 			final.AppendString(ent.Caller.Function)
 		}
 	}
 	if final.MessageKey != "" {
 		final.addKey(enc.MessageKey)
 		final.AppendString(ent.Message)
 	}
 	if enc.buf.Len() > 0 {
 		final.addElementSeparator()
 		final.buf.Write(enc.buf.Bytes())
 	}
 	addFields(final, fields)
 	final.closeOpenNamespaces()
 	if ent.Stack != "" && final.StacktraceKey != "" {
 		final.AddString(final.StacktraceKey, ent.Stack)
 	}
 	final.buf.AppendByte('}')
 	if final.LineEnding != "" {
 		final.buf.AppendString(final.LineEnding)
 	} else {
 		final.buf.AppendString(DefaultLineEnding)
 	}

 	ret := final.buf
 	putJSONEncoder(final)
 	return ret, nil
 }

 func (enc *jsonEncoder) truncate() {
 	enc.buf.Reset()
 }

 func (enc *jsonEncoder) closeOpenNamespaces() {
 	for i := 0; i < enc.openNamespaces; i++ {
 		enc.buf.AppendByte('}')
 	}
 }

 func (enc *jsonEncoder) addKey(key string) {
 	enc.addElementSeparator()
 	enc.buf.AppendByte('"')
 	enc.safeAddString(key)
 	enc.buf.AppendByte('"')
 	enc.buf.AppendByte(':')
 	if enc.spaced {
 		enc.buf.AppendByte(' ')
 	}
 }

 func (enc *jsonEncoder) addElementSeparator() {
 	last := enc.buf.Len() - 1
 	if last < 0 {
 		return
 	}
 	switch enc.buf.Bytes()[last] {
 	case '{', '[', ':', ',', ' ':
 		return
 	default:
 		enc.buf.AppendByte(',')
 		if enc.spaced {
 			enc.buf.AppendByte(' ')
 		}
 	}
 }

 func (enc *jsonEncoder) appendFloat(val float64, bitSize int) {
 	enc.addElementSeparator()
 	switch {
 	case math.IsNaN(val):
 		enc.buf.AppendString(`"NaN"`)
 	case math.IsInf(val, 1):
 		enc.buf.AppendString(`"+Inf"`)
 	case math.IsInf(val, -1):
 		enc.buf.AppendString(`"-Inf"`)
 	default:
 		enc.buf.AppendFloat(val, bitSize)
 	}
 }

 // safeAddString JSON-escapes a string and appends it to the internal buffer.
 // Unlike the standard library's encoder, it doesn't attempt to protect the
 // user from browser vulnerabilities or JSONP-related problems.
 func (enc *jsonEncoder) safeAddString(s string) {
 	for i := 0; i < len(s); {
 		if enc.tryAddRuneSelf(s[i]) {
 			i++
 			continue
 		}
 		r, size := utf8.DecodeRuneInString(s[i:])
 		if enc.tryAddRuneError(r, size) {
 			i++
 			continue
 		}
 		enc.buf.AppendString(s[i : i+size])
 		i += size
 	}
 }

 // safeAddByteString is no-alloc equivalent of safeAddString(string(s)) for s []byte.
 func (enc *jsonEncoder) safeAddByteString(s []byte) {
 	for i := 0; i < len(s); {
 		if enc.tryAddRuneSelf(s[i]) {
 			i++
 			continue
 		}
 		r, size := utf8.DecodeRune(s[i:])
 		if enc.tryAddRuneError(r, size) {
 			i++
 			continue
 		}
 		enc.buf.Write(s[i : i+size])
 		i += size
 	}
 }

 // tryAddRuneSelf appends b if it is valid UTF-8 character represented in a single byte.
 func (enc *jsonEncoder) tryAddRuneSelf(b byte) bool {
 	if b >= utf8.RuneSelf {
 		return false
 	}
 	if 0x20 <= b && b != '\\' && b != '"' {
 		enc.buf.AppendByte(b)
 		return true
 	}
 	switch b {
 	case '\\', '"':
 		enc.buf.AppendByte('\\')
 		enc.buf.AppendByte(b)
 	case '\n':
 		enc.buf.AppendByte('\\')
 		enc.buf.AppendByte('n')
 	case '\r':
 		enc.buf.AppendByte('\\')
 		enc.buf.AppendByte('r')
 	case '\t':
 		enc.buf.AppendByte('\\')
 		enc.buf.AppendByte('t')
 	default:
 		// Encode bytes < 0x20, except for the escape sequences above.
 		enc.buf.AppendString(`\u00`)
 		enc.buf.AppendByte(_hex[b>>4])
 		enc.buf.AppendByte(_hex[b&0xF])
 	}
 	return true
 }

 func (enc *jsonEncoder) tryAddRuneError(r rune, size int) bool {
 	if r == utf8.RuneError && size == 1 {
 		enc.buf.AppendString(`\ufffd`)
 		return true
 	}
 	return false
 }
	// Copyright (c) 2016 Uber Technologies, Inc.
	//
	// Permission is hereby granted, free of charge, to any person obtaining a copy
	// of this software and associated documentation files (the "Software"), to deal
	// in the Software without restriction, including without limitation the rights
	// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	// copies of the Software, and to permit persons to whom the Software is
	// furnished to do so, subject to the following conditions:
	//
	// The above copyright notice and this permission notice shall be included in
	// all copies or substantial portions of the Software.
	//
	// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
	// THE SOFTWARE.

	package zapcore

	import (
	"encoding/base64"
	"encoding/json"
	"math"
	"sync"
	"time"
	"unicode/utf8"

	"go.uber.org/zap/buffer"
	"go.uber.org/zap/internal/bufferpool"
	)

	// For JSON-escaping; see jsonEncoder.safeAddString below.
	const _hex = "0123456789abcdef"

	var _jsonPool = sync.Pool{New: func() interface{} {
	return &jsonEncoder{}
	}}

	func getJSONEncoder() *jsonEncoder {
	return _jsonPool.Get().(*jsonEncoder)
	}

	func putJSONEncoder(enc *jsonEncoder) {
	if enc.reflectBuf != nil {
	enc.reflectBuf.Free()
	}
	enc.EncoderConfig = nil
	enc.buf = nil
	enc.spaced = false
	enc.openNamespaces = 0
	enc.reflectBuf = nil
	enc.reflectEnc = nil
	_jsonPool.Put(enc)
	}

	type jsonEncoder struct {
	*EncoderConfig
	buf *buffer.Buffer
	spaced bool // include spaces after colons and commas
	openNamespaces int

	// for encoding generic values by reflection
	reflectBuf *buffer.Buffer
	reflectEnc *json.Encoder
	}

	// NewJSONEncoder creates a fast, low-allocation JSON encoder. The encoder
	// appropriately escapes all field keys and values.
	//
	// Note that the encoder doesn't deduplicate keys, so it's possible to produce
	// a message like
	// {"foo":"bar","foo":"baz"}
	// This is permitted by the JSON specification, but not encouraged. Many
	// libraries will ignore duplicate key-value pairs (typically keeping the last
	// pair) when unmarshaling, but users should attempt to avoid adding duplicate
	// keys.
	func NewJSONEncoder(cfg EncoderConfig) Encoder {
	return newJSONEncoder(cfg, false)
	}

	func newJSONEncoder(cfg EncoderConfig, spaced bool) *jsonEncoder {
	return &jsonEncoder{
	EncoderConfig: &cfg,
	buf: bufferpool.Get(),
	spaced: spaced,
	}
	}

	func (enc *jsonEncoder) AddArray(key string, arr ArrayMarshaler) error {
	enc.addKey(key)
	return enc.AppendArray(arr)
	}

	func (enc *jsonEncoder) AddObject(key string, obj ObjectMarshaler) error {
	enc.addKey(key)
	return enc.AppendObject(obj)
	}

	func (enc *jsonEncoder) AddBinary(key string, val []byte) {
	enc.AddString(key, base64.StdEncoding.EncodeToString(val))
	}

	func (enc *jsonEncoder) AddByteString(key string, val []byte) {
	enc.addKey(key)
	enc.AppendByteString(val)
	}

	func (enc *jsonEncoder) AddBool(key string, val bool) {
	enc.addKey(key)
	enc.AppendBool(val)
	}

	func (enc *jsonEncoder) AddComplex128(key string, val complex128) {
	enc.addKey(key)
	enc.AppendComplex128(val)
	}

	func (enc *jsonEncoder) AddDuration(key string, val time.Duration) {
	enc.addKey(key)
	enc.AppendDuration(val)
	}

	func (enc *jsonEncoder) AddFloat64(key string, val float64) {
	enc.addKey(key)
	enc.AppendFloat64(val)
	}

	func (enc *jsonEncoder) AddInt64(key string, val int64) {
	enc.addKey(key)
	enc.AppendInt64(val)
	}

	func (enc *jsonEncoder) resetReflectBuf() {
	if enc.reflectBuf == nil {
	enc.reflectBuf = bufferpool.Get()
	enc.reflectEnc = json.NewEncoder(enc.reflectBuf)

	// For consistency with our custom JSON encoder.
	enc.reflectEnc.SetEscapeHTML(false)
	} else {
	enc.reflectBuf.Reset()
	}
	}

	var nullLiteralBytes = []byte("null")

	// Only invoke the standard JSON encoder if there is actually something to
	// encode; otherwise write JSON null literal directly.
	func (enc *jsonEncoder) encodeReflected(obj interface{}) ([]byte, error) {
	if obj == nil {
	return nullLiteralBytes, nil
	}
	enc.resetReflectBuf()
	if err := enc.reflectEnc.Encode(obj); err != nil {
	return nil, err
	}
	enc.reflectBuf.TrimNewline()
	return enc.reflectBuf.Bytes(), nil
	}

	func (enc *jsonEncoder) AddReflected(key string, obj interface{}) error {
	valueBytes, err := enc.encodeReflected(obj)
	if err != nil {
	return err
	}
	enc.addKey(key)
	_, err = enc.buf.Write(valueBytes)
	return err
	}

	func (enc *jsonEncoder) OpenNamespace(key string) {
	enc.addKey(key)
	enc.buf.AppendByte('{')
	enc.openNamespaces++
	}

	func (enc *jsonEncoder) AddString(key, val string) {
	enc.addKey(key)
	enc.AppendString(val)
	}

	func (enc *jsonEncoder) AddTime(key string, val time.Time) {
	enc.addKey(key)
	enc.AppendTime(val)
	}

	func (enc *jsonEncoder) AddUint64(key string, val uint64) {
	enc.addKey(key)
	enc.AppendUint64(val)
	}

	func (enc *jsonEncoder) AppendArray(arr ArrayMarshaler) error {
	enc.addElementSeparator()
	enc.buf.AppendByte('[')
	err := arr.MarshalLogArray(enc)
	enc.buf.AppendByte(']')
	return err
	}

	func (enc *jsonEncoder) AppendObject(obj ObjectMarshaler) error {
	enc.addElementSeparator()
	enc.buf.AppendByte('{')
	err := obj.MarshalLogObject(enc)
	enc.buf.AppendByte('}')
	return err
	}

	func (enc *jsonEncoder) AppendBool(val bool) {
	enc.addElementSeparator()
	enc.buf.AppendBool(val)
	}

	func (enc *jsonEncoder) AppendByteString(val []byte) {
	enc.addElementSeparator()
	enc.buf.AppendByte('"')
	enc.safeAddByteString(val)
	enc.buf.AppendByte('"')
	}

	func (enc *jsonEncoder) AppendComplex128(val complex128) {
	enc.addElementSeparator()
	// Cast to a platform-independent, fixed-size type.
	r, i := float64(real(val)), float64(imag(val))
	enc.buf.AppendByte('"')
	// Because we're always in a quoted string, we can use strconv without
	// special-casing NaN and +/-Inf.
	enc.buf.AppendFloat(r, 64)
	enc.buf.AppendByte('+')
	enc.buf.AppendFloat(i, 64)
	enc.buf.AppendByte('i')
	enc.buf.AppendByte('"')
	}

	func (enc *jsonEncoder) AppendDuration(val time.Duration) {
	cur := enc.buf.Len()
	if e := enc.EncodeDuration; e != nil {
	e(val, enc)
	}
	if cur == enc.buf.Len() {
	// User-supplied EncodeDuration is a no-op. Fall back to nanoseconds to keep
	// JSON valid.
	enc.AppendInt64(int64(val))
	}
	}

	func (enc *jsonEncoder) AppendInt64(val int64) {
	enc.addElementSeparator()
	enc.buf.AppendInt(val)
	}

	func (enc *jsonEncoder) AppendReflected(val interface{}) error {
	valueBytes, err := enc.encodeReflected(val)
	if err != nil {
	return err
	}
	enc.addElementSeparator()
	_, err = enc.buf.Write(valueBytes)
	return err
	}

	func (enc *jsonEncoder) AppendString(val string) {
	enc.addElementSeparator()
	enc.buf.AppendByte('"')
	enc.safeAddString(val)
	enc.buf.AppendByte('"')
	}

	func (enc *jsonEncoder) AppendTimeLayout(time time.Time, layout string) {
	enc.addElementSeparator()
	enc.buf.AppendByte('"')
	enc.buf.AppendTime(time, layout)
	enc.buf.AppendByte('"')
	}

	func (enc *jsonEncoder) AppendTime(val time.Time) {
	cur := enc.buf.Len()
	if e := enc.EncodeTime; e != nil {
	e(val, enc)
	}
	if cur == enc.buf.Len() {
	// User-supplied EncodeTime is a no-op. Fall back to nanos since epoch to keep
	// output JSON valid.
	enc.AppendInt64(val.UnixNano())
	}
	}

	func (enc *jsonEncoder) AppendUint64(val uint64) {
	enc.addElementSeparator()
	enc.buf.AppendUint(val)
	}

	func (enc *jsonEncoder) AddComplex64(k string, v complex64) { enc.AddComplex128(k, complex128(v)) }
	func (enc *jsonEncoder) AddFloat32(k string, v float32) { enc.AddFloat64(k, float64(v)) }
	func (enc *jsonEncoder) AddInt(k string, v int) { enc.AddInt64(k, int64(v)) }
	func (enc *jsonEncoder) AddInt32(k string, v int32) { enc.AddInt64(k, int64(v)) }
	func (enc *jsonEncoder) AddInt16(k string, v int16) { enc.AddInt64(k, int64(v)) }
	func (enc *jsonEncoder) AddInt8(k string, v int8) { enc.AddInt64(k, int64(v)) }
	func (enc *jsonEncoder) AddUint(k string, v uint) { enc.AddUint64(k, uint64(v)) }
	func (enc *jsonEncoder) AddUint32(k string, v uint32) { enc.AddUint64(k, uint64(v)) }
	func (enc *jsonEncoder) AddUint16(k string, v uint16) { enc.AddUint64(k, uint64(v)) }
	func (enc *jsonEncoder) AddUint8(k string, v uint8) { enc.AddUint64(k, uint64(v)) }
	func (enc *jsonEncoder) AddUintptr(k string, v uintptr) { enc.AddUint64(k, uint64(v)) }
	func (enc *jsonEncoder) AppendComplex64(v complex64) { enc.AppendComplex128(complex128(v)) }
	func (enc *jsonEncoder) AppendFloat64(v float64) { enc.appendFloat(v, 64) }
	func (enc *jsonEncoder) AppendFloat32(v float32) { enc.appendFloat(float64(v), 32) }
	func (enc *jsonEncoder) AppendInt(v int) { enc.AppendInt64(int64(v)) }
	func (enc *jsonEncoder) AppendInt32(v int32) { enc.AppendInt64(int64(v)) }
	func (enc *jsonEncoder) AppendInt16(v int16) { enc.AppendInt64(int64(v)) }
	func (enc *jsonEncoder) AppendInt8(v int8) { enc.AppendInt64(int64(v)) }
	func (enc *jsonEncoder) AppendUint(v uint) { enc.AppendUint64(uint64(v)) }
	func (enc *jsonEncoder) AppendUint32(v uint32) { enc.AppendUint64(uint64(v)) }
	func (enc *jsonEncoder) AppendUint16(v uint16) { enc.AppendUint64(uint64(v)) }
	func (enc *jsonEncoder) AppendUint8(v uint8) { enc.AppendUint64(uint64(v)) }
	func (enc *jsonEncoder) AppendUintptr(v uintptr) { enc.AppendUint64(uint64(v)) }

	func (enc *jsonEncoder) Clone() Encoder {
	clone := enc.clone()
	clone.buf.Write(enc.buf.Bytes())
	return clone
	}

	func (enc jsonEncoder) clone() jsonEncoder {
	clone := getJSONEncoder()
	clone.EncoderConfig = enc.EncoderConfig
	clone.spaced = enc.spaced
	clone.openNamespaces = enc.openNamespaces
	clone.buf = bufferpool.Get()
	return clone
	}

	func (enc jsonEncoder) EncodeEntry(ent Entry, fields []Field) (buffer.Buffer, error) {
	final := enc.clone()
	final.buf.AppendByte('{')

	if final.LevelKey != "" {
	final.addKey(final.LevelKey)
	cur := final.buf.Len()
	final.EncodeLevel(ent.Level, final)
	if cur == final.buf.Len() {
	// User-supplied EncodeLevel was a no-op. Fall back to strings to keep
	// output JSON valid.
	final.AppendString(ent.Level.String())
	}
	}
	if final.TimeKey != "" {
	final.AddTime(final.TimeKey, ent.Time)
	}
	if ent.LoggerName != "" && final.NameKey != "" {
	final.addKey(final.NameKey)
	cur := final.buf.Len()
	nameEncoder := final.EncodeName

	// if no name encoder provided, fall back to FullNameEncoder for backwards
	// compatibility
	if nameEncoder == nil {
	nameEncoder = FullNameEncoder
	}

	nameEncoder(ent.LoggerName, final)
	if cur == final.buf.Len() {
	// User-supplied EncodeName was a no-op. Fall back to strings to
	// keep output JSON valid.
	final.AppendString(ent.LoggerName)
	}
	}
	if ent.Caller.Defined {
	if final.CallerKey != "" {
	final.addKey(final.CallerKey)
	cur := final.buf.Len()
	final.EncodeCaller(ent.Caller, final)
	if cur == final.buf.Len() {
	// User-supplied EncodeCaller was a no-op. Fall back to strings to
	// keep output JSON valid.
	final.AppendString(ent.Caller.String())
	}
	}
	if final.FunctionKey != "" {
	final.addKey(final.FunctionKey)
	final.AppendString(ent.Caller.Function)
	}
	}
	if final.MessageKey != "" {
	final.addKey(enc.MessageKey)
	final.AppendString(ent.Message)
	}
	if enc.buf.Len() > 0 {
	final.addElementSeparator()
	final.buf.Write(enc.buf.Bytes())
	}
	addFields(final, fields)
	final.closeOpenNamespaces()
	if ent.Stack != "" && final.StacktraceKey != "" {
	final.AddString(final.StacktraceKey, ent.Stack)
	}
	final.buf.AppendByte('}')
	if final.LineEnding != "" {
	final.buf.AppendString(final.LineEnding)
	} else {
	final.buf.AppendString(DefaultLineEnding)
	}

	ret := final.buf
	putJSONEncoder(final)
	return ret, nil
	}

	func (enc *jsonEncoder) truncate() {
	enc.buf.Reset()
	}

	func (enc *jsonEncoder) closeOpenNamespaces() {
	for i := 0; i < enc.openNamespaces; i++ {
	enc.buf.AppendByte('}')
	}
	}

	func (enc *jsonEncoder) addKey(key string) {
	enc.addElementSeparator()
	enc.buf.AppendByte('"')
	enc.safeAddString(key)
	enc.buf.AppendByte('"')
	enc.buf.AppendByte(':')
	if enc.spaced {
	enc.buf.AppendByte(' ')
	}
	}

	func (enc *jsonEncoder) addElementSeparator() {
	last := enc.buf.Len() - 1
	if last < 0 {
	return
	}
	switch enc.buf.Bytes()[last] {
	case '{', '[', ':', ',', ' ':
	return
	default:
	enc.buf.AppendByte(',')
	if enc.spaced {
	enc.buf.AppendByte(' ')
	}
	}
	}

	func (enc *jsonEncoder) appendFloat(val float64, bitSize int) {
	enc.addElementSeparator()
	switch {
	case math.IsNaN(val):
	enc.buf.AppendString(`"NaN"`)
	case math.IsInf(val, 1):
	enc.buf.AppendString(`"+Inf"`)
	case math.IsInf(val, -1):
	enc.buf.AppendString(`"-Inf"`)
	default:
	enc.buf.AppendFloat(val, bitSize)
	}
	}

	// safeAddString JSON-escapes a string and appends it to the internal buffer.
	// Unlike the standard library's encoder, it doesn't attempt to protect the
	// user from browser vulnerabilities or JSONP-related problems.
	func (enc *jsonEncoder) safeAddString(s string) {
	for i := 0; i < len(s); {
	if enc.tryAddRuneSelf(s[i]) {
	i++
	continue
	}
	r, size := utf8.DecodeRuneInString(s[i:])
	if enc.tryAddRuneError(r, size) {
	i++
	continue
	}
	enc.buf.AppendString(s[i : i+size])
	i += size
	}
	}

	// safeAddByteString is no-alloc equivalent of safeAddString(string(s)) for s []byte.
	func (enc *jsonEncoder) safeAddByteString(s []byte) {
	for i := 0; i < len(s); {
	if enc.tryAddRuneSelf(s[i]) {
	i++
	continue
	}
	r, size := utf8.DecodeRune(s[i:])
	if enc.tryAddRuneError(r, size) {
	i++
	continue
	}
	enc.buf.Write(s[i : i+size])
	i += size
	}
	}

	// tryAddRuneSelf appends b if it is valid UTF-8 character represented in a single byte.
	func (enc *jsonEncoder) tryAddRuneSelf(b byte) bool {
	if b >= utf8.RuneSelf {
	return false
	}
	if 0x20 <= b && b != '\\' && b != '"' {
	enc.buf.AppendByte(b)
	return true
	}
	switch b {
	case '\\', '"':
	enc.buf.AppendByte('\\')
	enc.buf.AppendByte(b)
	case '\n':
	enc.buf.AppendByte('\\')
	enc.buf.AppendByte('n')
	case '\r':
	enc.buf.AppendByte('\\')
	enc.buf.AppendByte('r')
	case '\t':
	enc.buf.AppendByte('\\')
	enc.buf.AppendByte('t')
	default:
	// Encode bytes < 0x20, except for the escape sequences above.
	enc.buf.AppendString(`\u00`)
	enc.buf.AppendByte(_hex[b>>4])
	enc.buf.AppendByte(_hex[b&0xF])
	}
	return true
	}

	func (enc *jsonEncoder) tryAddRuneError(r rune, size int) bool {
	if r == utf8.RuneError && size == 1 {
	enc.buf.AppendString(`\ufffd`)
	return true
	}
	return false
	}