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gjson.go
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gjson.go
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// Package gjson provides searching for json strings.
package gjson
import (
"strconv"
"strings"
"time"
"unicode/utf16"
"unicode/utf8"
"unsafe"
"github.com/tidwall/match"
"github.com/tidwall/pretty"
)
// Type is Result type
type Type int
const (
// Null is a null json value
Null Type = iota
// False is a json false boolean
False
// Number is json number
Number
// String is a json string
String
// True is a json true boolean
True
// JSON is a raw block of JSON
JSON
)
// String returns a string representation of the type.
func (t Type) String() string {
switch t {
default:
return ""
case Null:
return "Null"
case False:
return "False"
case Number:
return "Number"
case String:
return "String"
case True:
return "True"
case JSON:
return "JSON"
}
}
// Result represents a json value that is returned from Get().
type Result struct {
// Type is the json type
Type Type
// Raw is the raw json
Raw string
// Str is the json string
Str string
// Num is the json number
Num float64
// Index of raw value in original json, zero means index unknown
Index int
// Indexes of all the elements that match on a path containing the '#'
// query character.
Indexes []int
}
// String returns a string representation of the value.
func (t Result) String() string {
switch t.Type {
default:
return ""
case False:
return "false"
case Number:
if len(t.Raw) == 0 {
// calculated result
return strconv.FormatFloat(t.Num, 'f', -1, 64)
}
var i int
if t.Raw[0] == '-' {
i++
}
for ; i < len(t.Raw); i++ {
if t.Raw[i] < '0' || t.Raw[i] > '9' {
return strconv.FormatFloat(t.Num, 'f', -1, 64)
}
}
return t.Raw
case String:
return t.Str
case JSON:
return t.Raw
case True:
return "true"
}
}
// Bool returns an boolean representation.
func (t Result) Bool() bool {
switch t.Type {
default:
return false
case True:
return true
case String:
b, _ := strconv.ParseBool(strings.ToLower(t.Str))
return b
case Number:
return t.Num != 0
}
}
// Int returns an integer representation.
func (t Result) Int() int64 {
switch t.Type {
default:
return 0
case True:
return 1
case String:
n, _ := parseInt(t.Str)
return n
case Number:
// try to directly convert the float64 to int64
i, ok := safeInt(t.Num)
if ok {
return i
}
// now try to parse the raw string
i, ok = parseInt(t.Raw)
if ok {
return i
}
// fallback to a standard conversion
return int64(t.Num)
}
}
// Uint returns an unsigned integer representation.
func (t Result) Uint() uint64 {
switch t.Type {
default:
return 0
case True:
return 1
case String:
n, _ := parseUint(t.Str)
return n
case Number:
// try to directly convert the float64 to uint64
i, ok := safeInt(t.Num)
if ok && i >= 0 {
return uint64(i)
}
// now try to parse the raw string
u, ok := parseUint(t.Raw)
if ok {
return u
}
// fallback to a standard conversion
return uint64(t.Num)
}
}
// Float returns an float64 representation.
func (t Result) Float() float64 {
switch t.Type {
default:
return 0
case True:
return 1
case String:
n, _ := strconv.ParseFloat(t.Str, 64)
return n
case Number:
return t.Num
}
}
// Time returns a time.Time representation.
func (t Result) Time() time.Time {
res, _ := time.Parse(time.RFC3339, t.String())
return res
}
// Array returns back an array of values.
// If the result represents a null value or is non-existent, then an empty
// array will be returned.
// If the result is not a JSON array, the return value will be an
// array containing one result.
func (t Result) Array() []Result {
if t.Type == Null {
return []Result{}
}
if !t.IsArray() {
return []Result{t}
}
r := t.arrayOrMap('[', false)
return r.a
}
// IsObject returns true if the result value is a JSON object.
func (t Result) IsObject() bool {
return t.Type == JSON && len(t.Raw) > 0 && t.Raw[0] == '{'
}
// IsArray returns true if the result value is a JSON array.
func (t Result) IsArray() bool {
return t.Type == JSON && len(t.Raw) > 0 && t.Raw[0] == '['
}
// IsBool returns true if the result value is a JSON boolean.
func (t Result) IsBool() bool {
return t.Type == True || t.Type == False
}
// ForEach iterates through values.
// If the result represents a non-existent value, then no values will be
// iterated. If the result is an Object, the iterator will pass the key and
// value of each item. If the result is an Array, the iterator will only pass
// the value of each item. If the result is not a JSON array or object, the
// iterator will pass back one value equal to the result.
func (t Result) ForEach(iterator func(key, value Result) bool) {
if !t.Exists() {
return
}
if t.Type != JSON {
iterator(Result{}, t)
return
}
json := t.Raw
var obj bool
var i int
var key, value Result
for ; i < len(json); i++ {
if json[i] == '{' {
i++
key.Type = String
obj = true
break
} else if json[i] == '[' {
i++
key.Type = Number
key.Num = -1
break
}
if json[i] > ' ' {
return
}
}
var str string
var vesc bool
var ok bool
var idx int
for ; i < len(json); i++ {
if obj {
if json[i] != '"' {
continue
}
s := i
i, str, vesc, ok = parseString(json, i+1)
if !ok {
return
}
if vesc {
key.Str = unescape(str[1 : len(str)-1])
} else {
key.Str = str[1 : len(str)-1]
}
key.Raw = str
key.Index = s + t.Index
} else {
key.Num += 1
}
for ; i < len(json); i++ {
if json[i] <= ' ' || json[i] == ',' || json[i] == ':' {
continue
}
break
}
s := i
i, value, ok = parseAny(json, i, true)
if !ok {
return
}
if t.Indexes != nil {
if idx < len(t.Indexes) {
value.Index = t.Indexes[idx]
}
} else {
value.Index = s + t.Index
}
if !iterator(key, value) {
return
}
idx++
}
}
// Map returns back a map of values. The result should be a JSON object.
// If the result is not a JSON object, the return value will be an empty map.
func (t Result) Map() map[string]Result {
if t.Type != JSON {
return map[string]Result{}
}
r := t.arrayOrMap('{', false)
return r.o
}
// Get searches result for the specified path.
// The result should be a JSON array or object.
func (t Result) Get(path string) Result {
r := Get(t.Raw, path)
if r.Indexes != nil {
for i := 0; i < len(r.Indexes); i++ {
r.Indexes[i] += t.Index
}
} else {
r.Index += t.Index
}
return r
}
type arrayOrMapResult struct {
a []Result
ai []interface{}
o map[string]Result
oi map[string]interface{}
vc byte
}
func (t Result) arrayOrMap(vc byte, valueize bool) (r arrayOrMapResult) {
var json = t.Raw
var i int
var value Result
var count int
var key Result
if vc == 0 {
for ; i < len(json); i++ {
if json[i] == '{' || json[i] == '[' {
r.vc = json[i]
i++
break
}
if json[i] > ' ' {
goto end
}
}
} else {
for ; i < len(json); i++ {
if json[i] == vc {
i++
break
}
if json[i] > ' ' {
goto end
}
}
r.vc = vc
}
if r.vc == '{' {
if valueize {
r.oi = make(map[string]interface{})
} else {
r.o = make(map[string]Result)
}
} else {
if valueize {
r.ai = make([]interface{}, 0)
} else {
r.a = make([]Result, 0)
}
}
for ; i < len(json); i++ {
if json[i] <= ' ' {
continue
}
// get next value
if json[i] == ']' || json[i] == '}' {
break
}
switch json[i] {
default:
if (json[i] >= '0' && json[i] <= '9') || json[i] == '-' {
value.Type = Number
value.Raw, value.Num = tonum(json[i:])
value.Str = ""
} else {
continue
}
case '{', '[':
value.Type = JSON
value.Raw = squash(json[i:])
value.Str, value.Num = "", 0
case 'n':
value.Type = Null
value.Raw = tolit(json[i:])
value.Str, value.Num = "", 0
case 't':
value.Type = True
value.Raw = tolit(json[i:])
value.Str, value.Num = "", 0
case 'f':
value.Type = False
value.Raw = tolit(json[i:])
value.Str, value.Num = "", 0
case '"':
value.Type = String
value.Raw, value.Str = tostr(json[i:])
value.Num = 0
}
value.Index = i + t.Index
i += len(value.Raw) - 1
if r.vc == '{' {
if count%2 == 0 {
key = value
} else {
if valueize {
if _, ok := r.oi[key.Str]; !ok {
r.oi[key.Str] = value.Value()
}
} else {
if _, ok := r.o[key.Str]; !ok {
r.o[key.Str] = value
}
}
}
count++
} else {
if valueize {
r.ai = append(r.ai, value.Value())
} else {
r.a = append(r.a, value)
}
}
}
end:
if t.Indexes != nil {
if len(t.Indexes) != len(r.a) {
for i := 0; i < len(r.a); i++ {
r.a[i].Index = 0
}
} else {
for i := 0; i < len(r.a); i++ {
r.a[i].Index = t.Indexes[i]
}
}
}
return
}
// Parse parses the json and returns a result.
//
// This function expects that the json is well-formed, and does not validate.
// Invalid json will not panic, but it may return back unexpected results.
// If you are consuming JSON from an unpredictable source then you may want to
// use the Valid function first.
func Parse(json string) Result {
var value Result
i := 0
for ; i < len(json); i++ {
if json[i] == '{' || json[i] == '[' {
value.Type = JSON
value.Raw = json[i:] // just take the entire raw
break
}
if json[i] <= ' ' {
continue
}
switch json[i] {
case '+', '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'i', 'I', 'N':
value.Type = Number
value.Raw, value.Num = tonum(json[i:])
case 'n':
if i+1 < len(json) && json[i+1] != 'u' {
// nan
value.Type = Number
value.Raw, value.Num = tonum(json[i:])
} else {
// null
value.Type = Null
value.Raw = tolit(json[i:])
}
case 't':
value.Type = True
value.Raw = tolit(json[i:])
case 'f':
value.Type = False
value.Raw = tolit(json[i:])
case '"':
value.Type = String
value.Raw, value.Str = tostr(json[i:])
default:
return Result{}
}
break
}
if value.Exists() {
value.Index = i
}
return value
}
// ParseBytes parses the json and returns a result.
// If working with bytes, this method preferred over Parse(string(data))
func ParseBytes(json []byte) Result {
return Parse(string(json))
}
func squash(json string) string {
// expects that the lead character is a '[' or '{' or '(' or '"'
// squash the value, ignoring all nested arrays and objects.
var i, depth int
if json[0] != '"' {
i, depth = 1, 1
}
for ; i < len(json); i++ {
if json[i] >= '"' && json[i] <= '}' {
switch json[i] {
case '"':
i++
s2 := i
for ; i < len(json); i++ {
if json[i] > '\\' {
continue
}
if json[i] == '"' {
// look for an escaped slash
if json[i-1] == '\\' {
n := 0
for j := i - 2; j > s2-1; j-- {
if json[j] != '\\' {
break
}
n++
}
if n%2 == 0 {
continue
}
}
break
}
}
if depth == 0 {
if i >= len(json) {
return json
}
return json[:i+1]
}
case '{', '[', '(':
depth++
case '}', ']', ')':
depth--
if depth == 0 {
return json[:i+1]
}
}
}
}
return json
}
func tonum(json string) (raw string, num float64) {
for i := 1; i < len(json); i++ {
// less than dash might have valid characters
if json[i] <= '-' {
if json[i] <= ' ' || json[i] == ',' {
// break on whitespace and comma
raw = json[:i]
num, _ = strconv.ParseFloat(raw, 64)
return
}
// could be a '+' or '-'. let's assume so.
} else if json[i] == ']' || json[i] == '}' {
// break on ']' or '}'
raw = json[:i]
num, _ = strconv.ParseFloat(raw, 64)
return
}
}
raw = json
num, _ = strconv.ParseFloat(raw, 64)
return
}
func tolit(json string) (raw string) {
for i := 1; i < len(json); i++ {
if json[i] < 'a' || json[i] > 'z' {
return json[:i]
}
}
return json
}
func tostr(json string) (raw string, str string) {
// expects that the lead character is a '"'
for i := 1; i < len(json); i++ {
if json[i] > '\\' {
continue
}
if json[i] == '"' {
return json[:i+1], json[1:i]
}
if json[i] == '\\' {
i++
for ; i < len(json); i++ {
if json[i] > '\\' {
continue
}
if json[i] == '"' {
// look for an escaped slash
if json[i-1] == '\\' {
n := 0
for j := i - 2; j > 0; j-- {
if json[j] != '\\' {
break
}
n++
}
if n%2 == 0 {
continue
}
}
return json[:i+1], unescape(json[1:i])
}
}
var ret string
if i+1 < len(json) {
ret = json[:i+1]
} else {
ret = json[:i]
}
return ret, unescape(json[1:i])
}
}
return json, json[1:]
}
// Exists returns true if value exists.
//
// if gjson.Get(json, "name.last").Exists(){
// println("value exists")
// }
func (t Result) Exists() bool {
return t.Type != Null || len(t.Raw) != 0
}
// Value returns one of these types:
//
// bool, for JSON booleans
// float64, for JSON numbers
// Number, for JSON numbers
// string, for JSON string literals
// nil, for JSON null
// map[string]interface{}, for JSON objects
// []interface{}, for JSON arrays
//
func (t Result) Value() interface{} {
if t.Type == String {
return t.Str
}
switch t.Type {
default:
return nil
case False:
return false
case Number:
return t.Num
case JSON:
r := t.arrayOrMap(0, true)
if r.vc == '{' {
return r.oi
} else if r.vc == '[' {
return r.ai
}
return nil
case True:
return true
}
}
func parseString(json string, i int) (int, string, bool, bool) {
var s = i
for ; i < len(json); i++ {
if json[i] > '\\' {
continue
}
if json[i] == '"' {
return i + 1, json[s-1 : i+1], false, true
}
if json[i] == '\\' {
i++
for ; i < len(json); i++ {
if json[i] > '\\' {
continue
}
if json[i] == '"' {
// look for an escaped slash
if json[i-1] == '\\' {
n := 0
for j := i - 2; j > 0; j-- {
if json[j] != '\\' {
break
}
n++
}
if n%2 == 0 {
continue
}
}
return i + 1, json[s-1 : i+1], true, true
}
}
break
}
}
return i, json[s-1:], false, false
}
func parseNumber(json string, i int) (int, string) {
var s = i
i++
for ; i < len(json); i++ {
if json[i] <= ' ' || json[i] == ',' || json[i] == ']' ||
json[i] == '}' {
return i, json[s:i]
}
}
return i, json[s:]
}
func parseLiteral(json string, i int) (int, string) {
var s = i
i++
for ; i < len(json); i++ {
if json[i] < 'a' || json[i] > 'z' {
return i, json[s:i]
}
}
return i, json[s:]
}
type arrayPathResult struct {
part string
path string
pipe string
piped bool
more bool
alogok bool
arrch bool
alogkey string
query struct {
on bool
all bool
path string
op string
value string
}
}
func parseArrayPath(path string) (r arrayPathResult) {
for i := 0; i < len(path); i++ {
if path[i] == '|' {
r.part = path[:i]
r.pipe = path[i+1:]
r.piped = true
return
}
if path[i] == '.' {
r.part = path[:i]
if !r.arrch && i < len(path)-1 && isDotPiperChar(path[i+1:]) {
r.pipe = path[i+1:]
r.piped = true
} else {
r.path = path[i+1:]
r.more = true
}
return
}
if path[i] == '#' {
r.arrch = true
if i == 0 && len(path) > 1 {
if path[1] == '.' {
r.alogok = true
r.alogkey = path[2:]
r.path = path[:1]
} else if path[1] == '[' || path[1] == '(' {
// query
r.query.on = true
qpath, op, value, _, fi, vesc, ok :=
parseQuery(path[i:])
if !ok {
// bad query, end now
break
}
if len(value) >= 2 && value[0] == '"' &&
value[len(value)-1] == '"' {
value = value[1 : len(value)-1]
if vesc {
value = unescape(value)
}
}
r.query.path = qpath
r.query.op = op
r.query.value = value
i = fi - 1
if i+1 < len(path) && path[i+1] == '#' {
r.query.all = true
}
}
}
continue
}
}
r.part = path
r.path = ""
return
}
// splitQuery takes a query and splits it into three parts:
// path, op, middle, and right.
// So for this query:
// #(first_name=="Murphy").last
// Becomes
// first_name # path
// =="Murphy" # middle
// .last # right
// Or,
// #(service_roles.#(=="one")).cap
// Becomes
// service_roles.#(=="one") # path
// # middle
// .cap # right
func parseQuery(query string) (
path, op, value, remain string, i int, vesc, ok bool,
) {
if len(query) < 2 || query[0] != '#' ||
(query[1] != '(' && query[1] != '[') {
return "", "", "", "", i, false, false
}
i = 2
j := 0 // start of value part
depth := 1
for ; i < len(query); i++ {
if depth == 1 && j == 0 {
switch query[i] {
case '!', '=', '<', '>', '%':
// start of the value part
j = i
continue
}
}
if query[i] == '\\' {
i++
} else if query[i] == '[' || query[i] == '(' {
depth++
} else if query[i] == ']' || query[i] == ')' {
depth--
if depth == 0 {
break
}
} else if query[i] == '"' {
// inside selector string, balance quotes
i++
for ; i < len(query); i++ {
if query[i] == '\\' {
vesc = true
i++
} else if query[i] == '"' {
break
}
}
}
}
if depth > 0 {
return "", "", "", "", i, false, false
}
if j > 0 {
path = trim(query[2:j])
value = trim(query[j:i])
remain = query[i+1:]
// parse the compare op from the value
var opsz int
switch {
case len(value) == 1:
opsz = 1
case value[0] == '!' && value[1] == '=':
opsz = 2
case value[0] == '!' && value[1] == '%':
opsz = 2
case value[0] == '<' && value[1] == '=':
opsz = 2
case value[0] == '>' && value[1] == '=':
opsz = 2
case value[0] == '=' && value[1] == '=':
value = value[1:]
opsz = 1
case value[0] == '<':
opsz = 1
case value[0] == '>':
opsz = 1
case value[0] == '=':
opsz = 1
case value[0] == '%':
opsz = 1
}
op = value[:opsz]
value = trim(value[opsz:])
} else {
path = trim(query[2:i])
remain = query[i+1:]
}
return path, op, value, remain, i + 1, vesc, true
}
func trim(s string) string {
left:
if len(s) > 0 && s[0] <= ' ' {
s = s[1:]
goto left
}
right:
if len(s) > 0 && s[len(s)-1] <= ' ' {
s = s[:len(s)-1]
goto right
}
return s
}
// peek at the next byte and see if it's a '@', '[', or '{'.
func isDotPiperChar(s string) bool {
if DisableModifiers {
return false
}
c := s[0]
if c == '@' {
// check that the next component is *not* a modifier.
i := 1
for ; i < len(s); i++ {
if s[i] == '.' || s[i] == '|' || s[i] == ':' {
break
}
}
_, ok := modifiers[s[1:i]]
return ok
}
return c == '[' || c == '{'
}
type objectPathResult struct {
part string
path string
pipe string
piped bool
wild bool
more bool
}
func parseObjectPath(path string) (r objectPathResult) {
for i := 0; i < len(path); i++ {
if path[i] == '|' {
r.part = path[:i]
r.pipe = path[i+1:]
r.piped = true
return
}
if path[i] == '.' {
r.part = path[:i]
if i < len(path)-1 && isDotPiperChar(path[i+1:]) {
r.pipe = path[i+1:]
r.piped = true
} else {
r.path = path[i+1:]
r.more = true
}
return
}
if path[i] == '*' || path[i] == '?' {
r.wild = true
continue
}
if path[i] == '\\' {
// go into escape mode. this is a slower path that
// strips off the escape character from the part.
epart := []byte(path[:i])
i++
if i < len(path) {
epart = append(epart, path[i])
i++
for ; i < len(path); i++ {
if path[i] == '\\' {
i++