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dendrite/gjson/gjson.go
Kegan Dougal ab81b95eae Fork gjson to allow us to enforce auth checks as before 
Previously, all events would come down redacted because the hash
checks would fail. They would fail because sjson.DeleteBytes didn't
remove keys not used for hashing. This didn't work because of a build
tag which included a file which no-oped the index returned.

See https://github.com/tidwall/gjson/issues/157

When it's resolved, let's go back to mainline.
2020-02-28 12:01:34 +00:00

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// Package gjson provides searching for json strings.
package gjson
import (
"encoding/json"
"strconv"
"strings"
"time"
"unicode/utf16"
"unicode/utf8"
"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
}
// 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:
return t.Str != "" && t.Str != "0" && t.Str != "false"
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
n, ok := floatToInt(t.Num)
if !ok {
// now try to parse the raw string
n, ok = parseInt(t.Raw)
if !ok {
// fallback to a standard conversion
return int64(t.Num)
}
}
return n
}
}
// 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
n, ok := floatToUint(t.Num)
if !ok {
// now try to parse the raw string
n, ok = parseUint(t.Raw)
if !ok {
// fallback to a standard conversion
return uint64(t.Num)
}
}
return n
}
}
// 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 non-existent value, 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.Type != JSON {
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] == '['
}
// 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 keys bool
var i int
var key, value Result
for ; i < len(json); i++ {
if json[i] == '{' {
i++
key.Type = String
keys = true
break
} else if json[i] == '[' {
i++
break
}
if json[i] > ' ' {
return
}
}
var str string
var vesc bool
var ok bool
for ; i < len(json); i++ {
if keys {
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
}
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
}
value.Index = s
if !iterator(key, value) {
return
}
}
}
// Map returns back an map of values. The result should be a JSON array.
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 {
return Get(t.Raw, path)
}
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
}
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:
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
for i := 0; 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] {
default:
if (json[i] >= '0' && json[i] <= '9') || json[i] == '-' {
value.Type = Number
value.Raw, value.Num = tonum(json[i:])
} else {
return Result{}
}
case 'n':
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:])
}
break
}
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 {
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.
continue
}
if json[i] < ']' {
// probably a valid number
continue
}
if json[i] == 'e' || json[i] == 'E' {
// allow for exponential numbers
continue
}
// likely a ']' 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
}
}
break
}
}
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
path string
op string
value string
all bool
}
}
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]
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
if true {
qpath, op, value, _, fi, ok := parseQuery(path[i:])
if !ok {
// bad query, end now
break
}
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
}
} else {
var end byte
if path[1] == '[' {
end = ']'
} else {
end = ')'
}
i += 2
// whitespace
for ; i < len(path); i++ {
if path[i] > ' ' {
break
}
}
s := i
for ; i < len(path); i++ {
if path[i] <= ' ' ||
path[i] == '!' ||
path[i] == '=' ||
path[i] == '<' ||
path[i] == '>' ||
path[i] == '%' ||
path[i] == end {
break
}
}
r.query.path = path[s:i]
// whitespace
for ; i < len(path); i++ {
if path[i] > ' ' {
break
}
}
if i < len(path) {
s = i
if path[i] == '!' {
if i < len(path)-1 && (path[i+1] == '=' ||
path[i+1] == '%') {
i++
}
} else if path[i] == '<' || path[i] == '>' {
if i < len(path)-1 && path[i+1] == '=' {
i++
}
} else if path[i] == '=' {
if i < len(path)-1 && path[i+1] == '=' {
s++
i++
}
}
i++
r.query.op = path[s:i]
// whitespace
for ; i < len(path); i++ {
if path[i] > ' ' {
break
}
}
s = i
for ; i < len(path); i++ {
if path[i] == '"' {
i++
s2 := i
for ; i < len(path); i++ {
if path[i] > '\\' {
continue
}
if path[i] == '"' {
// look for an escaped slash
if path[i-1] == '\\' {
n := 0
for j := i - 2; j > s2-1; j-- {
if path[j] != '\\' {
break
}
n++
}
if n%2 == 0 {
continue
}
}
break
}
}
} else if path[i] == end {
if i+1 < len(path) && path[i+1] == '#' {
r.query.all = true
}
break
}
}
if i > len(path) {
i = len(path)
}
v := path[s:i]
for len(v) > 0 && v[len(v)-1] <= ' ' {
v = v[:len(v)-1]
}
r.query.value = v
}
}
}
}
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, ok bool,
) {
if len(query) < 2 || query[0] != '#' ||
(query[1] != '(' && query[1] != '[') {
return "", "", "", "", i, 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] == '\\' {
i++
} else if query[i] == '"' {
break
}
}
}
}
if depth > 0 {
return "", "", "", "", i, 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, 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
}
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] == '.' {
// peek at the next byte and see if it's a '@', '[', or '{'.
r.part = path[:i]
if !DisableModifiers &&
i < len(path)-1 &&
(path[i+1] == '@' ||
path[i+1] == '[' || 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++
if i < len(path) {
epart = append(epart, path[i])
}
continue
} else if path[i] == '.' {
r.part = string(epart)
// peek at the next byte and see if it's a '@' modifier
if !DisableModifiers &&
i < len(path)-1 && path[i+1] == '@' {
r.pipe = path[i+1:]
r.piped = true
} else {
r.path = path[i+1:]
r.more = true
}
r.more = true
return
} else if path[i] == '|' {
r.part = string(epart)
r.pipe = path[i+1:]
r.piped = true
return
} else if path[i] == '*' || path[i] == '?' {
r.wild = true
}
epart = append(epart, path[i])
}
}
// append the last part
r.part = string(epart)
return
}
}
r.part = path
return
}
func parseSquash(json string, i int) (int, string) {
// expects that the lead character is a '[' or '{' or '('
// squash the value, ignoring all nested arrays and objects.
// the first '[' or '{' or '(' has already been read
s := i
i++
depth := 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
}
}
case '{', '[', '(':
depth++
case '}', ']', ')':
depth--
if depth == 0 {
i++
return i, json[s:i]
}
}
}
}
return i, json[s:]
}
func parseObject(c *parseContext, i int, path string) (int, bool) {
var pmatch, kesc, vesc, ok, hit bool
var key, val string
rp := parseObjectPath(path)
if !rp.more && rp.piped {
c.pipe = rp.pipe
c.piped = true
}
for i < len(c.json) {
for ; i < len(c.json); i++ {
if c.json[i] == '"' {
// parse_key_string
// this is slightly different from getting s string value
// because we don't need the outer quotes.
i++
var s = i
for ; i < len(c.json); i++ {
if c.json[i] > '\\' {
continue
}
if c.json[i] == '"' {
i, key, kesc, ok = i+1, c.json[s:i], false, true
goto parse_key_string_done
}
if c.json[i] == '\\' {
i++
for ; i < len(c.json); i++ {
if c.json[i] > '\\' {
continue
}
if c.json[i] == '"' {
// look for an escaped slash
if c.json[i-1] == '\\' {
n := 0
for j := i - 2; j > 0; j-- {
if c.json[j] != '\\' {
break
}
n++
}
if n%2 == 0 {
continue
}
}
i, key, kesc, ok = i+1, c.json[s:i], true, true
goto parse_key_string_done
}
}
break
}
}
key, kesc, ok = c.json[s:], false, false
parse_key_string_done:
break
}
if c.json[i] == '}' {
return i + 1, false
}
}
if !ok {
return i, false
}
if rp.wild {
if kesc {
pmatch = match.Match(unescape(key), rp.part)
} else {
pmatch = match.Match(key, rp.part)
}
} else {
if kesc {
pmatch = rp.part == unescape(key)
} else {
pmatch = rp.part == key
}
}
hit = pmatch && !rp.more
for ; i < len(c.json); i++ {
switch c.json[i] {
default:
continue
case '"':
i++
i, val, vesc, ok = parseString(c.json, i)
if !ok {
return i, false
}
if hit {
if vesc {
c.value.Str = unescape(val[1 : len(val)-1])
} else {
c.value.Str = val[1 : len(val)-1]
}
c.value.Raw = val
c.value.Type = String
return i, true
}
case '{':
if pmatch && !hit {
i, hit = parseObject(c, i+1, rp.path)
if hit {
return i, true
}
} else {
i, val = parseSquash(c.json, i)
if hit {
c.value.Raw = val
c.value.Type = JSON
return i, true
}
}
case '[':
if pmatch && !hit {
i, hit = parseArray(c, i+1, rp.path)
if hit {
return i, true
}
} else {
i, val = parseSquash(c.json, i)
if hit {
c.value.Raw = val
c.value.Type = JSON
return i, true
}
}
case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
i, val = parseNumber(c.json, i)
if hit {
c.value.Raw = val
c.value.Type = Number
c.value.Num, _ = strconv.ParseFloat(val, 64)
return i, true
}
case 't', 'f', 'n':
vc := c.json[i]
i, val = parseLiteral(c.json, i)
if hit {
c.value.Raw = val
switch vc {
case 't':
c.value.Type = True
case 'f':
c.value.Type = False
}
return i, true
}
}
break
}
}
return i, false
}
func queryMatches(rp *arrayPathResult, value Result) bool {
rpv := rp.query.value
if len(rpv) > 2 && rpv[0] == '"' && rpv[len(rpv)-1] == '"' {
rpv = rpv[1 : len(rpv)-1]
}
if !value.Exists() {
return false
}
if rp.query.op == "" {
// the query is only looking for existence, such as:
// friends.#(name)
// which makes sure that the array "friends" has an element of
// "name" that exists
return true
}
switch value.Type {
case String:
switch rp.query.op {
case "=":
return value.Str == rpv
case "!=":
return value.Str != rpv
case "<":
return value.Str < rpv
case "<=":
return value.Str <= rpv
case ">":
return value.Str > rpv
case ">=":
return value.Str >= rpv
case "%":
return match.Match(value.Str, rpv)
case "!%":
return !match.Match(value.Str, rpv)
}
case Number:
rpvn, _ := strconv.ParseFloat(rpv, 64)
switch rp.query.op {
case "=":
return value.Num == rpvn
case "!=":
return value.Num != rpvn
case "<":
return value.Num < rpvn
case "<=":
return value.Num <= rpvn
case ">":
return value.Num > rpvn
case ">=":
return value.Num >= rpvn
}
case True:
switch rp.query.op {
case "=":
return rpv == "true"
case "!=":
return rpv != "true"
case ">":
return rpv == "false"
case ">=":
return true
}
case False:
switch rp.query.op {
case "=":
return rpv == "false"
case "!=":
return rpv != "false"
case "<":
return rpv == "true"
case "<=":
return true
}
}
return false
}
func parseArray(c *parseContext, i int, path string) (int, bool) {
var pmatch, vesc, ok, hit bool
var val string
var h int
var alog []int
var partidx int
var multires []byte
rp := parseArrayPath(path)
if !rp.arrch {
n, ok := parseUint(rp.part)
if !ok {
partidx = -1
} else {
partidx = int(n)
}
}
if !rp.more && rp.piped {
c.pipe = rp.pipe
c.piped = true
}
procQuery := func(qval Result) bool {
if rp.query.all {
if len(multires) == 0 {
multires = append(multires, '[')
}
}
var res Result
if qval.Type == JSON {
res = qval.Get(rp.query.path)
} else {
if rp.query.path != "" {
return false
}
res = qval
}
if queryMatches(&rp, res) {
if rp.more {
left, right, ok := splitPossiblePipe(rp.path)
if ok {
rp.path = left
c.pipe = right
c.piped = true
}
res = qval.Get(rp.path)
} else {
res = qval
}
if rp.query.all {
raw := res.Raw
if len(raw) == 0 {
raw = res.String()
}
if raw != "" {
if len(multires) > 1 {
multires = append(multires, ',')
}
multires = append(multires, raw...)
}
} else {
c.value = res
return true
}
}
return false
}
for i < len(c.json)+1 {
if !rp.arrch {
pmatch = partidx == h
hit = pmatch && !rp.more
}
h++
if rp.alogok {
alog = append(alog, i)
}
for ; ; i++ {
var ch byte
if i > len(c.json) {
break
} else if i == len(c.json) {
ch = ']'
} else {
ch = c.json[i]
}
switch ch {
default:
continue
case '"':
i++
i, val, vesc, ok = parseString(c.json, i)
if !ok {
return i, false
}
if rp.query.on {
var qval Result
if vesc {
qval.Str = unescape(val[1 : len(val)-1])
} else {
qval.Str = val[1 : len(val)-1]
}
qval.Raw = val
qval.Type = String
if procQuery(qval) {
return i, true
}
} else if hit {
if rp.alogok {
break
}
if vesc {
c.value.Str = unescape(val[1 : len(val)-1])
} else {
c.value.Str = val[1 : len(val)-1]
}
c.value.Raw = val
c.value.Type = String
return i, true
}
case '{':
if pmatch && !hit {
i, hit = parseObject(c, i+1, rp.path)
if hit {
if rp.alogok {
break
}
return i, true
}
} else {
i, val = parseSquash(c.json, i)
if rp.query.on {
if procQuery(Result{Raw: val, Type: JSON}) {
return i, true
}
} else if hit {
if rp.alogok {
break
}
c.value.Raw = val
c.value.Type = JSON
return i, true
}
}
case '[':
if pmatch && !hit {
i, hit = parseArray(c, i+1, rp.path)
if hit {
if rp.alogok {
break
}
return i, true
}
} else {
i, val = parseSquash(c.json, i)
if rp.query.on {
if procQuery(Result{Raw: val, Type: JSON}) {
return i, true
}
} else if hit {
if rp.alogok {
break
}
c.value.Raw = val
c.value.Type = JSON
return i, true
}
}
case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
i, val = parseNumber(c.json, i)
if rp.query.on {
var qval Result
qval.Raw = val
qval.Type = Number
qval.Num, _ = strconv.ParseFloat(val, 64)
if procQuery(qval) {
return i, true
}
} else if hit {
if rp.alogok {
break
}
c.value.Raw = val
c.value.Type = Number
c.value.Num, _ = strconv.ParseFloat(val, 64)
return i, true
}
case 't', 'f', 'n':
vc := c.json[i]
i, val = parseLiteral(c.json, i)
if rp.query.on {
var qval Result
qval.Raw = val
switch vc {
case 't':
qval.Type = True
case 'f':
qval.Type = False
}
if procQuery(qval) {
return i, true
}
} else if hit {
if rp.alogok {
break
}
c.value.Raw = val
switch vc {
case 't':
c.value.Type = True
case 'f':
c.value.Type = False
}
return i, true
}
case ']':
if rp.arrch && rp.part == "#" {
if rp.alogok {
left, right, ok := splitPossiblePipe(rp.alogkey)
if ok {
rp.alogkey = left
c.pipe = right
c.piped = true
}
var jsons = make([]byte, 0, 64)
jsons = append(jsons, '[')
for j, k := 0, 0; j < len(alog); j++ {
idx := alog[j]
for idx < len(c.json) {
switch c.json[idx] {
case ' ', '\t', '\r', '\n':
idx++
continue
}
break
}
if idx < len(c.json) && c.json[idx] != ']' {
_, res, ok := parseAny(c.json, idx, true)
if ok {
res := res.Get(rp.alogkey)
if res.Exists() {
if k > 0 {
jsons = append(jsons, ',')
}
raw := res.Raw
if len(raw) == 0 {
raw = res.String()
}
jsons = append(jsons, []byte(raw)...)
k++
}
}
}
}
jsons = append(jsons, ']')
c.value.Type = JSON
c.value.Raw = string(jsons)
return i + 1, true
}
if rp.alogok {
break
}
c.value.Type = Number
c.value.Num = float64(h - 1)
c.value.Raw = strconv.Itoa(h - 1)
c.calcd = true
return i + 1, true
}
if len(multires) > 0 && !c.value.Exists() {
c.value = Result{
Raw: string(append(multires, ']')),
Type: JSON,
}
}
return i + 1, false
}
break
}
}
return i, false
}
func splitPossiblePipe(path string) (left, right string, ok bool) {
// take a quick peek for the pipe character. If found we'll split the piped
// part of the path into the c.pipe field and shorten the rp.
var possible bool
for i := 0; i < len(path); i++ {
if path[i] == '|' {
possible = true
break
}
}
if !possible {
return
}
if len(path) > 0 && path[0] == '{' {
squashed := squash(path[1:])
if len(squashed) < len(path)-1 {
squashed = path[:len(squashed)+1]
remain := path[len(squashed):]
if remain[0] == '|' {
return squashed, remain[1:], true
}
}
return
}
// split the left and right side of the path with the pipe character as
// the delimiter. This is a little tricky because we'll need to basically
// parse the entire path.
for i := 0; i < len(path); i++ {
if path[i] == '\\' {
i++
} else if path[i] == '.' {
if i == len(path)-1 {
return
}
if path[i+1] == '#' {
i += 2
if i == len(path) {
return
}
if path[i] == '[' || path[i] == '(' {
var start, end byte
if path[i] == '[' {
start, end = '[', ']'
} else {
start, end = '(', ')'
}
// inside selector, balance brackets
i++
depth := 1
for ; i < len(path); i++ {
if path[i] == '\\' {
i++
} else if path[i] == start {
depth++
} else if path[i] == end {
depth--
if depth == 0 {
break
}
} else if path[i] == '"' {
// inside selector string, balance quotes
i++
for ; i < len(path); i++ {
if path[i] == '\\' {
i++
} else if path[i] == '"' {
break
}
}
}
}
}
}
} else if path[i] == '|' {
return path[:i], path[i+1:], true
}
}
return
}
// ForEachLine iterates through lines of JSON as specified by the JSON Lines
// format (http://jsonlines.org/).
// Each line is returned as a GJSON Result.
func ForEachLine(json string, iterator func(line Result) bool) {
var res Result
var i int
for {
i, res, _ = parseAny(json, i, true)
if !res.Exists() {
break
}
if !iterator(res) {
return
}
}
}
type subSelector struct {
name string
path string
}
// parseSubSelectors returns the subselectors belonging to a '[path1,path2]' or
// '{"field1":path1,"field2":path2}' type subSelection. It's expected that the
// first character in path is either '[' or '{', and has already been checked
// prior to calling this function.
func parseSubSelectors(path string) (sels []subSelector, out string, ok bool) {
modifer := 0
depth := 1
colon := 0
start := 1
i := 1
pushSel := func() {
var sel subSelector
if colon == 0 {
sel.path = path[start:i]
} else {
sel.name = path[start:colon]
sel.path = path[colon+1 : i]
}
sels = append(sels, sel)
colon = 0
start = i + 1
}
for ; i < len(path); i++ {
switch path[i] {
case '\\':
i++
case '@':
if modifer == 0 && i > 0 && (path[i-1] == '.' || path[i-1] == '|') {
modifer = i
}
case ':':
if modifer == 0 && colon == 0 && depth == 1 {
colon = i
}
case ',':
if depth == 1 {
pushSel()
}
case '"':
i++
loop:
for ; i < len(path); i++ {
switch path[i] {
case '\\':
i++
case '"':
break loop
}
}
case '[', '(', '{':
depth++
case ']', ')', '}':
depth--
if depth == 0 {
pushSel()
path = path[i+1:]
return sels, path, true
}
}
}
return
}
// nameOfLast returns the name of the last component
func nameOfLast(path string) string {
for i := len(path) - 1; i >= 0; i-- {
if path[i] == '|' || path[i] == '.' {
if i > 0 {
if path[i-1] == '\\' {
continue
}
}
return path[i+1:]
}
}
return path
}
func isSimpleName(component string) bool {
for i := 0; i < len(component); i++ {
if component[i] < ' ' {
return false
}
switch component[i] {
case '[', ']', '{', '}', '(', ')', '#', '|':
return false
}
}
return true
}
func appendJSONString(dst []byte, s string) []byte {
for i := 0; i < len(s); i++ {
if s[i] < ' ' || s[i] == '\\' || s[i] == '"' || s[i] > 126 {
d, _ := json.Marshal(s)
return append(dst, string(d)...)
}
}
dst = append(dst, '"')
dst = append(dst, s...)
dst = append(dst, '"')
return dst
}
type parseContext struct {
json string
value Result
pipe string
piped bool
calcd bool
lines bool
}
// Get searches json for the specified path.
// A path is in dot syntax, such as "name.last" or "age".
// When the value is found it's returned immediately.
//
// A path is a series of keys searated by a dot.
// A key may contain special wildcard characters '*' and '?'.
// To access an array value use the index as the key.
// To get the number of elements in an array or to access a child path, use
// the '#' character.
// The dot and wildcard character can be escaped with '\'.
//
// {
// "name": {"first": "Tom", "last": "Anderson"},
// "age":37,
// "children": ["Sara","Alex","Jack"],
// "friends": [
// {"first": "James", "last": "Murphy"},
// {"first": "Roger", "last": "Craig"}
// ]
// }
// "name.last" >> "Anderson"
// "age" >> 37
// "children" >> ["Sara","Alex","Jack"]
// "children.#" >> 3
// "children.1" >> "Alex"
// "child*.2" >> "Jack"
// "c?ildren.0" >> "Sara"
// "friends.#.first" >> ["James","Roger"]
//
// 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 Get(json, path string) Result {
if len(path) > 1 {
if !DisableModifiers {
if path[0] == '@' {
// possible modifier
var ok bool
var npath string
var rjson string
npath, rjson, ok = execModifier(json, path)
if ok {
path = npath
if len(path) > 0 && (path[0] == '|' || path[0] == '.') {
res := Get(rjson, path[1:])
res.Index = 0
return res
}
return Parse(rjson)
}
}
}
if path[0] == '[' || path[0] == '{' {
// using a subselector path
kind := path[0]
var ok bool
var subs []subSelector
subs, path, ok = parseSubSelectors(path)
if ok {
if len(path) == 0 || (path[0] == '|' || path[0] == '.') {
var b []byte
b = append(b, kind)
var i int
for _, sub := range subs {
res := Get(json, sub.path)
if res.Exists() {
if i > 0 {
b = append(b, ',')
}
if kind == '{' {
if len(sub.name) > 0 {
if sub.name[0] == '"' && Valid(sub.name) {
b = append(b, sub.name...)
} else {
b = appendJSONString(b, sub.name)
}
} else {
last := nameOfLast(sub.path)
if isSimpleName(last) {
b = appendJSONString(b, last)
} else {
b = appendJSONString(b, "_")
}
}
b = append(b, ':')
}
var raw string
if len(res.Raw) == 0 {
raw = res.String()
if len(raw) == 0 {
raw = "null"
}
} else {
raw = res.Raw
}
b = append(b, raw...)
i++
}
}
b = append(b, kind+2)
var res Result
res.Raw = string(b)
res.Type = JSON
if len(path) > 0 {
res = res.Get(path[1:])
}
res.Index = 0
return res
}
}
}
}
var i int
var c = &parseContext{json: json}
if len(path) >= 2 && path[0] == '.' && path[1] == '.' {
c.lines = true
parseArray(c, 0, path[2:])
} else {
for ; i < len(c.json); i++ {
if c.json[i] == '{' {
i++
parseObject(c, i, path)
break
}
if c.json[i] == '[' {
i++
parseArray(c, i, path)
break
}
}
}
if c.piped {
res := c.value.Get(c.pipe)
res.Index = 0
return res
}
fillIndex(json, c)
return c.value
}
// GetBytes searches json for the specified path.
// If working with bytes, this method preferred over Get(string(data), path)
func GetBytes(json []byte, path string) Result {
return getBytes(json, path)
}
// runeit returns the rune from the the \uXXXX
func runeit(json string) rune {
n, _ := strconv.ParseUint(json[:4], 16, 64)
return rune(n)
}
// unescape unescapes a string
func unescape(json string) string {
var str = make([]byte, 0, len(json))
for i := 0; i < len(json); i++ {
switch {
default:
str = append(str, json[i])
case json[i] < ' ':
return string(str)
case json[i] == '\\':
i++
if i >= len(json) {
return string(str)
}
switch json[i] {
default:
return string(str)
case '\\':
str = append(str, '\\')
case '/':
str = append(str, '/')
case 'b':
str = append(str, '\b')
case 'f':
str = append(str, '\f')
case 'n':
str = append(str, '\n')
case 'r':
str = append(str, '\r')
case 't':
str = append(str, '\t')
case '"':
str = append(str, '"')
case 'u':
if i+5 > len(json) {
return string(str)
}
r := runeit(json[i+1:])
i += 5
if utf16.IsSurrogate(r) {
// need another code
if len(json[i:]) >= 6 && json[i] == '\\' &&
json[i+1] == 'u' {
// we expect it to be correct so just consume it
r = utf16.DecodeRune(r, runeit(json[i+2:]))
i += 6
}
}
// provide enough space to encode the largest utf8 possible
str = append(str, 0, 0, 0, 0, 0, 0, 0, 0)
n := utf8.EncodeRune(str[len(str)-8:], r)
str = str[:len(str)-8+n]
i-- // backtrack index by one
}
}
}
return string(str)
}
// Less return true if a token is less than another token.
// The caseSensitive paramater is used when the tokens are Strings.
// The order when comparing two different type is:
//
// Null < False < Number < String < True < JSON
//
func (t Result) Less(token Result, caseSensitive bool) bool {
if t.Type < token.Type {
return true
}
if t.Type > token.Type {
return false
}
if t.Type == String {
if caseSensitive {
return t.Str < token.Str
}
return stringLessInsensitive(t.Str, token.Str)
}
if t.Type == Number {
return t.Num < token.Num
}
return t.Raw < token.Raw
}
func stringLessInsensitive(a, b string) bool {
for i := 0; i < len(a) && i < len(b); i++ {
if a[i] >= 'A' && a[i] <= 'Z' {
if b[i] >= 'A' && b[i] <= 'Z' {
// both are uppercase, do nothing
if a[i] < b[i] {
return true
} else if a[i] > b[i] {
return false
}
} else {
// a is uppercase, convert a to lowercase
if a[i]+32 < b[i] {
return true
} else if a[i]+32 > b[i] {
return false
}
}
} else if b[i] >= 'A' && b[i] <= 'Z' {
// b is uppercase, convert b to lowercase
if a[i] < b[i]+32 {
return true
} else if a[i] > b[i]+32 {
return false
}
} else {
// neither are uppercase
if a[i] < b[i] {
return true
} else if a[i] > b[i] {
return false
}
}
}
return len(a) < len(b)
}
// parseAny parses the next value from a json string.
// A Result is returned when the hit param is set.
// The return values are (i int, res Result, ok bool)
func parseAny(json string, i int, hit bool) (int, Result, bool) {
var res Result
var val string
for ; i < len(json); i++ {
if json[i] == '{' || json[i] == '[' {
i, val = parseSquash(json, i)
if hit {
res.Raw = val
res.Type = JSON
}
return i, res, true
}
if json[i] <= ' ' {
continue
}
switch json[i] {
case '"':
i++
var vesc bool
var ok bool
i, val, vesc, ok = parseString(json, i)
if !ok {
return i, res, false
}
if hit {
res.Type = String
res.Raw = val
if vesc {
res.Str = unescape(val[1 : len(val)-1])
} else {
res.Str = val[1 : len(val)-1]
}
}
return i, res, true
case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
i, val = parseNumber(json, i)
if hit {
res.Raw = val
res.Type = Number
res.Num, _ = strconv.ParseFloat(val, 64)
}
return i, res, true
case 't', 'f', 'n':
vc := json[i]
i, val = parseLiteral(json, i)
if hit {
res.Raw = val
switch vc {
case 't':
res.Type = True
case 'f':
res.Type = False
}
return i, res, true
}
}
}
return i, res, false
}
var ( // used for testing
testWatchForFallback bool
testLastWasFallback bool
)
// GetMany searches json for the multiple paths.
// The return value is a Result array where the number of items
// will be equal to the number of input paths.
func GetMany(json string, path ...string) []Result {
res := make([]Result, len(path))
for i, path := range path {
res[i] = Get(json, path)
}
return res
}
// GetManyBytes searches json for the multiple paths.
// The return value is a Result array where the number of items
// will be equal to the number of input paths.
func GetManyBytes(json []byte, path ...string) []Result {
res := make([]Result, len(path))
for i, path := range path {
res[i] = GetBytes(json, path)
}
return res
}
func validpayload(data []byte, i int) (outi int, ok bool) {
for ; i < len(data); i++ {
switch data[i] {
default:
i, ok = validany(data, i)
if !ok {
return i, false
}
for ; i < len(data); i++ {
switch data[i] {
default:
return i, false
case ' ', '\t', '\n', '\r':
continue
}
}
return i, true
case ' ', '\t', '\n', '\r':
continue
}
}
return i, false
}
func validany(data []byte, i int) (outi int, ok bool) {
for ; i < len(data); i++ {
switch data[i] {
default:
return i, false
case ' ', '\t', '\n', '\r':
continue
case '{':
return validobject(data, i+1)
case '[':
return validarray(data, i+1)
case '"':
return validstring(data, i+1)
case '-', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
return validnumber(data, i+1)
case 't':
return validtrue(data, i+1)
case 'f':
return validfalse(data, i+1)
case 'n':
return validnull(data, i+1)
}
}
return i, false
}
func validobject(data []byte, i int) (outi int, ok bool) {
for ; i < len(data); i++ {
switch data[i] {
default:
return i, false
case ' ', '\t', '\n', '\r':
continue
case '}':
return i + 1, true
case '"':
key:
if i, ok = validstring(data, i+1); !ok {
return i, false
}
if i, ok = validcolon(data, i); !ok {
return i, false
}
if i, ok = validany(data, i); !ok {
return i, false
}
if i, ok = validcomma(data, i, '}'); !ok {
return i, false
}
if data[i] == '}' {
return i + 1, true
}
i++
for ; i < len(data); i++ {
switch data[i] {
default:
return i, false
case ' ', '\t', '\n', '\r':
continue
case '"':
goto key
}
}
return i, false
}
}
return i, false
}
func validcolon(data []byte, i int) (outi int, ok bool) {
for ; i < len(data); i++ {
switch data[i] {
default:
return i, false
case ' ', '\t', '\n', '\r':
continue
case ':':
return i + 1, true
}
}
return i, false
}
func validcomma(data []byte, i int, end byte) (outi int, ok bool) {
for ; i < len(data); i++ {
switch data[i] {
default:
return i, false
case ' ', '\t', '\n', '\r':
continue
case ',':
return i, true
case end:
return i, true
}
}
return i, false
}
func validarray(data []byte, i int) (outi int, ok bool) {
for ; i < len(data); i++ {
switch data[i] {
default:
for ; i < len(data); i++ {
if i, ok = validany(data, i); !ok {
return i, false
}
if i, ok = validcomma(data, i, ']'); !ok {
return i, false
}
if data[i] == ']' {
return i + 1, true
}
}
case ' ', '\t', '\n', '\r':
continue
case ']':
return i + 1, true
}
}
return i, false
}
func validstring(data []byte, i int) (outi int, ok bool) {
for ; i < len(data); i++ {
if data[i] < ' ' {
return i, false
} else if data[i] == '\\' {
i++
if i == len(data) {
return i, false
}
switch data[i] {
default:
return i, false
case '"', '\\', '/', 'b', 'f', 'n', 'r', 't':
case 'u':
for j := 0; j < 4; j++ {
i++
if i >= len(data) {
return i, false
}
if !((data[i] >= '0' && data[i] <= '9') ||
(data[i] >= 'a' && data[i] <= 'f') ||
(data[i] >= 'A' && data[i] <= 'F')) {
return i, false
}
}
}
} else if data[i] == '"' {
return i + 1, true
}
}
return i, false
}
func validnumber(data []byte, i int) (outi int, ok bool) {
i--
// sign
if data[i] == '-' {
i++
}
// int
if i == len(data) {
return i, false
}
if data[i] == '0' {
i++
} else {
for ; i < len(data); i++ {
if data[i] >= '0' && data[i] <= '9' {
continue
}
break
}
}
// frac
if i == len(data) {
return i, true
}
if data[i] == '.' {
i++
if i == len(data) {
return i, false
}
if data[i] < '0' || data[i] > '9' {
return i, false
}
i++
for ; i < len(data); i++ {
if data[i] >= '0' && data[i] <= '9' {
continue
}
break
}
}
// exp
if i == len(data) {
return i, true
}
if data[i] == 'e' || data[i] == 'E' {
i++
if i == len(data) {
return i, false
}
if data[i] == '+' || data[i] == '-' {
i++
}
if i == len(data) {
return i, false
}
if data[i] < '0' || data[i] > '9' {
return i, false
}
i++
for ; i < len(data); i++ {
if data[i] >= '0' && data[i] <= '9' {
continue
}
break
}
}
return i, true
}
func validtrue(data []byte, i int) (outi int, ok bool) {
if i+3 <= len(data) && data[i] == 'r' && data[i+1] == 'u' &&
data[i+2] == 'e' {
return i + 3, true
}
return i, false
}
func validfalse(data []byte, i int) (outi int, ok bool) {
if i+4 <= len(data) && data[i] == 'a' && data[i+1] == 'l' &&
data[i+2] == 's' && data[i+3] == 'e' {
return i + 4, true
}
return i, false
}
func validnull(data []byte, i int) (outi int, ok bool) {
if i+3 <= len(data) && data[i] == 'u' && data[i+1] == 'l' &&
data[i+2] == 'l' {
return i + 3, true
}
return i, false
}
// Valid returns true if the input is valid json.
//
// if !gjson.Valid(json) {
// return errors.New("invalid json")
// }
// value := gjson.Get(json, "name.last")
//
func Valid(json string) bool {
_, ok := validpayload(stringBytes(json), 0)
return ok
}
// ValidBytes returns true if the input is valid json.
//
// if !gjson.Valid(json) {
// return errors.New("invalid json")
// }
// value := gjson.Get(json, "name.last")
//
// If working with bytes, this method preferred over ValidBytes(string(data))
//
func ValidBytes(json []byte) bool {
_, ok := validpayload(json, 0)
return ok
}
func parseUint(s string) (n uint64, ok bool) {
var i int
if i == len(s) {
return 0, false
}
for ; i < len(s); i++ {
if s[i] >= '0' && s[i] <= '9' {
n = n*10 + uint64(s[i]-'0')
} else {
return 0, false
}
}
return n, true
}
func parseInt(s string) (n int64, ok bool) {
var i int
var sign bool
if len(s) > 0 && s[0] == '-' {
sign = true
i++
}
if i == len(s) {
return 0, false
}
for ; i < len(s); i++ {
if s[i] >= '0' && s[i] <= '9' {
n = n*10 + int64(s[i]-'0')
} else {
return 0, false
}
}
if sign {
return n * -1, true
}
return n, true
}
const minUint53 = 0
const maxUint53 = 4503599627370495
const minInt53 = -2251799813685248
const maxInt53 = 2251799813685247
func floatToUint(f float64) (n uint64, ok bool) {
n = uint64(f)
if float64(n) == f && n >= minUint53 && n <= maxUint53 {
return n, true
}
return 0, false
}
func floatToInt(f float64) (n int64, ok bool) {
n = int64(f)
if float64(n) == f && n >= minInt53 && n <= maxInt53 {
return n, true
}
return 0, false
}
// execModifier parses the path to find a matching modifier function.
// then input expects that the path already starts with a '@'
func execModifier(json, path string) (pathOut, res string, ok bool) {
name := path[1:]
var hasArgs bool
for i := 1; i < len(path); i++ {
if path[i] == ':' {
pathOut = path[i+1:]
name = path[1:i]
hasArgs = len(pathOut) > 0
break
}
if path[i] == '|' {
pathOut = path[i:]
name = path[1:i]
break
}
if path[i] == '.' {
pathOut = path[i:]
name = path[1:i]
break
}
}
if fn, ok := modifiers[name]; ok {
var args string
if hasArgs {
var parsedArgs bool
switch pathOut[0] {
case '{', '[', '"':
res := Parse(pathOut)
if res.Exists() {
args = squash(pathOut)
pathOut = pathOut[len(args):]
parsedArgs = true
}
}
if !parsedArgs {
idx := strings.IndexByte(pathOut, '|')
if idx == -1 {
args = pathOut
pathOut = ""
} else {
args = pathOut[:idx]
pathOut = pathOut[idx:]
}
}
}
return pathOut, fn(json, args), true
}
return pathOut, res, false
}
// unwrap removes the '[]' or '{}' characters around json
func unwrap(json string) string {
json = trim(json)
if len(json) >= 2 && json[0] == '[' || json[0] == '{' {
json = json[1 : len(json)-1]
}
return json
}
// DisableModifiers will disable the modifier syntax
var DisableModifiers = false
var modifiers = map[string]func(json, arg string) string{
"pretty": modPretty,
"ugly": modUgly,
"reverse": modReverse,
"this": modThis,
"flatten": modFlatten,
"join": modJoin,
"valid": modValid,
}
// AddModifier binds a custom modifier command to the GJSON syntax.
// This operation is not thread safe and should be executed prior to
// using all other gjson function.
func AddModifier(name string, fn func(json, arg string) string) {
modifiers[name] = fn
}
// ModifierExists returns true when the specified modifier exists.
func ModifierExists(name string, fn func(json, arg string) string) bool {
_, ok := modifiers[name]
return ok
}
// @pretty modifier makes the json look nice.
func modPretty(json, arg string) string {
if len(arg) > 0 {
opts := *pretty.DefaultOptions
Parse(arg).ForEach(func(key, value Result) bool {
switch key.String() {
case "sortKeys":
opts.SortKeys = value.Bool()
case "indent":
opts.Indent = value.String()
case "prefix":
opts.Prefix = value.String()
case "width":
opts.Width = int(value.Int())
}
return true
})
return bytesString(pretty.PrettyOptions(stringBytes(json), &opts))
}
return bytesString(pretty.Pretty(stringBytes(json)))
}
// @this returns the current element. Can be used to retrieve the root element.
func modThis(json, arg string) string {
return json
}
// @ugly modifier removes all whitespace.
func modUgly(json, arg string) string {
return bytesString(pretty.Ugly(stringBytes(json)))
}
// @reverse reverses array elements or root object members.
func modReverse(json, arg string) string {
res := Parse(json)
if res.IsArray() {
var values []Result
res.ForEach(func(_, value Result) bool {
values = append(values, value)
return true
})
out := make([]byte, 0, len(json))
out = append(out, '[')
for i, j := len(values)-1, 0; i >= 0; i, j = i-1, j+1 {
if j > 0 {
out = append(out, ',')
}
out = append(out, values[i].Raw...)
}
out = append(out, ']')
return bytesString(out)
}
if res.IsObject() {
var keyValues []Result
res.ForEach(func(key, value Result) bool {
keyValues = append(keyValues, key, value)
return true
})
out := make([]byte, 0, len(json))
out = append(out, '{')
for i, j := len(keyValues)-2, 0; i >= 0; i, j = i-2, j+1 {
if j > 0 {
out = append(out, ',')
}
out = append(out, keyValues[i+0].Raw...)
out = append(out, ':')
out = append(out, keyValues[i+1].Raw...)
}
out = append(out, '}')
return bytesString(out)
}
return json
}
// @flatten an array with child arrays.
// [1,[2],[3,4],[5,[6,7]]] -> [1,2,3,4,5,[6,7]]
// The {"deep":true} arg can be provide for deep flattening.
// [1,[2],[3,4],[5,[6,7]]] -> [1,2,3,4,5,6,7]
// The original json is returned when the json is not an array.
func modFlatten(json, arg string) string {
res := Parse(json)
if !res.IsArray() {
return json
}
var deep bool
if arg != "" {
Parse(arg).ForEach(func(key, value Result) bool {
if key.String() == "deep" {
deep = value.Bool()
}
return true
})
}
var out []byte
out = append(out, '[')
var idx int
res.ForEach(func(_, value Result) bool {
if idx > 0 {
out = append(out, ',')
}
if value.IsArray() {
if deep {
out = append(out, unwrap(modFlatten(value.Raw, arg))...)
} else {
out = append(out, unwrap(value.Raw)...)
}
} else {
out = append(out, value.Raw...)
}
idx++
return true
})
out = append(out, ']')
return bytesString(out)
}
// @join multiple objects into a single object.
// [{"first":"Tom"},{"last":"Smith"}] -> {"first","Tom","last":"Smith"}
// The arg can be "true" to specify that duplicate keys should be preserved.
// [{"first":"Tom","age":37},{"age":41}] -> {"first","Tom","age":37,"age":41}
// Without preserved keys:
// [{"first":"Tom","age":37},{"age":41}] -> {"first","Tom","age":41}
// The original json is returned when the json is not an object.
func modJoin(json, arg string) string {
res := Parse(json)
if !res.IsArray() {
return json
}
var preserve bool
if arg != "" {
Parse(arg).ForEach(func(key, value Result) bool {
if key.String() == "preserve" {
preserve = value.Bool()
}
return true
})
}
var out []byte
out = append(out, '{')
if preserve {
// Preserve duplicate keys.
var idx int
res.ForEach(func(_, value Result) bool {
if !value.IsObject() {
return true
}
if idx > 0 {
out = append(out, ',')
}
out = append(out, unwrap(value.Raw)...)
idx++
return true
})
} else {
// Deduplicate keys and generate an object with stable ordering.
var keys []Result
kvals := make(map[string]Result)
res.ForEach(func(_, value Result) bool {
if !value.IsObject() {
return true
}
value.ForEach(func(key, value Result) bool {
k := key.String()
if _, ok := kvals[k]; !ok {
keys = append(keys, key)
}
kvals[k] = value
return true
})
return true
})
for i := 0; i < len(keys); i++ {
if i > 0 {
out = append(out, ',')
}
out = append(out, keys[i].Raw...)
out = append(out, ':')
out = append(out, kvals[keys[i].String()].Raw...)
}
}
out = append(out, '}')
return bytesString(out)
}
// @valid ensures that the json is valid before moving on. An empty string is
// returned when the json is not valid, otherwise it returns the original json.
func modValid(json, arg string) string {
if !Valid(json) {
return ""
}
return json
}
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