Fast, lightweight, thread safe, dynamic type and schema-less golang utility and easy JSON handler
- Quick start
- Getters
- Setters
- Constructors
- Types
- Mutators
- Converters
- Iterators
- Threads
- Dependencies
- License
- Contact
go get github.com/KromDaniel/jonson
import "github.com/KromDaniel/jonson"
json, err := jonson.Parse([]byte(`{"foo": "bar", "arr": [1,2,"str", {"nestedFooA" : "nestedBar"}]}`))
if err != nil {
// error handler
}
// Array mapper
json.At("arr").SliceMap(func(jsn *jonson.JSON, index int) *jonson.JSON {
// JSON numbers are always float when parsed
if jsn.IsFloat64() {
return jonson.New(jsn.GetUnsafeFloat64() * float64(4))
}
if jsn.IsString() {
return jonson.New("_" + jsn.GetUnsafeString())
}
if jsn.IsMap() {
jsn.MapSet("me", []int{1, 2, 3})
}
return jsn
})
// {"arr":[4,8,"_str",{"me":[1,2,3],"nestedFooA":"nestedBar"}],"foo":"bar"}
fmt.Println(json.ToUnsafeJSONString())
json := jonson.NewEmptyJSONMap()
json.MapSet("arr", []interface{}{1, "str", []uint16{50,60,70}})
json.MapSet("numbers", []interface{}{})
for i:=0; i < 100; i++ {
json.At("numbers").SliceAppend(i)
}
json.At("numbers").SliceFilter(func(jsn *jonson.JSON, index int) (shouldKeep bool) {
return IsPrime(jsn.GetUnsafeInt())
})
// {"arr":[1,"str",[50,60,70]],"numbers":[2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53,59,61,67,71,73,79,83,89,97]}
fmt.Println(json.ToUnsafeJSONString())
js := jonson.New([]interface{}{55.6, 70.8, 10.4, 1, "48", "-90"})
js.SliceMap(func(jsn *jonson.JSON, index int) *jonson.JSON {
jsn.MutateToInt()
return jsn
}).SliceMap(func(jsn *jonson.JSON, index int) *jonson.JSON {
if jsn.GetUnsafeInt() > 50{
jsn.MutateToString()
}
return jsn
})
fmt.Println(js.ToUnsafeJSONString()) // ["55","70",10,1,48,-90]
left := New(5)
right := New("5")
EqualsDeep(left, right) // false
const exampleJSON = `
[
{
"key": 0.8215845637650305,
"date": "2018-05-30T13:39:19.867Z"
},
{
"key": 0.8773275487707828,
"date": "2018-04-30T13:39:19.867Z"
}
]`
left = ParseUnsafe([]byte(testJsonString))
right = ParseUnsafe([]byte(testJsonString))
EqualsDeep(left, right) // true
left.SliceAppend(56)
EqualsDeep(left, right) // false
Getters are the way to retreive the actual value of the JSON, Since jonson is thread safe, primitive value is cloned before returned
Jonson supports most of the reflect types
each Jonson object can be asked for IsType(t reflect.Kind)
or directly e.g IsInt()
, IsSlice
.
A legal JSON value can be one of the following types:
- string
- number
- object
- array
- boolean
- null
Jonson supports the getters IsSlice
IsMap
and IsPrimitive
for string, number, boolean and null.
Since there are many type of numbers, There's a getter for each type e.g IsUint8
IsFloat32
or IsNumber()
Note When parsing JSON string, the default value of a number is Float64
json := jonson.New("hello")
json.IsString() // true
json.IsSlice() // false
json.IsInt() // false
json := jonson.New(67.98)
json.IsNumber() // true
Each of reflect.Kind type has a getter and unsafe getter, unsafe getter returns the zero value for that type if type is wrong
json := jonson.New(96)
isInt, val := json.GetInt()
if isInt {
// safe, it's int
}
json.GetUnsafeFloat64() //0 value
json.GetUnsafeSlice() // 0-length []
JSON.At(keys ...interface{})
returns a pointer to the current key, can be chained to null valuesJSON.GetSlice()
returns[]*jonson.JSON
JSON.GetMap()
returnsmap[string]*jonson.JSON
JSON.GetObjectKeys()
returns[]string
if JSON is map else nilJSON.GetSliceLen()
returnsint
, the length of the slice if JSON is slice, else 0
JSON.At
method accepts int
or string
as argument, assuming string
for map and int
and slice, returns the zero value if wrong type
js := jonson.NewEmptyJSONMap()
js.At("KeyOfObjectWithArrayAsValue").At(12).At(54).At("key") // 12, 54 is index of slice, string is key of map
// Same as
js.At("KeyOfObjectWithArrayAsValue", 12, 54, "key")
// same as
js.At("KeyOfObjectWithArrayAsValue", 12).At(54, "key")
// same as goes on...
Setters, just is it sounds, sets a value to current JSON
Since jonson is thread safe, it must be aware when trying to read or write a value, in order to gurantee that, value is deeply cloned, if value passed as pointer, the jonson will use the actual element it points to.
Note For better performance pass struct
and map
as pointer the deep clone will happen only once at the jonson cloner.
Prefer using the jonson setters to avoid unnecessary operations
JSON.SetValue(v interface{})
sets the passed value to current JSON pointer, overrides the type and the existing valueJSON.MapSet(key string, v interface{})
sets value to current JSON as the current key (works only if current JSON is map type)JSON.SliceAppend(v ...interface{})
append all given values to slice (works only if current JSON is slice type)JSON.SliceAppendBegin(v ...interface{})
same asSliceAppend
but at the start of the slice instead at the endJSON.SliceSet(index int, v interface{})
overrides value at specific index on slice (works only if current JSON is slice type)
Deep clone understanding:
json := jonson.NewEmptyJSON() // nil value
exampleMap := make(map[string]int)
exampleMap["1"] = 1
exampleMap["2"] = 2
json.Set(&exampleMap)
exampleMap["1"] = 4
// key 1 is different value, because setters do deep clone
fmt.Println(exampleMap) // map[1:4 2:2]
fmt.Println(json.ToUnsafeJSONString()) // {"1":1,"2":2}
Faster way to create map:
json := jonson.NewEmptyJSONMap()
json.MapSet("1", 1).MapSet("2" ,2)
Constructors are the way to initialize a new JSON object
jonson.New(value interface{}) *JSON
creates a new JSON containing the passed valuejonson.NewEmptyJSON() *JSON
creates a new empty JSON with the value of niljonson.NewEmptyJSONMap() *JSON
creates a new empty JSON with the valuemap[string]*JSON
jonson.NewEmptyJSONArray() *JSON
creates a new empty JSON with the value 0 length slicejonson.Parse([]byte) (error, *JSON)
parses the byte (assumed to be UTF-8 JSON string)jonson.ParseUnsafe([]byte) *JSON
same asjonson.Parse
but returns thejonson.NewEmptyJSON()
if error
Jonson supports all valid types for JSON, here's how it works:
JSON Object (key, value) is valid only for strings key, it means that only map[string]interface{}
will work, a map with none string keys, the key will be ignored
keyMixedMap := make(map[interface{}]interface{})
keyMixedMap[1] = "key is integer"
keyMixedMap["key"] = "key is string"
fmt.Println(jonson.New(&keyMixedMap).ToUnsafeJSONString()) //{"key":"key is string"}
Struct behaves the same as with encoding/json
Only public fields are exported, the name of the field is the key on the struct, unless there's a field descriptors with json tag json:"customKey"
.
Public key that tagged with json:"-"
it is ignored.
Note When passing a struct to Jonson, it is immediately being "Jonsonized" means the keys are converted instantly
type MyStruct struct {
Public string
private string
Custom string `json:"customKey"`
Ignored string `json:"-"`
}
structExample := jonson.New(&MyStruct{
Public: "public value",
private: "private value",
Custom: "custom value",
Ignored: "Ignored value",
})
fmt.Println(structExample.At("private").IsNil()) // true
fmt.Println(structExample.ToUnsafeJSONString()) // {"Public":"public value","customKey":"custom value"}
Slice is the array type of JSON, jonson supports all kind of slices, as long as each element is JSON legal
Mutators is a group of methods that mutates the existing JSON to different type, all the methods return bool indicates if success.
JSON with type slice
or map
will automatically return false
JSON.MutateToInt() bool
JSON.MutateToFloat() bool
JSON.MutateToUnsignedInt() bool
JSON.MutateToString() bool
Note MutateToFloat()
converts to type float64
, MutateToInt()
, MutateToUnsignedInt()
and MutateToString()
converts to int
, uint
and string
Converters is a group of methods that converts the JSON object without changing it
JSON.ToJSON() ([]byte, error)
stringify the JSON to[]byte
JSON.ToUnsafeJSON() []byte
stringify the JSON, if error returns empty[]byte
JSON.ToJSONString() (string, error)
JSON.ToUnsafeJSONString() string
empty string if errorJSON.ToInterface() interface{}
returns the entire JSON tree as interfaceJSON.Clone() *JSON
Deep clone the current JSON tree
Iterators is a group of methods that allows iteration on slice or map, it accepts a function as argument for callback
The methods will do nothing is JSON is not slice or map (according the relevant method)
Note Using map or filter (Similar to other languages Array.map and Array.filter), It won't return a new copy of the slice or map, it will mutate the existing one
JSON.SliceForEach(cb func(jsn *JSON, index int))
Iterate on JSON sliceJSON.SliceMap(cb func(jsn *JSON, index int) *JSON)
Iterate on JSON slice, replacing each element with returned JSONJSON.SliceFilter(cb func(jsn *JSON, index int) bool)
Iterate on JSON slice, removing element if cb returned falseJSON.ObjectForEach(cb func(jsn *JSON, key string))
Iterate on JSON mapJSON.ObjectMap(cb func(jsn *JSON, key string) *JSON)
Iterate on JSON map, replacing each value with returned JSONJSON.ObjectFilter(cb func(jsn *JSON, key string) bool)
Iterate on JSON map, removing value if cb returned false
jsn := jonson.NewEmptyJSONMap()
jsn.MapSet("keyA", []int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10})
jsn.MapSet("KeyB", 1)
jsn.MapSet("KeyC", 2)
fmt.Println(jsn.ToUnsafeJSONString()) // {"KeyB":1,"KeyC":2,"keyA":[1,2,3,4,5,6,7,8,9,10]}
// Object Map, multiply integer values * 3
jsn.ObjectMap(func(jsn *jonson.JSON, key string) *jonson.JSON {
if jsn.IsInt() {
return jonson.New(jsn.GetUnsafeInt() * 3)
}
return jsn
// iterate on the array, keep only evens
}).At("keyA").SliceFilter(func(jsn *jonson.JSON, index int) (shouldKeep bool) {
shouldKeep = jsn.GetUnsafeInt()%2 == 0
return
})
fmt.Println(jsn.ToUnsafeJSONString()) // {"KeyB":3,"KeyC":6,"keyA":[2,4,6,8,10]}
Jonson managed thread safety by it self, it using read-writer mutex sync.RWMutex
allowing multple readers the same time
func writer(jsn *jonson.JSON, wg *sync.WaitGroup) {
for i :=0 ; i < 100000; i++ {
jsn.SliceAppend(i)
}
wg.Done()
}
func reader(jsn *jonson.JSON, wg *sync.WaitGroup) {
time.Sleep(time.Nanosecond * 1000)
fmt.Println("Reader", jsn.GetSliceLen())
wg.Done()
}
func main() {
wg := sync.WaitGroup{}
arr := jonson.NewEmptyJSONArray()
wg.Add(5)
go writer(arr, &wg)
for i:=0; i < 4; i++{
go reader(arr, &wg)
}
wg.Wait()
fmt.Println("Final len", arr.GetSliceLen())
}
/* Output
Reader 5650
Reader 5651
Reader 5652
Reader 5651
Final len 100000
*/
Jonson is fully free from 3rd party dependencies, the unit tests are also free of any dependencies
Apache 2.0
For any question or contribution, feel free to contact me at [email protected]