06cade6c31 | ||
---|---|---|
.. | ||
README.md | ||
builder.v | ||
decoder.v | ||
encoder.v | ||
json2.v | ||
json2_test.v |
README.md
json2
was named just to avoid any unwanted potential conflicts with the existing codegen tailored for the mainjson
module which is powered by CJSON.
An experimental version of the JSON parser written from scratch on V.
Usage
import x.json2
import http
fn main() {
// Decoding
resp := http.get('https://example.com')?
// raw decode
raw_person := json2.raw_decode(resp.text)?
// Casting `Any` type / Navigating
person := raw_person.as_map()
name := person['name'].str() // Bob
age := person['age'].int() // 19
pi := person['pi'].f64() // 3.14....
// Constructing an `Any` type
mut me := map[string]json2.Any
me['name'] = 'Bob'
me['age'] = 18
mut arr := []json2.Any
arr << 'rock'
arr << 'papers'
arr << json2.null()
arr << 12
me['interests'] = arr
mut pets := map[string]json2.Any
pets['Sam'] = 'Maltese Shitzu'
me['pets'] = pets
// Stringify to JSON
println(me.str())
//{"name":"Bob","age":18,"interests":["rock","papers","scissors",null,12],"pets":{"Sam":"Maltese"}}
// Encode a struct/type to JSON
encoded_json := json2.encode<Person>(person2)
}
Using decode<T>
and encode<T>
Codegen for this feature is still WIP. You need to manually define the methods before using the module to structs.
In order to use the decode<T>
and encode<T>
function, you need to explicitly define two methods: from_json
and to_json
. from_json
accepts a json2.Any
argument and inside of it you need to map the fields you're going to put into the type. As for to_json
method, you just need to map the values into json2.Any
and turn it into a string.
struct Person {
mut:
name string
age int = 20
pets []string
}
fn (mut p Person) from_json(f json2.Any) {
obj := f.as_map()
for k, v in obj {
match k {
'name' { p.name = v.str() }
'age' { p.age = v.int() }
'pets' { p.pets = v.arr().map(it.str()) }
else {}
}
}
}
fn (p Person) to_json() string {
mut obj := map[string]json2.Any
obj['name'] = p.name
obj['age'] = p.age
obj['pets'] = p.pets
return obj.str()
}
fn main() {
resp := os.read_file('./person.json')?
person := json2.decode<Person>(resp)
println(person) // Person{name: 'Bob', age: 28, pets: ['Floof']}
person_json := json2.encode<Person>(person)
println(person_json) // {"name": "Bob", "age": 28, "pets": ["Floof"]}
}
Using struct tags
x.json2
cannot use struct tags just like when you use the json
module. However, it emits an Any
type when decoding so it can be flexible on the way you use it.
Null Values
x.json2
have a null
value for differentiating an undefined value and a null value. Use is
for verifying the field you're using is a null.
fn (mut p Person) from_json(f json2.Any) {
obj := f.as_map()
if obj['age'] is json2.Null {
// use a default value
p.age = 10
}
}
Custom field names
In json
, you can specify the field name you're mapping into the struct field by specifying a json:
tag. In x.json2
, just simply cast the base field into a map (as_map()
) and get the value of the field you wish to put into the struct/type.
fn (mut p Person) from_json(f json2.Any) {
obj := f.as_map()
p.name = obj['nickname'].str()
}
fn (mut p Person) to_json() string {
obj := f.as_map()
obj['nickname'] = p.name
return obj.str()
}
Undefined Values
Getting undefined values has the same behavior as regular V types. If you're casting a base field into map[string]json2.Any
and fetch an undefined entry/value, it simply returns empty. As for the []json2.Any
, it returns an index error.
Casting a value to an incompatible type
x.json2
provides methods for turning Any
types into usable types. The following list shows the possible outputs when casting a value to an incompatible type.
- Casting non-array values as array (
arr()
) will return an array with the value as the content. - Casting non-map values as map (
as_map()
) will return a map with the value as the content. - Casting non-string values to string (
str()
) will return the stringified representation of the value. - Casting non-numeric values to int/float (
int()
/f64()
) will return zero.