Jin is a comprehensive JSON manipulation tool bundle. All functions tested with random data with help of Node.js. All test-path and test-value creation automated with Node.js.
Jin provides parse
, interpret
, build
and format
tools for JSON.
Third-party packages only used for the benchmark. No dependency need for core functions.
We make some benchmark with other packages like Jin.
github.com/buger/jsonparser
github.com/valyala/fastjson
github.com/json-iterator/go
github.com/tidwall/gjson
github.com/tidwall/sjson
In Result, Jin is the fastest (op/ns) and more memory friendly then others (B/op).
For more information please take a look at BENCHMARK section below.
Store New! store function. store function can set or override a value like a real JSON object.
JO (JsonObject) introduced!! Actually that is a fancy word for []byte type
You can use all interpreter functions with JO. just initialize and go.
Get()
Example
// instead of repeating []byte for all functions.
// initialize
jsonObject := jin.New(json)
// and go
serial, err := jsonObject.GetString("info", "serial")
if err != nil {
return err
}
pooling, err := jsonObject.GetFloat("info", "polling_time")
if err != nil {
return err
}
// old declaration
serial, err := jin.GetString(json, "info", "serial")
if err != nil {
return err
}
pooling, err := jin.GetFloat(json, "info", "polling_time")
if err != nil {
return err
}
Set()
Example
// instead of repeating []byte for all functions.
// initialize
jsonObject := jin.New(json)
// and go
err := jsonObject.SetString("at-28C02", "info", "serial")
if err != nil {
return err
}
// old declaration
json, err := jin.SetString(json, "at-28C02", "info", "serial")
if err != nil {
return err
}
7 new functions tested and added to package. Examples in GoDoc
GetMap()
get objects asmap[string]string
structure with key values pairsGetAll()
get only specific keys valuesGetAllMap()
get only specific keys withmap[string]string
structureGetKeys()
get objects keys as string arrayGetValues()
get objects values as string arrayGetKeysValues()
get objects keys and values with separate string arraysLength()
get length of JSON array.
go get github.com/ecoshub/jin
And you are good to go. Import and start using.
There is a detailed documentation in GoDoc with lots of examples.
Major difference between parsing and interpreting is parser has to read all data before answer your needs. On the other hand interpreter reads up to find the data you need.
With parser, once the parse is complete you can access any data with no time. But there is a time cost to parse all data and this cost can increase as data content grows.
If you need to access all keys of a JSON then, we are simply recommend you to use Parser
.
But if you need to access some keys of a JSON then we strongly recommend you to use Interpreter
, it will be much faster and much more memory-friendly than parser.
Interpreter
is core element of this package, no need to create an Interpreter type, just call which function you want.
First let's look at general function parameters.
// All interpreter functions need one JSON as byte slice.
json := []byte(`{"git":"ecoshub","repo":{"id":233809925,"name":["eco","jin"]}}`)
// And most of them needs a path value for navigate.
// Path value determines which part to navigate.
// In this example we want to access 'jin' value.
// So path must be 'repo' (object) -> 'name' (array) -> '1' (second element)
path := []string{"repo", "name", "1"}
We are gonna use Get()
function to access the value of path has pointed. In this case 'jin'.
value, err := jin.Get(json, path...)
if err != nil {
log.Println(err)
return
}
// the Get() functions return type is []byte
// To understand its value,
// first we have to convert it to string.
fmt.Println(string(value))
// Output: jin
Path value can consist hard coded values.
value, err := jin.Get(json, "repo", "name", "1")
if err != nil {
log.Println(err)
return
}
fmt.Println(string(value))
//String Output: jin
Get()
function return type is []byte
but all other variations of return types are implemented with different functions.
For example. If you need "value" as string use GetString()
.
value, err := jin.GetString(json, "repo", "name", "0")
if err != nil {
fmt.Println(err)
return
}
fmt.Println(string(value))
//Output: eco
For example. If you need "value" as string use GetString()
.
value, err := jin.GetString(json, "repo", "name", "0")
if err != nil {
fmt.Println(err)
return
}
fmt.Println(string(value))
//Output: eco
Parser
is another alternative for JSON manipulation.
We recommend to use this structure when you need to access all or most of the keys in the JSON.
Parser constructor need only one parameter.
// Parser constructor function jin.Parse() need one JSON as []byte.
json := []byte(`
{
"title": "LICENSE",
"repo": {
"id": 233809925,
"name": "ecoshub/jin",
"url": "https://api.github.com/repos/ecoshub/jin"
}
}`)
We can parse it with Parse()
function.
prs, err := jin.Parse(json)
if err != nil {
log.Println(err)
return
}
Let's look at Parser.Get()
value, err := prs.Get("repo", "url")
if err != nil {
log.Println(err)
return
}
fmt.Println(string(value))
//Output: https://api.github.com/repos/ecoshub/jin
About path value look above.
There is all return type variations of Parser.Get()
function like Interpreter
.
For return string use Parser.GetString()
like this,
value, err := prs.GetString("repo", "name")
if err != nil {
log.Println(err)
return
}
fmt.Println(value)
//String Output: ecoshub/jin
All functions has own example provided in GoDoc.
Other usefull functions of Jin.
-Add()
, AddKeyValue()
, Set()
, SetKey()
Delete()
, Insert()
, IterateArray()
, IterateKeyValue()
Tree()
.
Iteration tools provide functions for access each key-value pair or each value of an array
Let's look at IterateArray()
function.
// JSON that we want to access.
json := []byte(`{"user":"eco","languages":["go","java","python","C","Cpp"]}`)
// IterateArray() uses a callback function to return elements.
err := jin.IterateArray(json, func(value []byte) (bool, error) {
// printing current element as string.
fmt.Println(string(value))
// this return is some kind of control mechanism for escape from iteration any time.
// true means keep iterate. false means stop the iteration.
return true, nil
// last parameter is path. Its currently pointing at "language" array.
}, "languages")
// standard error definition
if err != nil {
log.Println(err)
return
}
// Output: go
// java
// python
// C
// Cpp
Another useful function is IterateKeyValue()
check for example in GoDoc.
There are two formatting functions. Flatten()
and Indent()
.
Indent()
is adds indentation to JSON for nicer visualization and Flatten()
removes this indentation.
Examples in GoDoc.
Control functions are simple and easy way to check value types of any path.
For example. IsArray()
.
json := []byte(`{"repo":{"name":"ecoshub/jin"},"others":["jin","penman"]}`)
result, _ := jin.IsArray(json, "repo")
fmt.Println(result)
// Output: false
result, _ = jin.IsArray(json, "others")
fmt.Println(result)
// Output: true
Or you can use GetType()
.
json := []byte(`{"git":"ecoshub","repo":["jin","wsftp","penman"]}`)
result, _ := jin.GetType(json, "repo")
fmt.Println(result)
// Output: array
There are lots of JSON build functions in this package and all of them has its own examples.
We just want to mention a couple of them.
Scheme
is simple and powerful tool for create JSON schemes.
// MakeScheme need keys for construct a JSON scheme.
person := MakeScheme("name", "lastname", "age")
// now we can instantiate a JSON with values.
eco := person.MakeJson("eco", "hub", "28")
// {"name":"eco","lastname":"hub","age":28}
koko := person.MakeJson("koko", "Bloom", "42")
//{"name":"koko","lastname":"Bloom","age":42}
MakeJson()
, MakeArray()
functions and other variations are easy to use functions. Go and take a look. GoDoc.
Testing is very important thing for this type of packages and it shows how reliable it is.
For that reasons we use Node.js for unit testing.
Lets look at folder arrangement and working principle.
-
test/ folder:
-
test-json.json, this is a temporary file for testing. all other test-cases copying here with this name so they can process by test-case-creator.js.
-
test-case-creator.js is core path & value creation mechanism. When it executed with
executeNode()
function. It reads the test-json.json file and generates the paths and values from this files content. With command line arguments it can generate different paths and values. As a result, two files are created with this process. the first of these files is test-json-paths.json and the second is test-json-values.json -
test-json-paths.json has all the path values.
-
test-json-values.json has all the values that corresponding to path values.
-
-
tests/ folder
-
All files in this folder is a test-case. But it doesn't mean that you can't change anything, on the contrary, all test-cases are creating automatically based on this folder content. You can add or remove any .json file that you want.
-
All
GO
side test-case automation functions are in core_test.go file.
-
This package developed with Node.js v13.7.0. please make sure that your machine has a valid version of Node.js before testing.
All functions and methods are tested with complicated randomly genereted .json files.
Like this,
{
"g;}\\=LUG[5pwAizS!lfkdRULF=": true,
"gL1GG'S+-U~#fUz^R^=#genWFVGA$O": {
"Nmg}xK&V5Z": -1787764711,
"=B7a(KoF%m5rqG#En}dl\"y`117)WC&w~": -572664066,
"Dj_{6evoMr&< 4m+1u{W!'zf;cl": ":mqp<s6('&??yG#)qpMs=H?",
",Qx_5V(ceN)%0d-h.\"\"0v}8fqG-zgEBz;!C{zHZ#9Hfg%no*": false,
"l&d>": true
},
"jhww/SRq?,Y\"5O1'{": "]\"4s{WH]b9aR+[$-'PQm8WW:B",
":e": "Lu9(>9IbrLyx60E;9R]NHml@A~} QHgAUR5$TUCm&z,]d\">",
"e&Kk^`rz`T!EZopgIo\\5)GT'MkSCf]2<{dt+C_H": 599287421.0854483
}
Most of JSON packages not even run properly with this kind of JSON streams. We did't see such packages as competitors to ourselves. And that's because we didn't even bother to benchmark against them.
Benchmark results.
-
Benchmark prefix removed from function names for make room to results.
-
Benchmark between 'buger/jsonparser' and 'ecoshub/jin' use the same payload (JSON test-cases) that 'buger/jsonparser' package use for benchmark it self.
github.com/ecoshub/jin -> Jin
github.com/buger/jsonparser -> Jsonparser
github.com/valyala/fastjson -> Fastjson
github.com/json-iterator/go -> Jsoniterator
github.com/tidwall/gjson -> gjson
github.com/tidwall/sjson -> sjon
goos: linux
goarch: amd64
pkg: jin/benchmark
// Get function (interpert)
JsoniteratorGetSmall-8 2862 ns/op 597 B/op 40 allocs/op
GjsonGetSmall-8 921 ns/op 64 B/op 3 allocs/op
JsonparserGetSmall-8 787 ns/op 0 B/op 0 allocs/op
JinGetSmall-8 729 ns/op 0 B/op 0 allocs/op
GjsonGetMedium-8 7084 ns/op 152 B/op 4 allocs/op
JsonparserGetMedium-8 7329 ns/op 0 B/op 0 allocs/op
JinGetMedium-8 5624 ns/op 0 B/op 0 allocs/op
GjsonrGetLarge-8 119925 ns/op 28672 B/op 2 allocs/op
JsonparserGetLarge-8 65725 ns/op 0 B/op 0 allocs/op
JinGetLarge-8 61516 ns/op 0 B/op 0 allocs/op
// Array iteration function (interpert)
IterateArrayGetGjson-8 21966 ns/op 8192 B/op 1 allocs/op
IterateArrayGetJsonparser-8 11814 ns/op 0 B/op 0 allocs/op
IterateArrayGetJin-8 11639 ns/op 0 B/op 0 allocs/op
IterateObjectGetGjson-8 11329 ns/op 2304 B/op 1 allocs/op
IterateObjectGetJsonparser-8 6100 ns/op 0 B/op 0 allocs/op
IterateObjectGetJin-8 4551 ns/op 0 B/op 0 allocs/op
// Set function (interpert)
SJonSetSmall-8 2126 ns/op 1664 B/op 9 allocs/op
JsonParserSetSmall-8 1261 ns/op 704 B/op 4 allocs/op
JinSetSmall-8 1244 ns/op 704 B/op 4 allocs/op
SjsonSetMedium-8 15412 ns/op 13008 B/op 11 allocs/op
JsonParserSetMedium-8 6868 ns/op 6912 B/op 3 allocs/op
JinSetMedium-8 6169 ns/op 6912 B/op 3 allocs/op
SjsonSetLarge-8 257300 ns/op 136736 B/op 14 allocs/op
JsonParserSetLarge-8 121874 ns/op 114688 B/op 4 allocs/op
JinSetLarge-8 86574 ns/op 114688 B/op 4 allocs/op
// Delete function (interpert)
JsonParserDeleteSmall-8 2015 ns/op 704 B/op 4 allocs/op
JinDeleteSmall-8 1198 ns/op 640 B/op 4 allocs/op
JsonParserDeleteMedium-8 10321 ns/op 6912 B/op 3 allocs/op
JinDeleteMedium-8 5780 ns/op 6144 B/op 3 allocs/op
JsonParserDeleteLarge-8 123737 ns/op 114688 B/op 4 allocs/op
JinDeleteLarge-8 87322 ns/op 114688 B/op 4 allocs/op
// Get function (parse)
FastjsonGetSmall-8 2755 ns/op 3408 B/op 11 allocs/op
JinParseGetSmall-8 1981 ns/op 1252 B/op 28 allocs/op
FastjsonGetMedium-8 14958 ns/op 17304 B/op 54 allocs/op
JinParseGetMedium-8 14175 ns/op 8304 B/op 201 allocs/op
FastjsonGetLarge-8 229188 ns/op 283200 B/op 540 allocs/op
JinParseGetLarge-8 222246 ns/op 134704 B/op 2903 allocs/op
// Set function (parse)
FastjsonSetSmall-8 3709 ns/op 3792 B/op 19 allocs/op
JinParseSetSmall-8 3265 ns/op 1968 B/op 36 allocs/op
We are currently working on,
-
Marshal()
andUnmarshal()
functions. -
http.Request parser/interpreter
-
Builder functions for http.ResponseWriter
If you want to contribute this work feel free to fork it.
We want to fill this section with contributors.