Introduction
This article describes how to use the JUST.NET library to transform JSON documents.
Background
JUST stands for JSON Under Simple Transformation. XSLT is a very popular way of transforming XML documents using a simple transformation language.
More and more applications are now using JSON as a data format because it is much simpler and less bulkier than XML.
However, there isn't a very easy way to transforming JSON documents.
I have created a library in .NET which enables the transformation of JSON documents using very a simple transformation language. This is an attempt to create an XSLT parallel for JSON.
This article describes how to use that library.
Install the Nuget Package
Pull the latest JUST.NET from https://www.nuget.org.
Install-Package JUST
A dotnetcore version is also available:
Install-Package JUST.NETCore
A .NET standard version is also available. This is the version which will be supported from now on.
Install-Package JUST.NET
Using the Code
Once you download the Nuget package, you create a simple console application.
Below is a simple C# code snippet that you can use to transform your JSON:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Threading.Tasks;
using JUST;
using System.IO;
namespace JUST.Test
{
public class Program
{
public static void Main(string[] args)
{
string input = File.ReadAllText("Input.json");
string transformer = File.ReadAllText("Transformer.json"); ;
string transformedString = JsonTransformer.Transform(transformer, input);
Console.WriteLine(transformedString);
}
}
}
Here, Input.json is the input JSON document while Transformer.json is the JSON document that transforms the input JSON.
Using JUST to Transform JSON
JUST is a transformation language just like XSLT. It includes functions which are used inside the transformer JSON to transform the input JSON in a desired output JSON. This section describes the various functions present in JUST and how they can be used to transform your JSON.
Every JUST function starts with "#
" character.
valueof
This function is used to extract the value of a given property. The value is extracted using JSON path of the property. For more information on how to use JSON path, refer to:
Consider the input:
{
"menu": {
"popup": {
"menuitem": [
{
"value": "Open",
"onclick": "OpenDoc()"
},
{
"value": "Close",
"onclick": "CloseDoc()"
}
]
}
}
}
Transformer:
{
"result": {
"Open": "#valueof($.menu.popup.menuitem[?(@.value=='Open')].onclick)",
"Close": "#valueof($.menu.popup.menuitem[?(@.value=='Close')].onclick)"
}
}
Output:
{
"result":{"Open":"OpenDoc()","Close":"CloseDoc()"}
}
ifcondition
This condition is used to evaluate an if
-else
condition.
ifcondition(condition expresson, evaluation expression, true result, false result)
All four of the parameters can be a 'valueof
' expressions or constants.
Consider the input:
{
"menu": {
"id" : "github",
"repository" : "JUST"
}
}
Transformer:
{
"ifconditiontesttrue": "#ifcondition
(#valueof($.menu.id),github,#valueof($.menu.repository),fail)",
"ifconditiontestfalse": "#ifcondition
(#valueof($.menu.id),xml,#valueof($.menu.repository),fail)"
}
Output:
{
"ifconditiontesttrue":"JUST",
"ifconditiontestfalse":"fail"
}
string and math Functions
At the moment, only the basic and often used string
and math
functions are provided in the library.
lastindexof(input string,search string)
firstindexof(input string,search string)
substring(input string,start index,length)
concat(string 1,string 2)
add(value 1,value 2)
subtract(value 1,value 2)
multiply(value 1,value 2)
divide(value 1,values 2)
Consider the input:
{
"stringref": "thisisandveryunuasualandlongstring",
"numbers": [ "1", "2", "3", "4", "5" ]
}
Transformer:
{
"stringresult": {
"lastindexofand": "#lastindexof(#valueof($.stringref),and)",
"firstindexofand": "#firstindexof(#valueof($.stringref),and)",
"substring": "#substring(#valueof($.stringref),9,11)",
"concat": "#concat(#valueof($.menu.id.file),#valueof($.menu.value.Window))"
},
"mathresult": {
"add": "#add(#valueof($.numbers[0]),3)",
"subtract": "#subtract(#valueof($.numbers[4]),#valueof($.numbers[0]))",
"multiply": "#multiply(2,#valueof($.numbers[2]))",
"divide": "#divide(9,3)"
}
}
Output:
{"stringresult":
{
"lastindexofand":"21",
"firstindexofand":"6",
"substring":"veryunuasua",
"concat":""
},
"mathresult":
{
"add":"4",
"subtract":"4",
"multiply":"6",
"devide":"3"
}
}
Opearators
The following operators have been added to compare strings and numbers:
stringequals(string1, string2)
stringcontains(string1, string2)
mathequals(decimal1, decimal2)
mathgreaterthan(decimal1, decimal2)
mathlessthan(decimal1, decimal2)
mathgreaterthanorequalto(decimal1, decimal2)
mathlessthanorequalto(decimal1, decimal2)
Consider the input:
{
"d": [ "one", "two", "three" ],
"numbers": [ "1", "2", "3", "4", "5" ]
}
Transformer:
{
"mathresult": {
"third_element_equals_3": "#ifcondition(#mathequals(#valueof($.numbers[2]),3),true,yes,no)",
"third_element_greaterthan_2":
"#ifcondition(#mathgreaterthan(#valueof($.numbers[2]),2),true,yes,no)",
"third_element_lessthan_4":
"#ifcondition(#mathlessthan(#valueof($.numbers[2]),4),true,yes,no)",
"third_element_greaterthanorequals_4":
"#ifcondition(#mathgreaterthanorequalto(#valueof($.numbers[2]),4),true,yes,no)",
"third_element_lessthanoreuals_2":
"#ifcondition(#mathlessthanorequalto(#valueof($.numbers[2]),2),true,yes,no)",
"one_stringequals": "#ifcondition(#stringequals(#valueof($.d[0]),one),true,yes,no)",
"one_stringcontains": "#ifcondition(#stringcontains(#valueof($.d[0]),n),true,yes,no)"
}
}
Output:
{"mathresult": {"third_element_equals_3":"yes","third_element_greaterthan_2":"yes",
"third_element_lessthan_4":"yes","third_element_greaterthanorequals_4":"no",
"third_element_lessthanoreuals_2":"no","one_stringequals":"yes","one_stringcontains":"yes"}}
Aggregate Functions
The following aggregate functions are provided for single dimensional arrays:
concatall(array)
sum(array)
average(array)
min(array)
max(array)
Consider the input:-
{
"d": [ "one", "two", "three" ],
"numbers": [ "1", "2", "3", "4", "5" ]
}
Transformer:
{
"conacted": "#concatall(#valueof($.d))",
"sum": "#sum(#valueof($.numbers))",
"avg": "#average(#valueof($.numbers))",
"min": "#min(#valueof($.numbers))",
"max": "#max(#valueof($.numbers))"
}
Output:
{
"conacted":"onetwothree",
"sum":"15",
"avg":"3",
"min":"1",
"max":"5"
}
Aggregate Functions for Multidimensional Arrays
These functions are essentially the same as the above ones, the only difference being that you can also provide a path to point to particluar element inside the array:
concatallatpath(array,path)
sumatpath(array,path)
averageatpath(array,path)
minatpath(array,path)
maxatpath(array,path)
Consider the input:
{
"x": [
{
"v": {
"a": "a1,a2,a3",
"b": "1",
"c": "10"
}
},
{
"v": {
"a": "b1,b2",
"b": "2",
"c": "20"
}
},
{
"v": {
"a": "c1,c2,c3",
"b": "3",
"c": "30"
}
}
]
}
Transformer:
{
"arrayconacted": "#concatallatpath(#valueof($.x),$.v.a)",
"arraysum": "#sumatpath(#valueof($.x),$.v.c)",
"arrayavg": "#averageatpath(#valueof($.x),$.v.c)",
"arraymin": "#minatpath(#valueof($.x),$.v.b)",
"arraymax": "#maxatpath(#valueof($.x),$.v.b)"
}
Output:
{
"arrayconacted":"a1,a2,a3b1,b2c1,c2,c3",
"arraysum":"60",
"arrayavg":"20",
"arraymin":"1",
"arraymax":"3"
}
Bulk Functions
All the above functions set property values to predefined properties in the output JSON. However, in some cases, we don't know what our output will look like as it depends on the input. Bulk functions are provided for this purpose. They correspond with the template-match functions in XSLT.
Bulk functions by law have to be the first property of the JSON object. All bulk functions are represented as array elements of the property '#
'.
These are the bulk functions provided as of now:
copy(path)
replace(path)
delete(path)
Consider the input:
{
"tree": {
"branch": {
"leaf": "green",
"flower": "red",
"bird": "crow",
"extra": { "twig":"birdnest" }
},
"ladder": {"wood": "treehouse" }
}
}
Transformer:
{
"#": [ "#copy($)", "#delete($.tree.branch.bird)",
"#replace($.tree.branch.extra,#valueof($.tree.ladder))" ],
"othervalue" : "othervalue"
}
Output:
{
"othervalue":"othervalue",
"tree":{
"branch":{
"leaf":"green",
"flower":"red",
"extra":{
"wood":"treehouse"
}
},
"ladder":{
"wood":"treehouse"
}
}
}
Array Looping
In some cases, we don't want to copy the entire array to the destination JSON. We might want to transform the array into a different format, or have some special logic for each element while setting the destination JSON.
For these cases, we would use array looping.
These are the functions provided for this pupose:
loop(path)
- path is the path of the array to loop currentvalue()
currentvalueatpath(path)
- here path denotes the path inside the array lastvalueatpath(path)
- here path denotes the path inside the array currentindex()
lastindex()
lastvalue()
Cosider the input:
{
"tree": {
"branch": {
"leaf": "green",
"flower": "red",
"bird": "crow",
"extra": { "twig": "birdnest" }
},
"ladder": { "wood": "treehouse" }
},
"numbers": [ "1", "2", "3", "4" ],
"arrayobjects": [
{"country": {"name": "norway","language": "norsk"}},
{
"country": {
"name": "UK",
"language": "english"
}
},
{
"country": {
"name": "Sweden",
"language": "swedish"
}
}]
}
Transformer:
{
"iteration": {
"#loop($.numbers)": {
"CurrentValue": "#currentvalue()",
"CurrentIndex": "#currentindex()",
"IsLast": "#ifcondition(#currentindex(),#lastindex(),yes,no)",
"LastValue": "#lastvalue()"
}
},
"iteration2": {
"#loop($.arrayobjects)": {
"CurrentValue": "#currentvalueatpath($.country.name)",
"CurrentIndex": "#currentindex()",
"IsLast": "#ifcondition(#currentindex(),#lastindex(),yes,no)",
"LastValue": "#lastvalueatpath($.country.language)"
}
},
"othervalue": "othervalue"
}
Output:
{
"iteration":[
{"CurrentValue":"1","CurrentIndex":"0",
"IsLast":"no","LastValue":"4"},
{"CurrentValue":"2","CurrentIndex":"1",
"IsLast":"no","LastValue":"4"},
{"CurrentValue":"3","CurrentIndex":"2",
"IsLast":"no","LastValue":"4"},
{"CurrentValue":"4","CurrentIndex":"3",
"IsLast":"yes","LastValue":"4"}
],
"iteration2":[
{"CurrentValue":"norway","CurrentIndex":"0",
"IsLast":"no","LastValue":"swedish"},
{"CurrentValue":"UK","CurrentIndex":"1",
"IsLast":"no","LastValue":"swedish"},
{"CurrentValue":"Sweden","CurrentIndex":"2",
"IsLast":"yes","LastValue":"swedish"}
],
"othervalue":"othervalue"
}
Nested Array Looping (Looping Within Context)
A new function loopwithincontext
has been introduced to be able to loop withing the context of an outer loop.
Cosider the input:
{
"NestedLoop": {
"Organization": {
"Employee": [
{
"Name": "E2",
"Details": [
{
"Country": "Iceland",
"Age": "30",
"Name": "Sven",
"Language": "Icelandic"
}
]
},
{
"Name": "E1",
"Details": [
{
"Country": "Denmark",
"Age": "30",
"Name": "Svein",
"Language": "Danish"
}
]
}
]
}
}
}
Transformer:
{
"hello": {
"#loop($.NestedLoop.Organization.Employee)": {
"CurrentName": "#currentvalueatpath($.Name)",
"Details": {
"#loopwithincontext($.Details)": {
"CurrentCountry": "#currentvalueatpath($.Country)"
}
}
}
}
}
Output:
{
"hello":[
{
"CurrentName":"E2",
"Details":[
{
"CurrentCountry":"Iceland"
}
]
},
{
"CurrentName":"E1",
"Details":[
{
"CurrentCountry":"Denmark"
}
]
}
]
}
Array Grouping
A function similar to SQL GROUP BY clause has been introduced to group an array based on the value of an element.
grouparrayby(path,groupingElementName,groupedElementName)
Input:
{
"Forest": [
{
"type": "Mammal",
"qty": 1,
"name": "Hippo"
},
{
"type": "Bird",
"qty": 2,
"name": "Sparrow"
},
{
"type": "Amphibian",
"qty": 300,
"name": "Lizard"
},
{
"type": "Bird",
"qty": 3,
"name": "Parrot"
},
{
"type": "Mammal",
"qty": 1,
"name": "Elephant"
},
{
"type": "Mammal",
"qty": 10,
"name": "Dog"
}
]
}
Transformer:
{
"Result": "#grouparrayby($.Forest,type,all)"
}
Output:
{
"Result":[
{
"type":"Mammal",
"all":[
{
"qty":1,
"name":"Hippo"
},
{
"qty":1,
"name":"Elephant"
},
{
"qty":10,
"name":"Dog"
}
]
},
{
"type":"Bird",
"all":[
{
"qty":2,
"name":"Sparrow"
},
{
"qty":3,
"name":"Parrot"
}
]
},
{
"type":"Amphibian",
"all":[
{
"qty":300,
"name":"Lizard"
}
]
}
]
}
You can group using multiple "grouping elements". They should be seperated by a semicolon (:
).
Consider the following input:
{
"Vehicle": [
{
"type": "air",
"company": "Boeing",
"name": "airplane"
},
{
"type": "air",
"company": "Concorde",
"name": "airplane"
},
{
"type": "air",
"company": "Boeing",
"name": "Chopper"
},
{
"type": "land",
"company": "GM",
"name": "car"
},
{
"type": "sea",
"company": "Viking",
"name": "ship"
},
{
"type": "land",
"company": "GM",
"name": "truck"
}
]
}
Transformer:
{
"Result": "#grouparrayby($.Vehicle,type:company,all)"
}
Output:
{
"Result":[
{
"type":"air",
"company":"Boeing",
"all":[
{
"name":"airplane"
},
{
"name":"Chopper"
}
]
},
{
"type":"air",
"company":"Concorde",
"all":[
{
"name":"airplane"
}
]
},
{
"type":"land",
"company":"GM",
"all":[
{
"name":"car"
},
{
"name":"truck"
}
]
},
{
"type":"sea",
"company":"Viking",
"all":[
{
"name":"ship"
}
]
}
]
}
Calling Custom Functions
You can make your own custom functions in C# and call them from your transformer JSON.
A custom function has to reside inside a public
class and has to be a public static
method.
A custom function is called using the following syntax:
#customfunction(dll name, FQN for the static function, argument1.......,argumentN)
Consider the following input:
{
"tree": {
"branch": {
"leaf": "green",
"flower": "red",
"bird": "crow"
}
}
}
Transformer:
{
"Season": "#customfunction(JUST.NET.Test,JUST.NET.Test.Season.findseason,
#valueof($.tree.branch.leaf),#valueof($.tree.branch.flower))"
}
Custom function:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
namespace JUST.NET.Test
{
public class Season
{
public static string findseason(string leafColour, string flowerColour)
{
if (leafColour == "green" && flowerColour == "red")
return "summer";
else
return "winter";
}
}
}
Output:
{"Season":"summer"}
Nesting of Functions
You can easily nest functions to do complex transformations.
An example of such a transformation is demonstrated by the example below:
Consider the following input:
{
"Name": "Kari",
"Surname": "Nordmann",
"MiddleName": "Inger",
"ContactInformation": "Karl johans gate:Oslo:88880000" ,
"PersonalInformation": "45:Married:Norwegian"
}
Transformer:
{
"FullName": "#concat(#concat
(#concat(#valueof($.Name), ),#concat(#valueof($.MiddleName), )),#valueof($.Surname))",
"Contact Information": {
"Street Name": "#substring(#valueof($.ContactInformation),
0,#firstindexof(#valueof($.ContactInformation),:))",
"City": "#substring(#valueof($.ContactInformation),#add(#firstindexof
(#valueof($.ContactInformation),:),1),#subtract(#subtract
(#lastindexof(#valueof($.ContactInformation),:),#firstindexof
(#valueof($.ContactInformation),:)),1))",
"PhoneNumber": "#substring
(#valueof($.ContactInformation),#add(#lastindexof
(#valueof($.ContactInformation),:),1),#subtract
(#lastindexof(#valueof($.ContactInformation),),#lastindexof
(#valueof($.ContactInformation),:)))"
},
"Personal Information": {
"Age": "#substring(#valueof($.PersonalInformation),
0,#firstindexof(#valueof($.PersonalInformation),:))",
"Civil Status": "#substring(#valueof
($.PersonalInformation),#add(#firstindexof
(#valueof($.PersonalInformation),:),1),#subtract(#subtract
(#lastindexof(#valueof($.PersonalInformation),:),#firstindexof
(#valueof($.PersonalInformation),:)),1))",
"Ethnicity": "#substring(#valueof
($.PersonalInformation),#add(#lastindexof
(#valueof($.PersonalInformation),:),1),#subtract(#lastindexof
(#valueof($.PersonalInformation),),#lastindexof
(#valueof($.PersonalInformation),:)))"
}
Output:
{
"FullName":"Kari Inger Nordmann",
"Contact Information":{
"Street Name":"Karl johans gate",
"City":"Oslo",
"PhoneNumber":"88880000"
},
"Personal Information":{
"Age":"45",
"Civil Status":"Married",
"Ethnicity":"Norwegian"
}
}
Multiple Argument & Constant Functions
The transformation in the above scenario looks quite complex. And it could get quite messy when the string
becomes longer. Also, since comma(,) is a reserved keyword, it is not possible to concatenate a comma to a string
.
Hence, the following 3 functions have been introduced:
xconcat(string1,string2......stringx)
- Concatenates multiple string
s xadd(int1,int2......intx)
- Adds multiples integers constant_comma()
- Returns comma(,) constant_hash()
- Returns hash(#)
Consider the following input:
{
"Name": "Kari",
"Surname": "Nordmann",
"MiddleName": "Inger",
"ContactInformation": "Karl johans gate:Oslo:88880000" ,
"PersonalInformation": "45:Married:Norwegian"
}
Transformer:
{
"FullName": "#xconcat(#valueof($.Name),
#constant_comma(),#valueof($.MiddleName),
#constant_comma(),#valueof($.Surname))",
"AgeOfParents":
"#xadd(#valueof($.AgeOfMother),#valueof($.AgeOfFather))"
}
Output:
{"FullName":"Kari,Inger,Nordmann",
"AgeOfParents":"67"}
Check for Existence
The following two functions have been added to check for existence:
exists(path)
existsandnotempty(path)
Consider the following input:
{
"BuyDate": "2017-04-10T11:36:39+03:00",
"ExpireDate": ""
}
Transformer:
{
"BuyDateString": "#ifcondition(#exists($.BuyDate),
true,#concat(Buy Date : ,#valueof($.BuyDate)),NotExists)",
"BuyDateString2": "#ifcondition(#existsandnotempty($.BuyDate),
true,#concat(Buy Date : ,#valueof($.BuyDate)),EmptyOrNotExists)",
"ExpireDateString": "#ifcondition(#exists($.ExpireDate),
true,#concat(Expire Date : ,#valueof($.ExpireDate)),NotExists)",
"ExpireDateString2": "#ifcondition(#existsandnotempty($.ExpireDate),
true,#concat(Expire Date : ,#valueof($.ExpireDate)),EmptyOrNotExists)",
"SellDateString": "#ifcondition(#exists($.SellDate),
true,#concat(Sell Date : ,#valueof($.SellDate)),NotExists)",
"SellDateString2": "#ifcondition(#existsandnotempty($.SellDate),
true,#concat(Sell Date : ,#valueof($.SellDate)),EmptyOrNotExists)"
}
Output:
{
"BuyDateString":"Buy Date : 2017-04-10T11:36:39+03:00",
"BuyDateString2":"Buy Date : 2017-04-10T11:36:39+03:00",
"ExpireDateString":"Expire Date : ",
"ExpireDateString2":"EmptyOrNotExists",
"SellDateString":"NotExists",
"SellDateString2":"EmptyOrNotExists"
}
Conditional Transformation
Conditional transformation can be achieved using the ifgroup
function.
The function takes an expression as argument which should evaluate to a boolean value.
Consider the following input:
{
"Tree": {
"Branch": "leaf",
"Flower": "Rose"
}
}
Transformer:
{
"Result": {
"Header": "JsonTransform",
"#ifgroup(#exists($.Tree.Branch))": {
"State": {
"Value1": "#valueof($.Tree.Branch)",
"Value2": "#valueof($.Tree.Flower)"
}
}
}
}
Output:
{
"Result":{
"Header":"JsonTransform",
"State":{
"Value1":"leaf",
"Value2":"Rose"
}
}
}
Now, for the same input, if we use the following transformer, we get a different output.
Transformer:
{
"Result": {
"Header": "JsonTransform",
"#ifgroup(#exists($.Tree.Root))": {
"State": {
"Value1": "#valueof($.Tree.Branch)",
"Value2": "#valueof($.Tree.Flower)"
}
}
}
}
Output:
{
"Result":{
"Header":"JsonTransform"
}
}
Dynamic Properties
We can now create dynamic properties using the eval
function. The function takes an expression as an argument.
Consider the following input:
{
"Tree": {
"Branch": "leaf",
"Flower": "Rose"
}
}
Transformer:
{
"Result": {
"#eval(#valueof($.Tree.Flower))": "x"
}
}
Output:
{
"Result":{
"Rose":"x"
}
}
Schema Validation Against Multiple Schemas Using Prefixes
A new feature to validate a JSON against multiple schemas has been introduced in the new Nuget 2.0.XX
. This is to enable namespace based validation using prefixes like in XSD.
Below is a sample code which you need to write to validate a JSON against 2 schemas using prefixes:
using System;
using System.Collections.Generic;
using System.Linq;
using System.Threading.Tasks;
using JUST;
using System.IO;
namespace JUST.Test
{
public class Program
{
public static void Main(string[] args)
{
string inputJson = File.ReadAllText("ValidationInput.json")
string schemaJsonX = File.ReadAllText("SchemaX.json")
string schemaJsonY = File.ReadAllText("SchemaY.json")
JsonValidator validator = new JsonValidator(inputJson)
validator.AddSchema("x", schemaJsonX)
validator.AddSchema("y", schemaJsonY)
validator.Validate();
}
}
}
In the above case if the validation is un-successful, an exception will be thrown with the validation errors.
Consider the validation input:
{
"x.tree": { "x.branch": { "x.leaf": "1" } },
"x.child": 1,
"y.animal": 1
}
Schema X JSON:
{
"properties": {
"tree": {
"type": "object",
"properties": {
"branch": {
"type": "object",
"properties": {
"leaf": { "type": "string" }
}
}
}
},
"child": { "type": "string" }
}
}
Schema Y JSON:
{
"properties": {
"animal": { "type": "string" }
}
}
The exception message thrown in the above case would be:
Unhandled Exception: System.Exception: Invalid type. Expected String but got Integer.
Path '['x.child']', line 3, position 14. AND Invalid type. Expected String but got Integer.
Path '['y.animal']', line 4, position 15.
Splitting JSON into Multiple JSON(s) Based Upon an Array Token
A JSON file containing an array can now be split into multiple JSON files, each representing a file for every array element.
Two new functions have been added for this purpose:
public static IEnumerable<string> SplitJson(string input,string arrayPath)
public static IEnumerable<JObject> SplitJson(JObject input, string arrayPath)
Consider the input:
{
"cars": {
"Ford": [
{
"model": "Taurus",
"doors": 4
},
{
"model": "Escort",
"doors": 4
},
{
"model": "Fiesta",
"doors": 3
},
{
"model": "Bronco",
"doors": 5
}
],
"firstName": "John",
"lastName": "Smith",
}
}
Below is a sample code which splits the above input:
string input = File.ReadAllText("Input.json");
List<string> outputs = JsonTransformer.SplitJson(input, "$.cars.Ford").ToList<string>();
The output will contain 4 JSON files:
{"cars":{"Ford":{"model":"Taurus",
"doors":4},"firstName":"John","lastName":"Smith"}}
{"cars":{"Ford":{"model":"Escort",
"doors":4},"firstName":"John","lastName":"Smith"}}
{"cars":{"Ford":{"model":"Fiesta",
"doors":3},"firstName":"John","lastName":"Smith"}}
{"cars":{"Ford":{"model":"Bronco",
"doors":5},"firstName":"John","lastName":"Smith"}}
Transforming JSON to Other Data Formats
JUST.NET can now transform JSON data into other generic formats too. All functions except the BULK FUNCTIONS
are supported in this feature.
The #loop
functions accepts an extra argument which defines the separator between the individual records.
#loop(path,seaperator).
If the separator is not defined, the default separator used is NEWLINE
.
A new class called DataTransformer
has been introduced for this new feature.
Example for JSON to XML
Sample code to transform from JSON to XML:
string input = File.ReadAllText("Input.json");
string transformer = File.ReadAllText("DataTransformer.xml");
string transformedString = DataTransformer.Transform(transformer, input);
Input.json:
{
"menu": {
"id": {
"file": "csv"
},
"value": {
"Window": "popup"
},
"popup": {
"menuitem": [
{
"value": "New",
"onclick": {
"action": "CreateNewDoc()"
}
},
{
"value": "Open",
"onclick": "OpenDoc()"
},
{
"value": "Close",
"onclick": "CloseDoc()"
}
]
}
},
"x": [
{
"v": {
"a": "a1,a2,a3",
"b": "1",
"c": "10"
}
},
{
"v": {
"a": "b1,b2",
"b": "2",
"c": "20"
}
},
{
"v": {
"a": "c1,c2,c3",
"b": "3",
"c": "30"
}
}
],
"stringref": "thisisandveryunuasualandlongstring",
"d": [ "one", "two", "three" ],
"numbers": [ "1", "2", "3", "4", "5" ],
"tree": {
"branch": {
"leaf": "green",
"flower": "red",
"bird": "crow"
}
},
"Name": "Kari",
"Surname": "Nordmann",
"MiddleName": "Inger",
"ContactInformation": "Karl johans gate:Oslo:88880000",
"PersonalInformation": "45:Married:Norwegian",
"AgeOfMother": "67",
"AgeOfFather": "70",
"BuyDate": "2017-04-10T11:36:39+03:00",
"ExpireDate": "",
"LogId": 5000510625
}
DataTransformer.xml:
<?xml version="1.0" encoding="UTF-8" ?>
<root>
<root>
<ifconditiontesttrue>#ifcondition(#valueof($.menu.id.file),csv,
#valueof($.menu.value.Window),fail)</ifconditiontesttrue>
<ifconditiontestfalse>#ifcondition(#valueof($.menu.id.file),xml,
#valueof($.menu.value.Window),fail)</ifconditiontestfalse>
<stringresult>
<lastindexofand>#lastindexof(#valueof($.stringref),and)</lastindexofand>
<firstindexofand>#firstindexof(#valueof($.stringref),and)</firstindexofand>
<subsrting>#substring(#valueof($.stringref),8,10)</subsrting>
<concat>#concat(#valueof($.menu.id.file),#valueof($.menu.value.Window))</concat>
</stringresult>
<mathresult>
<add>#add(#valueof($.numbers[0]),3)</add>
<subtract>#subtract(#valueof($.numbers[4]),#valueof($.numbers[0]))</subtract>
<multiply>#multiply(2,#valueof($.numbers[2]))</multiply>
<divide>#divide(9,3)</divide>
</mathresult>
<conacted>#concatall(#valueof($.d))</conacted>
<sum>#sum(#valueof($.numbers))</sum>
<avg>#average(#valueof($.numbers))</avg>
<min>#min(#valueof($.numbers))</min>
<max>#max(#valueof($.numbers))</max>
<arrayconacted>#concatallatpath(#valueof($.x),$.v.a)</arrayconacted>
<arraysum>#sumatpath(#valueof($.x),$.v.c)</arraysum>
<arrayavg>#averageatpath(#valueof($.x),$.v.c)</arrayavg>
<arraymin>#minatpath(#valueof($.x),$.v.b)</arraymin>
<arraymax>#maxatpath(#valueof($.x),$.v.b)</arraymax>
</root>
<FullName>#concat(#concat(#concat(#valueof($.Name), ),
#concat(#valueof($.MiddleName), )),#valueof($.Surname))</FullName>
<Contact_Information>
<City>#substring(#valueof($.ContactInformation),#add(#firstindexof
(#valueof($.ContactInformation),:),1),
#subtract(#subtract(#lastindexof(#valueof($.ContactInformation),:),
#firstindexof(#valueof($.ContactInformation),:)),1))</City>
<PhoneNumber>#substring(#valueof($.ContactInformation),
#add(#lastindexof(#valueof($.ContactInformation),:),1),
#subtract(#lastindexof(#valueof($.ContactInformation),),
#lastindexof(#valueof($.ContactInformation),:)))</PhoneNumber>
<Street_Name>#substring(#valueof($.ContactInformation),0,
#firstindexof(#valueof($.ContactInformation),:))</Street_Name>
</Contact_Information>
<Personal_Information>
<Age>#substring(#valueof($.PersonalInformation),0,
#firstindexof(#valueof($.PersonalInformation),:))</Age>
<Ethnicity>#substring(#valueof($.PersonalInformation),
#add(#lastindexof(#valueof($.PersonalInformation),:),1),
#subtract(#lastindexof(#valueof($.PersonalInformation),),
#lastindexof(#valueof($.PersonalInformation),:)))</Ethnicity>
<LogId>#valueof($.LogId)</LogId>
<Civil_Status>#substring(#valueof($.PersonalInformation),
#add(#firstindexof(#valueof($.PersonalInformation),:),1),
#subtract(#subtract(#lastindexof(#valueof($.PersonalInformation),:),
#firstindexof(#valueof($.PersonalInformation),:)),1))</Civil_Status>
</Personal_Information>
<Custom>#customfunction(JUST.NET.Test,JUST.NET.Test.Season.findseason,
#valueof($.tree.branch.leaf),#valueof($.tree.branch.flower))</Custom>
<iteration>
"#loop($.numbers,<!--Record ends here-->)": {
<Record>
<CurrentValue>#currentvalue()</CurrentValue>
<CurrentIndex>#currentindex()</CurrentIndex>
<IsLast>#ifcondition(#currentindex(),#lastindex(),yes,no)</IsLast>
<LastValue>#lastvalue()</LastValue>
<SomeValue>#valueof($.LogId)</SomeValue>
</Record>}
</iteration>
</root>
Output:
<?xml version="1.0" encoding="UTF-8" ?>
<root>
<root>
<ifconditiontesttrue>popup</ifconditiontesttrue>
<ifconditiontestfalse>fail</ifconditiontestfalse>
<stringresult>
<lastindexofand>21</lastindexofand>
<firstindexofand>6</firstindexofand>
<subsrting>dveryunuas</subsrting>
<concat>csvpopup</concat>
</stringresult>
<mathresult>
<add>4</add>
<subtract>4</subtract>
<multiply>6</multiply>
<divide>3</divide>
</mathresult>
<conacted>onetwothree</conacted>
<sum>15</sum>
<avg>3</avg>
<min>1</min>
<max>5</max>
<arrayconacted>a1,a2,a3b1,b2c1,c2,c3</arrayconacted>
<arraysum>60</arraysum>
<arrayavg>20</arrayavg>
<arraymin>1</arraymin>
<arraymax>3</arraymax>
</root>
<FullName>Kari Inger Nordmann</FullName>
<Contact_Information>
<City>Oslo</City>
<PhoneNumber>88880000</PhoneNumber>
<Street_Name>Karl johans gate</Street_Name>
</Contact_Information>
<Personal_Information>
<Age>45</Age>
<Ethnicity>Norwegian</Ethnicity>
<LogId>5000510625</LogId>
<Civil_Status>Married</Civil_Status>
</Personal_Information>
<Custom>summer</Custom>
<iteration>
<Record>
<CurrentValue>1</CurrentValue>
<CurrentIndex>0</CurrentIndex>
<IsLast>no</IsLast>
<LastValue>5</LastValue>
<SomeValue>5000510625</SomeValue>
</Record><!--Record ends here-->
<Record>
<CurrentValue>2</CurrentValue>
<CurrentIndex>1</CurrentIndex>
<IsLast>no</IsLast>
<LastValue>5</LastValue>
<SomeValue>5000510625</SomeValue>
</Record><!--Record ends here-->
<Record>
<CurrentValue>3</CurrentValue>
<CurrentIndex>2</CurrentIndex>
<IsLast>no</IsLast>
<LastValue>5</LastValue>
<SomeValue>5000510625</SomeValue>
</Record><!--Record ends here-->
<Record>
<CurrentValue>4</CurrentValue>
<CurrentIndex>3</CurrentIndex>
<IsLast>no</IsLast>
<LastValue>5</LastValue>
<SomeValue>5000510625</SomeValue>
</Record><!--Record ends here-->
<Record>
<CurrentValue>5</CurrentValue>
<CurrentIndex>4</CurrentIndex>
<IsLast>yes</IsLast>
<LastValue>5</LastValue>
<SomeValue>5000510625</SomeValue>
</Record><!--Record ends here-->
</iteration>
</root>
Example for JSON to CSV
Sample code to transform from JSON to CSV:
string transformer = File.ReadAllText("Input.json");
string transformer = File.ReadAllText("DataTransformer.csv");
string transformedString = DataTransformer.Transform(transformer, input);
The input file is same as the XML example.
DataTransformer.csv:
"#loop($.numbers)": {#currentvalue(),#currentindex(),
#ifcondition(#currentindex(),#lastindex(),yes,no),#lastvalue(),#valueof($.LogId)}
Output:
1,0,no,5,5000510625
2,1,no,5,5000510625
3,2,no,5,5000510625
4,3,no,5,5000510625
5,4,yes,5,5000510625
Link to Test Source Code (Source Code Also Available Now)
I have made a GitHub repository which contains a C# project and has various transformation scenarios on an input JSON file.
I hope you will have fun using JUST for transforming your JSON documents.
History
- First version of JUST.NET
- Minor correction in the output of the first transformer (
valueof
) - Math function
DEVIDE
has been changed to DIVIDE
after feedback - Added link to GitHub repository for test project
- Added "Array looping" section
- Added "Calling custom functions" section
- Added "Nesting of functions" section
- Added "Multiple argument & constant functions" section
- Added "Schema Validation against multiple schemas using prefixes" section
- Added "Check for existence" section
- Added information about the dotnetcore nuget package
- Added "Transforming JSON to other data formats" section
- Added "Splitting JSON into multiple JSON(s) based upon an array token" section
- Added "Nested array looping (looping within context)" functionality
- Added "Array grouping" section
- Added "Conditional transformation" & "Dynamic properties" sections
- Added "Operators" section, information about source code and .NET standard package