Kotlin to JavaScript Conversion
The article lists the available types in Kotlin and how they are projected to JavaScript.
Keep in mind that some of Kotlin's fundamental types are translated to a Java type by the Kotlin compiler when targeting Android or the JVM. Those types are the following:
| Kotlin non-nullable type | Java type | Kotlin nullable type | Java type |
|---|---|---|---|
| kotlin.Any | java.lang.Object | kotlin.Any? | java.lang.Object |
| kotlin.String | java.lang.String | kotlin.String? | java.lang.String |
| kotlin.Char | char | kotlin.Char? | java.lang.Character |
| kotlin.Boolean | boolean | kotlin.Boolean? | java.lang.Boolean |
| kotlin.Byte | byte | kotlin.Byte? | java.lang.Byte |
| kotlin.Short | short | kotlin.Short? | java.lang.Short |
| kotlin.Int | int | kotlin.Int? | java.lang.Integer |
| kotlin.Long | long | kotlin.Long? | java.lang.Long |
| kotlin.Float | float | kotlin.Float? | java.lang.Float |
Although the conversion of Kotlin types in NativeScript is quite the same as the Java conversion, let's take a look at some examples.
String & Character
Both kotlin.String and kotlin.Char types are projected as JavaScript String:
var kotlinClass = new com.example.KotlinClassWithStringAndCharProperty();
var str1 = kotlinClass.getStringProperty(); // returns kotlin.String, converted to JS String
var str2 = kotlinClass.getCharProperty(); // returns kotlin.Char, converted to JS String
package com.example
class KotlinClassWithStringAndCharProperty {
val stringProperty: String = "string property"
val charProperty: Char = 'c'
}
Boolean
Kotlin's boolean type kotlin.Boolean is projected as JavaScript Boolean:
var kotlinClass = new com.example.KotlinClassWithBooleanProperty();
var enabled = kotlinClass.getBooleanProperty(); // returns Kotlin Boolean, converted to JS Boolean
package com.example
class KotlinClassWithBooleanProperty {
val booleanProperty: Boolean = false
}
Byte
Kotlin's byte type kotlin.Byte is projected as JavaScript Number:
var kotlinClass = new com.example.KotlinClassWithByteProperty();
var jsByteValue = kotlinClass.getByteProperty(); // returns Kotlin Byte, converted to Number
package com.example
class KotlinClassWithByteProperty {
val byteProperty: Byte = 42
}
Short
Kotlin's short type kotlin.Short is projected as JavaScript Number:
var kotlinClass = new com.example.KotlinClassWithShortProperty();
var jsShortValue = kotlinClass.getShortProperty(); // returns Kotlin Short, converted to Number
package com.example
class KotlinClassWithShortProperty {
val shortProperty: Short = 42
}
Integer
Kotlin's integer type kotlin.Int is projected as JavaScript Number:
var kotlinClass = new com.example.KotlinClassWithIntProperty();
var jsIntValue = kotlinClass.getIntProperty(); // returns Kotlin Int, converted to Number
package com.example
class KotlinClassWithIntProperty {
val intProperty: Int = 42
}
Float
Kotlin's float type kotlin.Float is projected as JavaScript Number:
var kotlinClass = new com.example.KotlinClassWithFloatProperty();
var jsFloatValue = kotlinClass.getFloatProperty(); // returns Kotlin Float, converted to Number
package com.example
class KotlinClassWithFloatProperty {
val floatProperty: Float = 42.0f
}
Double
Kotlin's double type kotlin.Double is projected as JavaScript Number:
var kotlinClass = new com.example.KotlinClassWithDoubleProperty();
var jsDoubleValue = kotlinClass.getDoubleProperty(); // returns Kotlin double, converted to Number
package com.example
class KotlinClassWithDoubleProperty {
val doubleProperty: Double = 42.0
}
Long
Kotlin's long type kotlin.Long is a special type which is projected to JavaScript by applying the following rules:
- If the value is in the interval (-2^53, 2^53) then it is converted to Number
-
Else a special object with the following characteristics is
created:
- Has Number.NaN set as a prototype
- Has value property set to the string representation of the Kotlin long value
- Its valueOf() method returns NaN
- Its toString() method returns the string representation of the Kotlin long value
package com.example
class KotlinClassWithLongProperties {
val longNumber54Bits: Long
get() = (1 shl 54).toLong()
val longNumber53Bits: Long
get() = (1 shl 53).toLong()
}
var kotlinClass = new com.example.KotlinClassWithLongProperties();
var jsNumber = kotlinClass.getLongNumber53Bits(); // result is JavaScript Number
var specialObject = kotlinClass.getLongNumber54Bits(); // result is the special object described above
Array
Array in Kotlin is a special object that has an implicit Class associated. A Kotlin Array is projected to JavaScript as a special JavaScript proxy object with the following characteristics:
- Has length property
-
Has registered indexed getter and setter callbacks, which:
- If the array contains elements of type convertible to a JavaScript type, then accessing the n-th element will return a converted type
- If the array contains elements of type non-convertible to JavaScript, then accessing the n-th element will return a proxy object over the Kotlin type (see Accessing APIs)
var kotlinClass = new com.example.KotlinClassWithStringArrayProperty();
var kotlinArray = kotlinClass.getStringArrayProperty(); // kotlinArray is a special object as described above
var firstStringElement = kotlinArray[0]; // the indexed getter callback is triggered and the kotlin.String is returned as a JS string
package com.example
class KotlinClassWithStringArrayProperty {
val stringArrayProperty: Array<String> = arrayOf("element1", "element2", "element3")
}
Note: A Kotlin Array is intentionally not converted to a JavaScript Array for the sake of performance, especially when it comes to large arrays.
Creating arrays
Occasionally you have to create Kotlin arrays from JavaScript. Because of the translation of the fundamental Kotlin types to Java types in Android, creating Kotlin array could be done the same way Java arrays are created. This is described in Java to JavaScript
Null
The Kotlin null literal (or null pointer) is projected to JavaScript Null:
var kotlinClass = new com.example.KotlinClassWithNullableProperty();
var nullableValue = kotlinClass.getNullableProperty(); // if there is no value, the method will return JS null
package com.example
class KotlinClassWithNullableProperty() {
val nullableProperty: Any? = null
}
Kotlin Types
All Kotlin types are projected to JavaScript using the Package and Class proxies as described in Accessing APIs
Kotlin Companion objects
Kotlin's
companion objects
could be accessed in JavaScript the same way they can be
accessed in Java - by accessing the
Companion field:
var companion = com.example.KotlinClassWithCompanion.Companion;
var data = companion.getDataFromCompanion();
package com.example
class KotlinClassWithCompanion {
companion object {
fun getDataFromCompanion() = "some data"
}
}
Kotlin Object
Kotlin's objects could be accessed in JavaScript the same way they can be accessed in Java - by accessing the INSTANCE field:
var objectInstance = com.example.KotlinObject.INSTANCE;
var data = objectInstance.getDataFromObject();
package com.example
object KotlinObject {
fun getDataFromObject() = "some data"
}
Accessing Kotlin properties
Kotlin's properties could be accessed in JavaScript the same way they can be accessed in Java - by using their compiler-generated get/set methods. Non-boolean Kotlin properties could be used in NativeScript applications as JS fields as well.
var kotlinClass = new com.example.KotlinClassWithStringProperty();
var propertyValue = kotlinClass.getStringPropert();
kotlinClass.setStringProperty("example");
propertyValue = kotlinClass.stringProperty;
kotlinClass.stringProperty = "second example";
package com.example
class KotlinClassWithStringProperty(var stringProperty: kotlin.String)
Accessing Kotlin package-level functions
Currently using Kotlin package-level functions could not be achieved easily. In order to use a package-level function, the class where it's defined should be known. Let's take a look at an example:
var randomNumber = com.example.FunctionsKt.getRandomNumber();
package com.example
fun getRandomNumber() = 42
In the example above, the class FunctionsKt is
autogenerated by the Kotlin compiler and its name is based on
the name of the file where the functions are defined. Kotlin
supports annotating a file to have a user provided name and this
simplifies using package-level functions:
var randomNumber = com.example.UtilityFunctions.getRandomNumber();
@file:JvmName("UtilityFunctions")
package com.example
fun getRandomNumber() = 42
Accessing Kotlin extension functions
Currently using Kotlin extension functions could not be achieved easily. In order to use an extension function, the class where it's defined should be known. Also, when invoking it, the first parameter should be an instance of the type for which the function is defined. Let's take a look at an example:
var arrayList = new java.util.ArrayList();
arrayList.add("firstElement");
arrayList.add("secondElement");
com.example.Extensions.switchPlaces(arrayList, 0, 1);
package com.example
import java.util.ArrayList
fun ArrayList<String>.switchPlaces(firstElementIndex: Int, secondElementIndex: Int) {
val temp = this[firstElementIndex]
this[firstElementIndex] = this[secondElementIndex]
this[secondElementIndex] = temp
}
In the example above, the class ExtensionsKt is
autogenerated by the Kotlin compiler and its name is based on
the name of the file where the functions are defined. Kotlin
supports annotating a file to have a user provided name and this
simplifies using package-level functions:
var arrayList = new java.util.ArrayList();
arrayList.add("firstElement");
arrayList.add("secondElement");
com.example.ExtensionFunctions.switchPlaces(arrayList, 0, 1);
@file:JvmName("ExtensionFunctions")
package com.example
import java.util.ArrayList
fun ArrayList<String>.switchPlaces(firstElementIndex: Int, secondElementIndex: Int) {
val temp = this[firstElementIndex]
this[firstElementIndex] = this[secondElementIndex]
this[secondElementIndex] = temp
}