I have an object:
class User {
var id: String? = null
var name: String? = null
}
and list of pairs:
val fieldsToChange = listOf<Pair<String, String>>(Pair("name", "foo"), Pair("id", "bar"))
I would like to iterate trough list of pairs and set appropriate values for given properties using reflection.
Given class instance obj we can extract properties with names using obj::class.memberProperties.
We can construct a mapping from property name to property:
val nameToProperty = obj::class.memberProperties.associateBy(KProperty<*>::name)
Then we can iterate over fieldsToChange and retrieve property and set it:
fieldsToChange.forEach { (propertyName, propertyValue) ->
nameToProperty[propertyName]
.takeIf { it is KMutableProperty<*> } // take only "settable" (var) properties
?.let { it as KMutableProperty<*> } // cast it to mutable property so we can access setter
?.let { it.setter.call(obj, propertyValue) } // call the setter
}
Additionally, we can make this generic:
fun setFields(obj: Any, fieldsToChange: List<Pair<String, Any?>>) {
val nameToProperty = obj::class.memberProperties.associateBy(KProperty<*>::name)
fieldsToChange.forEach { (propertyName, propertyValue) ->
nameToProperty[propertyName]
.takeIf { it is KMutableProperty<*> }
?.let { it as KMutableProperty<*> }
?.let { it.setter.call(obj, propertyValue) }
}
}
val user = User()
setFields(user, fieldsToChange)
assert(user.name == "foo")
assert(user.id == "bar")
Possible improvement would be to optimize nameToProperty to contain only MutableProperties already casted to KMutableProperty
You can use a map as a delegate for that:
class User(map: Map<String, String>) {
val id: String by map
val name: String by map
}
val fieldsToChange = listOf(Pair("name", "foo"), Pair("id", "bar"))
val map = fieldsToChange.map { it.first to it.second }.toMap()
val user = User(map)
Related
Let's say I'm having a class like:
#Serializable
data class MyClass(
#SerialName("a") val a: String?,
#SerialName("b") val b: String
)
Assume the a is null and b's value is "b value", then Json.stringify(MyClass.serializer(), this) produces:
{ "a": null, "b": "b value" }
Basically if a is null, I wanted to get this:
{ "b": "b value" }
From some research I found this is currently not doable out of the box with Kotlinx Serialization so I was trying to build a custom serializer to explicitly ignore null value. I followed the guide from here but couldn't make a correct one.
Can someone please shed my some light? Thanks.
You can use explicitNulls = false
example:
#OptIn(ExperimentalSerializationApi::class)
val format = Json { explicitNulls = false }
#Serializable
data class Project(
val name: String,
val language: String,
val version: String? = "1.3.0",
val website: String?,
)
fun main() {
val data = Project("kotlinx.serialization", "Kotlin", null, null)
val json = format.encodeToString(data)
println(json) // {"name":"kotlinx.serialization","language":"Kotlin"}
}
https://github.com/Kotlin/kotlinx.serialization/blob/master/docs/json.md#explicit-nulls
Use encodeDefaults = false property in JsonConfiguration and it won't serialize nulls (or other optional values)
Try this (not tested, just based on adapting the example):
#Serializable
data class MyClass(val a: String?, val b: String) {
#Serializer(forClass = MyClass::class)
companion object : KSerializer<MyClass> {
override val descriptor: SerialDescriptor = object : SerialClassDescImpl("MyClass") {
init {
addElement("a")
addElement("b")
}
}
override fun serialize(encoder: Encoder, obj: MyClass) {
encoder.beginStructure(descriptor).run {
obj.a?.let { encodeStringElement(descriptor, 0, obj.a) }
encodeStringElement(descriptor, 1, obj.b)
endStructure(descriptor)
}
}
override fun deserialize(decoder: Decoder): MyClass {
var a: String? = null
var b = ""
decoder.beginStructure(descriptor).run {
loop# while (true) {
when (val i = decodeElementIndex(descriptor)) {
CompositeDecoder.READ_DONE -> break#loop
0 -> a = decodeStringElement(descriptor, i)
1 -> b = decodeStringElement(descriptor, i)
else -> throw SerializationException("Unknown index $i")
}
}
endStructure(descriptor)
}
return MyClass(a, b)
}
}
}
Since I was also struggling with this one let me share with you the solution I found that is per property and does not require to create serializer for the whole class.
class ExcludeIfNullSerializer : KSerializer<String?> {
override fun deserialize(decoder: Decoder): String {
return decoder.decodeString()
}
override val descriptor: SerialDescriptor
get() = PrimitiveSerialDescriptor("ExcludeNullString", PrimitiveKind.STRING)
override fun serialize(encoder: Encoder, value: String?) {
if (value != null) {
encoder.encodeString(value)
}
}
}
will work as expected with the following class
#Serializable
class TestDto(
#SerialName("someString")
val someString: String,
#SerialName("id")
#EncodeDefault(EncodeDefault.Mode.NEVER)
#Serializable(with = ExcludeIfNullSerializer::class)
val id: String? = null
)
Note the #EncodeDefault(EncodeDefault.Mode.NEVER) is crucial here in case you using JsonBuilder with encodeDefaults = true, as in this case the serialization library will still add the 'id' json key even if the value of id field is null unless using this annotation.
JsonConfiguration is deprecated in favor of Json {} builder since kotlinx.serialization 1.0.0-RC according to its changelog.
Now you have to code like this:
val json = Json { encodeDefaults = false }
val body = json.encodeToString(someSerializableObject)
As of now, for anyone seeing this pos today, default values are not serialized (see https://github.com/Kotlin/kotlinx.serialization/blob/master/docs/basic-serialization.md#defaults-are-not-encoded-by-default)
So you simply add to set a default null value, and it will not be serialized.
I want to convert java class from this post Retrofit — Multiple query parameters of same name where name is set dynamically to kotlin.
public class ProxyRetrofitQueryMap extends HashMap<String, Object> {
public ProxyRetrofitQueryMap(Map<String, Object> m) {
super(m);
}
#Override
public Set<Entry<String, Object>> entrySet() {
Set<Entry<String, Object>> newSet = new HashSet<>();
return newSet;
}
}
Conversion does not help, it gives Platform declaration clash. I want to manually create Kotlin class which extends from HashMap, but this class does not have entrySet() function. What to do?
When using a kotlin.collections.HashMap or java.util.HashMap, the entrySet() function is accessible through their entries property, which you can override like so:
class ProxyRetrofitQueryMap : HashMap<String, Any>() {
override val entries: MutableSet<MutableMap.MutableEntry<String, Any>>
get() {
val newSet = HashSet<MutableMap.MutableEntry<String, Any>>()
return newSet
}
}
You can confirm that this property maps to the original function by using it in code and then navigating to its declaration in the IDE. Unfortunately, the documentation doesn't seem to state this behaviour explicitly, or at least I couldn't find it.
Here's the full solution, converted to Kotlin:
class ProxyRetrofitQueryMap(m: MutableMap<String, Any>) : HashMap<String, Any>(m) {
override val entries: MutableSet<MutableMap.MutableEntry<String, Any>>
get() {
val originSet: Set<Map.Entry<String?, Any?>> = super.entries
val newSet: MutableSet<MutableMap.MutableEntry<String, Any>> = HashSet()
for ((key, entryValue) in originSet) {
val entryKey = key ?: throw IllegalArgumentException("Query map contained null key.")
// Skip null values
requireNotNull(entryValue) { "Query map contained null value for key '$entryKey'." }
if (entryValue is List<*>) {
for (arrayValue in entryValue) {
if (arrayValue != null) { // Skip null values
val newEntry: MutableMap.MutableEntry<String, Any> =
SimpleEntry(entryKey, arrayValue)
newSet.add(newEntry)
}
}
} else {
val newEntry: MutableMap.MutableEntry<String, Any> = SimpleEntry(entryKey, entryValue)
newSet.add(newEntry)
}
}
return newSet
}
}
This is annotation definition:
#Target(AnnotationTarget.PROPERTY)
#Retention(AnnotationRetention.RUNTIME)
#MustBeDocumented
annotation class MyAnno(val desc: String, val comment: String) { }
And below is where the MyAnno used:
class MyAnnoUser {
#MyAnno(desc = "name", comment = "name comment")
lateinit var name: String
#MyAnno(desc = "age", comment = "age comment")
var age: Int = 0
#MyAnno(desc = "money", comment = "money comment")
var money: Double = 0.0
#MyAnno(desc = "gender", comment = "gender comment")
var gender: Boolean = false
override fun toString(): String {
return "(name: $name; age: $age; money: $money; gender: ${if (gender) "men" else "women"})"
}
}
Here's code to read the value in MyAnno:
class MyAnnoExpression(val obj: Any, val context: Context) {
val numTypeSet = setOf("Int", "Double", "Byte")
fun expression() {
val clazz = obj::class
clazz.declaredMemberProperties.forEach { prop ->
val mutableProp = try {
prop as KMutableProperty<*>
} catch (e: Exception) {
null
} ?: return#forEach
val desc = mutableProp.findAnnotation<MyAnno>()
desc?.let {
val propClassName = mutableProp.returnType.toString().removePrefix("kotlin.")
when (propClassName) {
in numTypeSet -> mutableProp.setter.call(obj, (readProp(it, context) as kotlin.String).toNum(propClassName))
"String" -> mutableProp.setter.call(obj, (readProp(it, context) as kotlin.String))
"Boolean" -> mutableProp.setter.call(obj, (readProp(it, context) as kotlin.String).toBoolean())
}
}
}
}
private fun readProp(value: MyAnno, context: Context): Any? {
val prop = Properties()
val input = context.assets.open("app.properties")
prop.load(InputStreamReader(input, "utf-8"))
return prop.get(value.desc)
}
}
Now the Debugger shows me following info of value in readProp(...) function:
#com.demo.basekotlin.MyAnno(comment=age comment, desc=age)
But i got exception when read desc from value:
An exception occurs during Evaluate Expression Action : org.jetbrains.eval4j.VOID_VALUE cannot be cast to org.jetbrains.eval4j.AbstractValue
I can't find any thing wrong in my code, is there another program setting needed?
As I understand you just want to see annotation value for given property.
First, let's declare an annotation.
#Target(PROPERTY)
#Retention(AnnotationRetention.RUNTIME)
annotation class PropertyAnnotation(val desc: String)
Container:
class Container {
#PropertyAnnotation("Name")
var name: String? = null
#PropertyAnnotation("Age")
var age: Int = -1
var notAnnotatedProperty: String = "not annotated"
}
And finally, code responsible for get all declared properties, then find a properties annotated as PropertyAnnotation, cast it to it, and get value from it.
fun main() {
val container = Container()
container::class.declaredMemberProperties.forEach { property ->
(property.annotations.find {
it is PropertyAnnotation
} as? PropertyAnnotation)?.let {
println("Property: `$property` is ${it.desc}")
}
}
}
Output:
Property: `var Container.age: kotlin.Int` is Age
Property: `var Container.name: kotlin.String?` is Name
Kind ugly. But, let's use more Kotlin pro-dev-features.
Let's create extension function for any not-null type which returns all member property of given type:
inline fun <reified T : Any> Any.getMemberProperty(): List<T> {
return this::class.declaredMemberProperties.mapNotNull { prop ->
(prop.annotations.find { ann -> ann is T }) as? T
}
}
And now usage:
fun main() {
val container = Container()
container.getMemberProperty<PropertyAnnotation>().forEach {
println(it.desc)
}
}
In Kotlin, is there any shorter syntax for this code:
if(swipeView == null){
swipeView = view.find<MeasureTypePieChart>(R.id.swipeableView)
}
First i tried this:
swipeView ?: view.find<MeasureTypePieChart>(R.id.swipeableView)
but then i realised that wasn't an assignment, so that code does nothing. Then i tried:
swipeView = swipeView ?: view.find<MeasureTypePieChart>(R.id.swipeableView)
Which works, but it a bit verbose. I would expect something like this:
swipeView ?= view.find<MeasureTypePieChart>
But unfortunately that doesn't work. Is there any way of accomplish this with a short syntax?
I know i can do this:
variable?.let { it = something } which works.
Shorter syntax would be to avoid swipeView from ever being null.
Local variable
If swipeView is a local variable then you can declare it non-null when initially assigning it:
val swipeView = ... ?: view.find<MeasureTypePieChart>(R.id.swipeableView)
Function argument
If swipeView is a function argument then you can use a default argument to ensure it is never null:
fun something(swipeView: View = view.find<MeasureTypePieChart>(R.id.swipeableView))
Class property
Read-only
If swipeView is a read-only class property (i.e. val) then you can use Kotlin's built-in Lazy:
val swipeView by lazy { view.find<MeasureTypePieChart>(R.id.swipeableView) }
Mutable
If swipeView is a mutable class property (i.e. var) then you can define your own delegate similar to Lazy but mutable. e.g. The following is based on kotlin/Lazy.kt:
interface MutableLazy<T> : Lazy<T> {
override var value: T
}
fun <T> mutableLazy(initializer: () -> T): MutableLazy<T> = SynchronizedMutableLazyImpl(initializer)
fun <T> mutableLazy(lock: Any?, initializer: () -> T): MutableLazy<T> = SynchronizedMutableLazyImpl(initializer, lock)
operator fun <T> MutableLazy<T>.getValue(thisRef: Any?, property: KProperty<*>): T = value
operator fun <T> MutableLazy<T>.setValue(thisRef: Any?, property: KProperty<*>, value: T) {
this.value = value
}
private object UNINITIALIZED_VALUE
private class SynchronizedMutableLazyImpl<T>(initializer: () -> T, lock: Any? = null) : MutableLazy<T>, Serializable {
private var initializer: (() -> T)? = initializer
#Volatile private var _value: Any? = UNINITIALIZED_VALUE
// final field is required to enable safe publication of constructed instance
private val lock = lock ?: this
override var value: T
get() {
val _v1 = _value
if (_v1 !== UNINITIALIZED_VALUE) {
#Suppress("UNCHECKED_CAST")
return _v1 as T
}
return synchronized(lock) {
val _v2 = _value
if (_v2 !== UNINITIALIZED_VALUE) {
#Suppress("UNCHECKED_CAST") (_v2 as T)
} else {
val typedValue = initializer!!()
_value = typedValue
initializer = null
typedValue
}
}
}
set(value) {
val _v1 = _value
if (_v1 !== UNINITIALIZED_VALUE) {
_value = value
} else synchronized(lock) {
_value = value
initializer = null
}
}
override fun isInitialized(): Boolean = _value !== UNINITIALIZED_VALUE
override fun toString(): String = if (isInitialized()) value.toString() else "MutableLazy value not initialized yet."
}
Usage:
var swipeView by mutableLazy { view.find<MeasureTypePieChart>(R.id.swipeableView) }
The initializer will only be called if swipeView is read and is not initialized yet (from a previous read or write).
Suppose I only want one or two fields to be included in the generated equals and hashCode implementations (or perhaps exclude one or more fields). For a simple class, e.g.:
data class Person(val id: String, val name: String)
Groovy has this:
#EqualsAndHashCode(includes = 'id')
Lombok has this:
#EqualsAndHashCode(of = "id")
What is the idiomatic way of doing this in Kotlin?
My approach so far
data class Person(val id: String) {
// at least we can guarantee it is present at access time
var name: String by Delegates.notNull()
constructor(id: String, name: String): this(id) {
this.name = name
}
}
Just feels wrong though... I don't really want name to be mutable, and the extra constructor definition is ugly.
I've used this approach.
data class Person(val id: String, val name: String) {
override fun equals(other: Person) = EssentialData(this) == EssentialData(other)
override fun hashCode() = EssentialData(this).hashCode()
override fun toString() = EssentialData(this).toString().replaceFirst("EssentialData", "Person")
}
private data class EssentialData(val id: String) {
constructor(person: Person) : this(id = person.id)
}
This approach may be suitable for property exclusion:
class SkipProperty<T>(val property: T) {
override fun equals(other: Any?) = true
override fun hashCode() = 0
}
SkipProperty.equals simply returns true, which causes the embeded property to be skipped in equals of parent object.
data class Person(
val id: String,
val name: SkipProperty<String>
)
I also don't know "the idomatic way" in Kotlin (1.1) to do this...
I ended up overriding equals and hashCode:
data class Person(val id: String,
val name: String) {
override fun equals(other: Any?): Boolean {
if (this === other) return true
if (other?.javaClass != javaClass) return false
other as Person
if (id != other.id) return false
return true
}
override fun hashCode(): Int {
return id.hashCode()
}
}
Isn't there a "better" way?
This builds on #bashor's approach and uses a private primary and a public secondary constructor. Sadly the property to be ignored for equals cannot be a val, but one can hide the setter, so the result is equivalent from an external perspective.
data class ExampleDataClass private constructor(val important: String) {
var notSoImportant: String = ""
private set
constructor(important: String, notSoImportant: String) : this(important) {
this.notSoImportant = notSoImportant
}
}
Here's a somewhat creative approach:
data class IncludedArgs(val args: Array<out Any>)
fun includedArgs(vararg args: Any) = IncludedArgs(args)
abstract class Base {
abstract val included : IncludedArgs
override fun equals(other: Any?) = when {
this identityEquals other -> true
other is Base -> included == other.included
else -> false
}
override fun hashCode() = included.hashCode()
override fun toString() = included.toString()
}
class Foo(val a: String, val b : String) : Base() {
override val included = includedArgs(a)
}
fun main(args : Array<String>) {
val foo1 = Foo("a", "b")
val foo2 = Foo("a", "B")
println(foo1 == foo2) //prints "true"
println(foo1) //prints "IncludedArgs(args=[a])"
}
Reusable solution: to have an easy way to select which fields to include in equals() and hashCode(), I wrote a little helper called "stem" (essential core data, relevant for equality).
Usage is straightforward, and the resulting code very small:
class Person(val id: String, val name: String) {
private val stem = Stem(this, { id })
override fun equals(other: Any?) = stem.eq(other)
override fun hashCode() = stem.hc()
}
It's possible to trade off the backing field stored in the class with extra computation on-the-fly:
private val stem get() = Stem(this, { id })
Since Stem takes any function, you are free to specify how the equality is computed. For more than one field to consider, just add one lambda expression per field (varargs):
private val stem = Stem(this, { id }, { name })
Implementation:
class Stem<T : Any>(
private val thisObj: T,
private vararg val properties: T.() -> Any?
) {
fun eq(other: Any?): Boolean {
if (thisObj === other)
return true
if (thisObj.javaClass != other?.javaClass)
return false
// cast is safe, because this is T and other's class was checked for equality with T
#Suppress("UNCHECKED_CAST")
other as T
return properties.all { thisObj.it() == other.it() }
}
fun hc(): Int {
// Fast implementation without collection copies, based on java.util.Arrays.hashCode()
var result = 1
for (element in properties) {
val value = thisObj.element()
result = 31 * result + (value?.hashCode() ?: 0)
}
return result
}
#Deprecated("Not accessible; use eq()", ReplaceWith("this.eq(other)"), DeprecationLevel.ERROR)
override fun equals(other: Any?): Boolean =
throw UnsupportedOperationException("Stem.equals() not supported; call eq() instead")
#Deprecated("Not accessible; use hc()", ReplaceWith("this.hc(other)"), DeprecationLevel.ERROR)
override fun hashCode(): Int =
throw UnsupportedOperationException("Stem.hashCode() not supported; call hc() instead")
}
In case you're wondering about the last two methods, their presence makes the following erroneous code fail at compile time:
override fun equals(other: Any?) = stem.equals(other)
override fun hashCode() = stem.hashCode()
The exception is merely a fallback if those methods are invoked implicitly or through reflection; can be argued if it's necessary.
Of course, the Stem class could be further extended to include automatic generation of toString() etc.
Simpler, faster, look at there, or into the Kotlin documentation.
https://discuss.kotlinlang.org/t/ignoring-certain-properties-when-generating-equals-hashcode-etc/2715/2
Only fields inside the primary constructor are taken into account to build automatic access methods like equals and so on. Do keep the meaningless ones outside.
Here is another hacky approach if you don't want to touch the data class.
You can reuse the entire equals() from data classes while excluding some fields.
Just copy() the classes with fixed values for excluded fields:
data class Person(val id: String,
val name: String)
fun main() {
val person1 = Person("1", "John")
val person2 = Person("2", "John")
println("Full equals: ${person1 == person2}")
println("equals without id: ${person1.copy(id = "") == person2.copy(id = "")}")
}
Output:
Full equals: false
equals without id: true
Consider the following generic approach for the implementation of equals/hashcode. The code below should have no performance impact because of the use of inlining and kotlin value classes:
#file:Suppress("EXPERIMENTAL_FEATURE_WARNING")
package org.beatkit.common
import kotlin.jvm.JvmInline
#Suppress("NOTHING_TO_INLINE")
#JvmInline
value class HashCode(val value: Int = 0) {
inline fun combineHash(hash: Int): HashCode = HashCode(31 * value + hash)
inline fun combine(obj: Any?): HashCode = combineHash(obj.hashCode())
}
#Suppress("NOTHING_TO_INLINE")
#JvmInline
value class Equals(val value: Boolean = true) {
inline fun combineEquals(equalsImpl: () -> Boolean): Equals = if (!value) this else Equals(equalsImpl())
inline fun <A : Any> combine(lhs: A?, rhs: A?): Equals = combineEquals { lhs == rhs }
}
#Suppress("NOTHING_TO_INLINE")
object Objects {
inline fun hashCode(builder: HashCode.() -> HashCode): Int = builder(HashCode()).value
inline fun hashCode(vararg objects: Any?): Int = hashCode {
var hash = this
objects.forEach {
hash = hash.combine(it)
}
hash
}
inline fun hashCode(vararg hashes: Int): Int = hashCode {
var hash = this
hashes.forEach {
hash = hash.combineHash(it)
}
hash
}
inline fun <T : Any> equals(
lhs: T,
rhs: Any?,
allowSubclasses: Boolean = false,
builder: Equals.(T, T) -> Equals
): Boolean {
if (rhs == null) return false
if (lhs === rhs) return true
if (allowSubclasses) {
if (!lhs::class.isInstance(rhs)) return false
} else {
if (lhs::class != rhs::class) return false
}
#Suppress("unchecked_cast")
return builder(Equals(), lhs, rhs as T).value
}
}
With this in place, you can easily implement/override any equals/hashcode implementation in a uniform way:
data class Foo(val title: String, val bytes: ByteArray, val ignore: Long) {
override fun equals(other: Any?): Boolean {
return Objects.equals(this, other) { lhs, rhs ->
this.combine(lhs.title, rhs.title)
.combineEquals { lhs.bytes contentEquals rhs.bytes }
// ignore the third field for equals
}
}
override fun hashCode(): Int {
return Objects.hashCode(title, bytes) // ignore the third field for hashcode
}
}
You can create an annotation that represents the exclusion of the property as #ExcludeToString or with #ToString(Type.EXCLUDE) parameters by defining enum.
And then using reflection format the value of the getToString().
#Target(AnnotationTarget.FIELD)
#Retention(AnnotationRetention.RUNTIME)
annotation class ExcludeToString
data class Test(
var a: String = "Test A",
#ExcludeToString var b: String = "Test B"
) {
override fun toString(): String {
return ExcludeToStringUtils.getToString(this)
}
}
object ExcludeToStringUtils {
fun getToString(obj: Any): String {
val toString = LinkedList<String>()
getFieldsNotExludeToString(obj).forEach { prop ->
prop.isAccessible = true
toString += "${prop.name}=" + prop.get(obj)?.toString()?.trim()
}
return "${obj.javaClass.simpleName}=[${toString.joinToString(", ")}]"
}
private fun getFieldsNotExludeToString(obj: Any): List<Field> {
val declaredFields = obj::class.java.declaredFields
return declaredFields.filterNot { field ->
isFieldWithExludeToString(field)
}
}
private fun isFieldWithExludeToString(field: Field): Boolean {
field.annotations.forEach {
if (it.annotationClass == ExcludeToString::class) {
return true
}
}
return false
}
}
GL
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