net.corda.client.fxutils / ReplayedList

ReplayedList

class ReplayedList<A> : TransformationList<A, A>

This list type just replays changes propagated from the underlying source list. Used for testing changes and backing a non-backed observable



Constructors

<init> ReplayedList(sourceList: ObservableList<A>)

This list type just replays changes propagated from the underlying source list. Used for testing changes and backing a non-backed observable

Properties

replayedList val replayedList: ArrayList<A>
size val size: Int

Functions

get fun get(index: Int): A
getSourceIndex fun getSourceIndex(index: Int): Int
sourceChanged fun sourceChanged(c: Change<out A>): Unit

Extension Functions

associateBy fun <K, A, B> ObservableList<out A>.associateBy(toKey: (A) -> K, assemble: (K, A) -> B): ObservableMap<K, B>

data class Person(val height: Long) val people: ObservableList = (..) val nameToHeight: ObservableMap<String, Long> = people.associateBy(Person::name) { name, person -> person.height }

fun <K, A> ObservableList<out A>.associateBy(toKey: (A) -> K): ObservableMap<K, A>

val people: ObservableList = (..) val nameToPerson: ObservableMap<String, Person> = people.associateBy(Person::name)

associateByAggregation fun <K : Any, A : Any, B> ObservableList<out A>.associateByAggregation(toKey: (A) -> K, assemble: (K, A) -> B): ObservableMap<K, ObservableList<B>>

val people: ObservableList = (..) val heightToNames: ObservableMap<Long, ObservableList> = people.associateByAggregation(Person::height) { name, person -> person.name }

fun <K : Any, A : Any> ObservableList<out A>.associateByAggregation(toKey: (A) -> K): ObservableMap<K, ObservableList<A>>

val people: ObservableList = (..) val heightToPeople: ObservableMap<Long, ObservableList> = people.associateByAggregation(Person::height)

filter fun <A> ObservableList<out A>.filter(predicate: ObservableValue<(A) -> Boolean>): ObservableList<A>

enum class FilterCriterion { HEIGHT, NAME } val filterCriterion: ObservableValue = (..) val people: ObservableList = (..) fun filterFunction(filterCriterion: FilterCriterion): (Person) -> Boolean { .. }

filterNotNull fun <A> ObservableList<out A?>.filterNotNull(): ObservableList<A>

data class Dog(val owner: Person?) val dogs: ObservableList = (..) val owners: ObservableList = dogs.map(Dog::owner).filterNotNull()

first fun <A> ObservableList<A>.first(): ObservableValue<A?>
foldObservable fun <A, B> ObservableList<out A>.foldObservable(initial: B, folderFunction: (B, A) -> B): ObservableValue<B>

val people: ObservableList = (..) val concatenatedNames = people.foldObservable("", { names, person -> names + person.name }) val concatenatedNames2 = people.map(Person::name).fold("", String::plus)

getValueAt fun <A> ObservableList<A>.getValueAt(index: Int): ObservableValue<A?>
indexOfOrThrow fun <T> List<T>.indexOfOrThrow(item: T): Int

Returns the index of the given item or throws IllegalArgumentException if not found.

last fun <A> ObservableList<A>.last(): ObservableValue<A?>
leftOuterJoin fun <A : Any, B : Any, C, K : Any> ObservableList<A>.leftOuterJoin(rightTable: ObservableList<B>, leftToJoinKey: (A) -> K, rightToJoinKey: (B) -> K, assemble: (A, ObservableList<B>) -> C): ObservableList<C>

data class Person(val name: String, val managerName: String) val people: ObservableList = (..) val managerEmployeeMapping: ObservableList<Pair<Person, ObservableList>> = people.leftOuterJoin(people, Person::name, Person::managerName) { manager, employees -> Pair(manager, employees) }

fun <A : Any, B : Any, K : Any> ObservableList<A>.leftOuterJoin(rightTable: ObservableList<B>, leftToJoinKey: (A) -> K, rightToJoinKey: (B) -> K): ObservableMap<K, <ERROR CLASS><ObservableList<A>, ObservableList<B>>>

data class Person(name: String, favouriteSpecies: Species) data class Animal(name: String, species: Species) val people: ObservableList = (..) val animals: ObservableList = (..) val peopleToFavouriteAnimals: ObservableMap<Species, Pair<ObservableList, ObservableList>> = people.leftOuterJoin(animals, Person::favouriteSpecies, Animal::species)

map fun <A, B> ObservableList<out A>.map(cached: Boolean = true, function: (A) -> B): ObservableList<B>

val dogs: ObservableList = (..) val dogOwners: ObservableList = dogs.map { it.owner }

noneOrSingle fun <T> Iterable<T>.noneOrSingle(predicate: (T) -> Boolean): T?

Returns the single element matching the given predicate, or null if element was not found, or throws if more than one element was found.

fun <T> Iterable<T>.noneOrSingle(): T?

Returns single element, or null if element was not found, or throws if more than one element was found.