Каким образом работает оператор ..
в Kotlin?
1 ответ
Оператор ..
, это метод rangeTo
public operator fun <T : Comparable<T>> T.rangeTo(that: T): ClosedRange<T> = ComparableRange(this, that)
Класс ComparableRange
представляет собой класс диапазонов которые сравниваются между собой.
/**
* Represents a range of [Comparable] values.
*/
private open class ComparableRange<T : Comparable<T>>(
override val start: T,
override val endInclusive: T
) : ClosedRange<T> {
override fun equals(other: Any?): Boolean {
return other is ComparableRange<*> && (isEmpty() && other.isEmpty() ||
start == other.start && endInclusive == other.endInclusive)
}
override fun hashCode(): Int {
return if (isEmpty()) -1 else 31 * start.hashCode() + endInclusive.hashCode()
}
override fun toString(): String = "$start..$endInclusive"
}
Он наследует интерфейс ClosedRange
, который предоставляет метод сравнения lessThanOrEquals
.
public interface ClosedRange<T: Comparable<T>> {
/**
* The minimum value in the range.
*/
public val start: T
/**
* The maximum value in the range (inclusive).
*/
public val endInclusive: T
/**
* Checks whether the specified [value] belongs to the range.
*/
public operator fun contains(value: T): Boolean = value >= start && value <= endInclusive
/**
* Checks whether the range is empty.
*/
public fun isEmpty(): Boolean = start > endInclusive
}
Когда вы создаёте range целых чисел (1..10
\ 1.rangeTo(10)
), создаётся IntRange
/**
* A range of values of type `Int`.
*/
public class IntRange(start: Int, endInclusive: Int) : IntProgression(start, endInclusive, 1), ClosedRange<Int> {
override val start: Int get() = first
override val endInclusive: Int get() = last
override fun contains(value: Int): Boolean = first <= value && value <= last
override fun isEmpty(): Boolean = first > last
override fun equals(other: Any?): Boolean =
other is IntRange && (isEmpty() && other.isEmpty() ||
first == other.first && last == other.last)
override fun hashCode(): Int =
if (isEmpty()) -1 else (31 * first + last)
override fun toString(): String = "$first..$last"
companion object {
/** An empty range of values of type Int. */
public val EMPTY: IntRange = IntRange(1, 0)
}
}
Который в свою очередь унаследован от IntProgression
.
public open class IntProgression
internal constructor
(
start: Int,
endInclusive: Int,
step: Int
) : Iterable<Int> {
init {
if (step == 0) throw kotlin.IllegalArgumentException("Step must be non-zero.")
if (step == Int.MIN_VALUE) throw kotlin.IllegalArgumentException("Step must be greater than Int.MIN_VALUE to avoid overflow on negation.")
}
/**
* The first element in the progression.
*/
public val first: Int = start
/**
* The last element in the progression.
*/
public val last: Int = getProgressionLastElement(start.toInt(), endInclusive.toInt(), step).toInt()
/**
* The step of the progression.
*/
public val step: Int = step
override fun iterator(): IntIterator = IntProgressionIterator(first, last, step)
/** Checks if the progression is empty. */
public open fun isEmpty(): Boolean = if (step > 0) first > last else first < last
override fun equals(other: Any?): Boolean =
other is IntProgression && (isEmpty() && other.isEmpty() ||
first == other.first && last == other.last && step == other.step)
override fun hashCode(): Int =
if (isEmpty()) -1 else (31 * (31 * first + last) + step)
override fun toString(): String = if (step > 0) "$first..$last step $step" else "$first downTo $last step ${-step}"
companion object {
/**
* Creates IntProgression within the specified bounds of a closed range.
* The progression starts with the [rangeStart] value and goes toward the [rangeEnd] value not excluding it, with the specified [step].
* In order to go backwards the [step] must be negative.
*
* [step] must be greater than `Int.MIN_VALUE` and not equal to zero.
*/
public fun fromClosedRange(rangeStart: Int, rangeEnd: Int, step: Int): IntProgression = IntProgression(rangeStart, rangeEnd, step)
}
}
В данном классе и присутствует метод iterator()
, который возвращает объект IntProgressionIterator
.
/**
* An iterator over a progression of values of type `Int`.
* @property step the number by which the value is incremented on each step.
*/
internal class IntProgressionIterator(first: Int, last: Int, val step: Int) : IntIterator() {
private val finalElement = last
private var hasNext: Boolean = if (step > 0) first <= last else first >= last
private var next = if (hasNext) first else finalElement
override fun hasNext(): Boolean = hasNext
override fun nextInt(): Int {
val value = next
if (value == finalElement) {
if (!hasNext) throw kotlin.NoSuchElementException()
hasNext = false
}
else {
next += step
}
return value
}
}
А дальше уже знакомый паттерн Iterator
, который просто перебирает все элементы от первого до конца, но в случае с числами просто добавляется шаг (step
).
Реализация:
https://github.com/JetBrains/kotlin/blob/master/libraries/stdlib/src/kotlin/ranges/Ranges.kt https://github.com/JetBrains/kotlin-native/blob/master/runtime/src/main/kotlin/kotlin/ranges/Ranges.kt https://github.com/JetBrains/kotlin-native/blob/master/runtime/src/main/kotlin/kotlin/ranges/Progressions.kt https://github.com/JetBrains/kotlin-native/blob/master/runtime/src/main/kotlin/kotlin/ranges/ProgressionIterators.kt