/* * Copyright 2010-2022 JetBrains s.r.o. and Kotlin Programming Language contributors. * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file. */ package test.generated.minmax // // NOTE: THIS FILE IS AUTO-GENERATED by the MinMaxTestGenerator.kt // See: https://github.com/JetBrains/kotlin/tree/master/libraries/stdlib // import kotlin.math.pow import kotlin.test.* import test.* class MinMaxDoubleArrayTest { private fun expectMinMax(min: Double, max: Double, elements: DoubleArray) { assertEquals(min, elements.minOrNull()) assertEquals(max, elements.maxOrNull()) assertEquals(min, elements.min()) assertEquals(max, elements.max()) } @Test fun minMax() { expectMinMax(1.0, 1.0, doubleArrayOf(1.0)) expectMinMax(1.0, 2.0, doubleArrayOf(1.0, 2.0)) expectMinMax(1.0, Double.POSITIVE_INFINITY, doubleArrayOf(1.0, 2.0, Double.POSITIVE_INFINITY)) } @Test fun minMaxEmpty() { val empty = doubleArrayOf() assertNull(empty.minOrNull()) assertNull(empty.maxOrNull()) assertFailsWith { empty.min() } assertFailsWith { empty.max() } } @Test fun minMaxDouble() { val zeroes = doubleArrayOf(0.0, -0.0).apply { shuffle() } val NaNs = doubleArrayOf(0.0, Double.NaN).apply { shuffle() } assertIsNegativeZero(zeroes.min().toDouble()) assertIsNegativeZero(zeroes.minOrNull()!!.toDouble()) assertTrue(NaNs.min().isNaN()) assertTrue(NaNs.minOrNull()!!.isNaN()) assertIsPositiveZero(zeroes.max().toDouble()) assertIsPositiveZero(zeroes.maxOrNull()!!.toDouble()) assertTrue(NaNs.max().isNaN()) assertTrue(NaNs.maxOrNull()!!.isNaN()) } private fun expectMinMaxWith(min: Double, max: Double, elements: DoubleArray, comparator: Comparator) { assertEquals(min, elements.minWithOrNull(comparator)) assertEquals(max, elements.maxWithOrNull(comparator)) assertEquals(min, elements.minWith(comparator)) assertEquals(max, elements.maxWith(comparator)) } @Test fun minMaxWith() { expectMinMaxWith(1.0, 1.0, doubleArrayOf(1.0), naturalOrder()) expectMinMaxWith(1.0, 2.0, doubleArrayOf(1.0, 2.0), naturalOrder()) expectMinMaxWith(1.0, Double.POSITIVE_INFINITY, doubleArrayOf(1.0, 2.0, Double.POSITIVE_INFINITY), naturalOrder()) } @Test fun minMaxWithEmpty() { val empty = doubleArrayOf() assertNull(empty.minWithOrNull(naturalOrder())) assertNull(empty.maxWithOrNull(naturalOrder())) assertFailsWith { empty.minWith(naturalOrder()) } assertFailsWith { empty.maxWith(naturalOrder()) } } private inline fun > expectMinMaxBy(min: Double, max: Double, elements: DoubleArray, selector: (Double) -> K) { assertEquals(min, elements.minBy(selector)) assertEquals(min, elements.minByOrNull(selector)) assertEquals(max, elements.maxBy(selector)) assertEquals(max, elements.maxByOrNull(selector)) } @Test fun minMaxBy() { expectMinMaxBy(1.0, 1.0, doubleArrayOf(1.0), { it }) expectMinMaxBy(1.0, 2.0, doubleArrayOf(1.0, 2.0), { it }) expectMinMaxBy(1.0, Double.POSITIVE_INFINITY, doubleArrayOf(1.0, 2.0, Double.POSITIVE_INFINITY), { it }) } @Test fun minMaxByEmpty() { val empty = doubleArrayOf() assertNull(empty.minByOrNull { it.toString() }) assertNull(empty.maxByOrNull { it.toString() }) assertFailsWith { empty.minBy { it.toString() } } assertFailsWith { empty.maxBy { it.toString() } } } @Test fun minBySelectorEvaluateOnce() { val source = doubleArrayOf(1.0, 2.0, Double.POSITIVE_INFINITY) var c = 0 source.minBy { c++ } assertEquals(3, c) c = 0 source.minByOrNull { c++ } assertEquals(3, c) } @Test fun maxBySelectorEvaluateOnce() { val source = doubleArrayOf(1.0, 2.0, Double.POSITIVE_INFINITY) var c = 0 source.maxBy { c++ } assertEquals(3, c) c = 0 source.maxByOrNull { c++ } assertEquals(3, c) } private inline fun > expectMinMaxOf(min: R, max: R, elements: DoubleArray, selector: (Double) -> R) { assertEquals(min, elements.minOf(selector)) assertEquals(min, elements.minOfOrNull(selector)) assertEquals(max, elements.maxOf(selector)) assertEquals(max, elements.maxOfOrNull(selector)) } @Test fun minMaxOf() { expectMinMaxOf(-1.0, -1.0, doubleArrayOf(1.0), { -it }) expectMinMaxOf(-2.0, -1.0, doubleArrayOf(1.0, 2.0), { -it }) expectMinMaxOf(-Double.POSITIVE_INFINITY, -1.0, doubleArrayOf(1.0, 2.0, Double.POSITIVE_INFINITY), { -it }) } @Test fun minMaxOfDouble() { val middle = 2.0 val items = doubleArrayOf(1.0, 2.0, Double.POSITIVE_INFINITY).apply { shuffle() } assertTrue(items.minOf { it.compareTo(middle).toDouble().pow(0.5) }.isNaN()) assertTrue(items.minOfOrNull { it.compareTo(middle).toDouble().pow(0.5) }!!.isNaN()) assertTrue(items.maxOf { it.compareTo(middle).toDouble().pow(0.5) }.isNaN()) assertTrue(items.maxOfOrNull { it.compareTo(middle).toDouble().pow(0.5) }!!.isNaN()) assertIsNegativeZero(items.minOf { it.compareTo(middle) * 0.0 }) assertIsNegativeZero(items.minOfOrNull { it.compareTo(middle) * 0.0 }!!) assertIsPositiveZero(items.maxOf { it.compareTo(middle) * 0.0 }) assertIsPositiveZero(items.maxOfOrNull { it.compareTo(middle) * 0.0 }!!) } @Test fun minMaxOfFloat() { val middle = 2.0 val items = doubleArrayOf(1.0, 2.0, Double.POSITIVE_INFINITY).apply { shuffle() } assertTrue(items.minOf { it.compareTo(middle).toFloat().pow(0.5F) }.isNaN()) assertTrue(items.minOfOrNull { it.compareTo(middle).toFloat().pow(0.5F) }!!.isNaN()) assertTrue(items.maxOf { it.compareTo(middle).toFloat().pow(0.5F) }.isNaN()) assertTrue(items.maxOfOrNull { it.compareTo(middle).toFloat().pow(0.5F) }!!.isNaN()) assertIsNegativeZero(items.minOf { it.compareTo(middle) * 0.0F }.toDouble()) assertIsNegativeZero(items.minOfOrNull { it.compareTo(middle) * 0.0F }!!.toDouble()) assertIsPositiveZero(items.maxOf { it.compareTo(middle) * 0.0F }.toDouble()) assertIsPositiveZero(items.maxOfOrNull { it.compareTo(middle) * 0.0F }!!.toDouble()) } @Test fun minMaxOfEmpty() { val empty = doubleArrayOf() assertNull(empty.minOfOrNull { it.toString() }) assertNull(empty.maxOfOrNull { it.toString() }) assertFailsWith { empty.minOf { it.toString() } } assertFailsWith { empty.maxOf { it.toString() } } assertNull(empty.minOfOrNull { 0.0 }) assertNull(empty.maxOfOrNull { 0.0 }) assertFailsWith { empty.minOf { 0.0 } } assertFailsWith { empty.maxOf { 0.0 } } assertNull(empty.minOfOrNull { 0.0F }) assertNull(empty.maxOfOrNull { 0.0F }) assertFailsWith { empty.minOf { 0.0F } } assertFailsWith { empty.maxOf { 0.0F } } } private inline fun expectMinMaxOfWith(min: R, max: R, elements: DoubleArray, comparator: Comparator, selector: (Double) -> R) { assertEquals(min, elements.minOfWith(comparator, selector)) assertEquals(min, elements.minOfWithOrNull(comparator, selector)) assertEquals(max, elements.maxOfWith(comparator, selector)) assertEquals(max, elements.maxOfWithOrNull(comparator, selector)) } @Test fun minMaxOfWith() { expectMinMaxOfWith(-1.0, -1.0, doubleArrayOf(1.0), reverseOrder(), { -it }) expectMinMaxOfWith(-1.0, -2.0, doubleArrayOf(1.0, 2.0), reverseOrder(), { -it }) expectMinMaxOfWith(-1.0, -Double.POSITIVE_INFINITY, doubleArrayOf(1.0, 2.0, Double.POSITIVE_INFINITY), reverseOrder(), { -it }) } @Test fun minMaxOfWithEmpty() { val empty = doubleArrayOf() assertNull(empty.minOfWithOrNull(naturalOrder()) { it.toString() }) assertNull(empty.maxOfWithOrNull(naturalOrder()) { it.toString() }) assertFailsWith { empty.minOfWith(naturalOrder()) { it.toString() } } assertFailsWith { empty.maxOfWith(naturalOrder()) { it.toString() } } } }