/* * Copyright 2010-2020 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. */ @file:OptIn(ExperimentalTime::class) package test.time import kotlin.test.* import kotlin.time.* class TestTimeSourceTest { @Test fun overflows() { for (enormousDuration in listOf(Duration.INFINITE, Double.MAX_VALUE.nanoseconds, Long.MAX_VALUE.nanoseconds * 2)) { assertFailsWith(enormousDuration.toString()) { TestTimeSource() += enormousDuration } assertFailsWith((-enormousDuration).toString()) { TestTimeSource() += -enormousDuration } } val moderatePositiveDuration = Long.MAX_VALUE.takeHighestOneBit().nanoseconds val borderlinePositiveDuration = Long.MAX_VALUE.nanoseconds // rounded to 2.0^63, which is slightly more than Long.MAX_VALUE val borderlineNegativeDuration = Long.MIN_VALUE.nanoseconds run { val timeSource = TestTimeSource() timeSource += moderatePositiveDuration assertFailsWith("Should overflow positive") { timeSource += moderatePositiveDuration } } run { val timeSource = TestTimeSource() timeSource += borderlinePositiveDuration assertFailsWith("Should overflow positive") { timeSource += 1.nanoseconds } } run { val timeSource = TestTimeSource() timeSource += borderlineNegativeDuration assertFailsWith("Should overflow negative") { timeSource += -1.nanoseconds } } run { val timeSource = TestTimeSource() timeSource += moderatePositiveDuration // does not overflow event if duration doesn't fit in long timeSource += -moderatePositiveDuration + borderlineNegativeDuration } } @Test fun nanosecondRounding() { val timeSource = TestTimeSource() val mark = timeSource.markNow() repeat(10_000) { timeSource += 0.9.nanoseconds assertEquals(Duration.ZERO, mark.elapsedNow()) } timeSource += 1.9.nanoseconds assertEquals(1.nanoseconds, mark.elapsedNow()) } }