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/*
* Copyright 2019-2023 John A. De Goes and the ZIO Contributors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package zio.test
import zio._
import zio.stacktracer.TracingImplicits.disableAutoTrace
import java.util.concurrent.atomic.AtomicReference
import scala.collection.immutable.SortedSet
/**
* A `TestAspect` is an aspect that can be weaved into specs. You can think of
* an aspect as a polymorphic function, capable of transforming one test into
* another, possibly enlarging the environment or error type.
*/
abstract class TestAspect[+LowerR, -UpperR, +LowerE, -UpperE] { self =>
/**
* Applies the aspect to some tests in the spec, chosen by the provided
* predicate.
*/
def some[R >: LowerR <: UpperR, E >: LowerE <: UpperE](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E]
/**
* An alias for [[all]].
*/
final def apply[R >: LowerR <: UpperR, E >: LowerE <: UpperE](spec: Spec[R, E])(implicit
trace: Trace
): Spec[R, E] =
all(spec)
/**
* Applies the aspect to every test in the spec.
*/
final def all[R >: LowerR <: UpperR, E >: LowerE <: UpperE](spec: Spec[R, E])(implicit
trace: Trace
): Spec[R, E] =
some[R, E](spec)
/**
* Returns a new aspect that represents the sequential composition of this
* aspect with the specified one.
*/
final def >>>[LowerR1 >: LowerR, UpperR1 <: UpperR, LowerE1 >: LowerE, UpperE1 <: UpperE](
that: TestAspect[LowerR1, UpperR1, LowerE1, UpperE1]
): TestAspect[LowerR1, UpperR1, LowerE1, UpperE1] =
new TestAspect[LowerR1, UpperR1, LowerE1, UpperE1] {
def some[R >: LowerR1 <: UpperR1, E >: LowerE1 <: UpperE1](
spec: Spec[R, E]
)(implicit trace: Trace): Spec[R, E] =
that.some(self.some(spec))
}
/**
* Returns a new aspect that represents the sequential composition of this
* aspect with the specified one.
*/
final def @@[LowerR1 >: LowerR, UpperR1 <: UpperR, LowerE1 >: LowerE, UpperE1 <: UpperE](
that: TestAspect[LowerR1, UpperR1, LowerE1, UpperE1]
): TestAspect[LowerR1, UpperR1, LowerE1, UpperE1] =
self >>> that
final def andThen[LowerR1 >: LowerR, UpperR1 <: UpperR, LowerE1 >: LowerE, UpperE1 <: UpperE](
that: TestAspect[LowerR1, UpperR1, LowerE1, UpperE1]
): TestAspect[LowerR1, UpperR1, LowerE1, UpperE1] =
self >>> that
}
object TestAspect extends TimeoutVariants {
/**
* An aspect that returns the tests unchanged
*/
val identity: TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] =
spec
}
/**
* An aspect that marks tests as ignored.
*/
val ignore: TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] =
spec.when(false)
}
/**
* Constructs an aspect that runs the specified effect after every test.
*/
def after[R0, E0](effect: ZIO[R0, E0, Any]): TestAspect[Nothing, R0, E0, Any] =
new TestAspect.PerTest[Nothing, R0, E0, Any] {
def perTest[R <: R0, E >: E0](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
test.exit
.zipWith(effect.catchAllCause(cause => ZIO.fail(TestFailure.Runtime(cause))).exit)(_ <* _)
.flatMap(ZIO.done(_))
}
/**
* Constructs an aspect that runs the specified effect after all tests.
*/
def afterAll[R0](effect: ZIO[R0, Nothing, Any]): TestAspect[Nothing, R0, Nothing, Any] =
aroundAll(ZIO.unit, effect)
/**
* Annotates tests with the specified test annotation.
*/
def annotate[V](key: TestAnnotation[V], value: V): TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] =
spec.annotate(key, value)
}
/**
* Constructs an aspect that evaluates every test between two effects,
* `before` and `after`, where the result of `before` can be used in `after`.
*/
def aroundWith[R0, E0, A0](
before: ZIO[R0, E0, A0]
)(after: A0 => ZIO[R0, Nothing, Any]): TestAspect[Nothing, R0, E0, Any] =
new TestAspect.PerTest[Nothing, R0, E0, Any] {
def perTest[R <: R0, E >: E0](test: ZIO[R, TestFailure[E], TestSuccess])(implicit
trace: Trace
): ZIO[R, TestFailure[E], TestSuccess] =
ZIO.acquireReleaseWith(before.catchAllCause(c => ZIO.fail(TestFailure.Runtime(c))))(after)(_ => test)
}
/**
* A less powerful variant of `around` where the result of `before` is not
* required by after.
*/
def around[R0, E0](before: ZIO[R0, E0, Any], after: ZIO[R0, Nothing, Any]): TestAspect[Nothing, R0, E0, Any] =
aroundWith(before)(_ => after)
/**
* Constructs an aspect that evaluates all tests between two effects, `before`
* and `after`, where the result of `before` can be used in `after`.
*/
def aroundAllWith[R0, E0, A0](
before: ZIO[R0, E0, A0]
)(after: A0 => ZIO[R0, Nothing, Any]): TestAspect[Nothing, R0, E0, Any] =
new TestAspect[Nothing, R0, E0, Any] {
def some[R <: R0, E >: E0](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] =
Spec.scoped[R](
ZIO.acquireRelease(before)(after).mapError(TestFailure.fail).as(spec)
)
}
/**
* A less powerful variant of `aroundAll` where the result of `before` is not
* required by `after`.
*/
def aroundAll[R0, E0](before: ZIO[R0, E0, Any], after: ZIO[R0, Nothing, Any]): TestAspect[Nothing, R0, E0, Any] =
aroundAllWith(before)(_ => after)
/**
* Constructs an aspect that evaluates every test inside the context of the
* scoped function.
*/
def aroundTest[R0, E0](
scoped: ZIO[Scope with R0, TestFailure[E0], TestSuccess => ZIO[R0, TestFailure[E0], TestSuccess]]
): TestAspect[Nothing, R0, E0, Any] =
new TestAspect.PerTest[Nothing, R0, E0, Any] {
def perTest[R <: R0, E >: E0](test: ZIO[R, TestFailure[E], TestSuccess])(implicit
trace: Trace
): ZIO[R, TestFailure[E], TestSuccess] =
ZIO.scoped[R](scoped.flatMap(f => test.flatMap(f)))
}
/**
* Constructs a simple monomorphic aspect that only works with the specified
* environment and error type.
*/
def aspect[R0, E0](
f: ZIO[R0, TestFailure[E0], TestSuccess] => ZIO[R0, TestFailure[E0], TestSuccess]
): TestAspect[R0, R0, E0, E0] =
new TestAspect.PerTest[R0, R0, E0, E0] {
def perTest[R >: R0 <: R0, E >: E0 <: E0](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
f(test)
}
/**
* Constructs an aspect that runs the specified effect before every test.
*/
def before[R0, E0](effect: ZIO[R0, E0, Any]): TestAspect[Nothing, R0, E0, Any] =
new TestAspect.PerTest[Nothing, R0, E0, Any] {
def perTest[R <: R0, E >: E0](test: ZIO[R, TestFailure[E], TestSuccess])(implicit
trace: Trace
): ZIO[R, TestFailure[E], TestSuccess] =
effect.catchAllCause(cause => ZIO.fail(TestFailure.failCause(cause))) *> test
}
/**
* Constructs an aspect that runs the specified effect a single time before
* all tests.
*/
def beforeAll[R0, E0](effect: ZIO[R0, E0, Any]): TestAspect[Nothing, R0, E0, Any] =
aroundAll(effect, ZIO.unit)
/**
* An aspect that runs each test on a separate fiber and prints a fiber dump
* if the test fails or has not terminated within the specified duration.
*/
def diagnose(duration: Duration): TestAspectPoly =
new TestAspectPoly {
def some[R, E](
spec: Spec[R, E]
)(implicit trace: Trace): Spec[R, E] = {
def diagnose[R, E](
label: String,
test: ZIO[R, TestFailure[E], TestSuccess]
): ZIO[R, TestFailure[E], TestSuccess] =
test.fork.flatMap { fiber =>
fiber.join.raceWith[R, TestFailure[E], TestFailure[E], Unit, TestSuccess](Live.live(ZIO.sleep(duration)))(
(exit, sleepFiber) => dump(label).when(!exit.isSuccess) *> sleepFiber.interrupt *> ZIO.done(exit),
(_, _) => dump(label) *> fiber.join
)
}
def dump[E, A](label: String): UIO[Unit] =
Annotations.supervisedFibers.flatMap { fibers =>
Live.live(ZIO.foreachDiscard(fibers) { fiber =>
for {
dump <- fiber.dump
str <- dump.prettyPrint
_ <- Console.printLine(str).orDie
} yield ()
})
}
spec.transform[R, E] {
case Spec.TestCase(test, annotations) => Spec.TestCase(diagnose("", test), annotations)
case c => c
}
}
}
/**
* An aspect that runs each test with the `TestConsole` instance in the
* environment set to debug mode so that console output is rendered to
* standard output in addition to being written to the output buffer.
*/
val debug: TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
TestConsole.debug(test)
}
/**
* An aspect that retries a test until success, without limit.
*/
val eventually: TestAspectPoly = {
val eventually = new PerTest.Poly {
def perTest[R, E](test: ZIO[R, TestFailure[E], TestSuccess])(implicit
trace: Trace
): ZIO[R, TestFailure[E], TestSuccess] =
test.eventually
}
restoreTestEnvironment >>> eventually
}
/**
* An aspect that runs tests on all platforms except ScalaJS.
*/
val exceptJS: TestAspectPoly =
if (TestPlatform.isJS) ignore else identity
/**
* An aspect that runs tests on all platforms except the JVM.
*/
val exceptJVM: TestAspectPoly =
if (TestPlatform.isJVM) ignore else identity
/**
* An aspect that runs tests on all platforms except ScalaNative.
*/
val exceptNative: TestAspectPoly =
if (TestPlatform.isNative) ignore else identity
/**
* An aspect that runs tests on all versions except Scala 2.
*/
val exceptScala2: TestAspectPoly =
if (TestVersion.isScala2) ignore else identity
/**
* An aspect that runs tests on all versions except Scala 2.12.
*/
val exceptScala212: TestAspectPoly =
if (TestVersion.isScala212) ignore else identity
/**
* An aspect that runs tests on all versions except Scala 2.13.
*/
val exceptScala213: TestAspectPoly =
if (TestVersion.isScala213) ignore else identity
/**
* An aspect that runs tests on all versions except Scala 3.
*/
val exceptScala3: TestAspectPoly =
if (TestVersion.isScala3) ignore else identity
/**
* An aspect that sets suites to the specified execution strategy, but only if
* their current strategy is inherited (undefined).
*/
def executionStrategy(exec: ExecutionStrategy): TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] =
Spec.exec(exec, spec)
}
/**
* An aspect that makes a test that failed for any reason pass. Note that if
* the test passes this aspect will make it fail.
*/
val failing: TestAspectPoly =
failing(_ => true)
/**
* An aspect that makes a test that failed for the specified failure pass.
* Note that the test will fail for other failures and also if it passes
* correctly.
*/
def failing[E0](assertion: TestFailure[E0] => Boolean): TestAspect[Nothing, Any, Nothing, E0] =
new TestAspect.PerTest[Nothing, Any, Nothing, E0] {
def perTest[R, E <: E0](test: ZIO[R, TestFailure[E], TestSuccess])(implicit
trace: Trace
): ZIO[R, TestFailure[E], TestSuccess] =
test.foldZIO(
failure =>
if (assertion(failure)) ZIO.succeed(TestSuccess.Succeeded())
else ZIO.fail(TestFailure.die(new RuntimeException("did not fail as expected"))),
_ => ZIO.fail(TestFailure.die(new RuntimeException("did not fail as expected")))
)
}
/**
* An aspect that records the state of fibers spawned by the current test in
* [[TestAnnotation.fibers]]. Applied by default in [[ZIOSpecAbstract]]. This
* aspect is required for the proper functioning * of `TestClock.adjust`.
*/
lazy val fibers: TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] = {
val acquire = ZIO.succeed(new AtomicReference(SortedSet.empty[Fiber.Runtime[Any, Any]])).tap { ref =>
Annotations.annotate(TestAnnotation.fibers, Right(Chunk(ref)))
}
val release = Annotations.get(TestAnnotation.fibers).flatMap {
case Right(refs) =>
ZIO
.foreach(refs)(ref => ZIO.succeed(ref.get))
.map(_.foldLeft(SortedSet.empty[Fiber.Runtime[Any, Any]])(_ ++ _).size)
.tap { n =>
Annotations.annotate(TestAnnotation.fibers, Left(n))
}
case Left(_) => ZIO.unit
}
ZIO.acquireReleaseWith(acquire)(_ => release) { ref =>
Supervisor.fibersIn(ref).flatMap(supervisor => test.supervised(supervisor))
}
}
}
/**
* An aspect that retries a test until success, with a default limit, for use
* with flaky tests.
*/
val flaky: TestAspectPoly = {
val flaky = new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
TestConfig.retries.flatMap { n =>
test.catchAll(_ => test.tapError(_ => Annotations.annotate(TestAnnotation.retried, 1)).retryN(n - 1))
}
}
restoreTestEnvironment >>> flaky
}
/**
* An aspect that retries a test until success, with the specified limit, for
* use with flaky tests.
*/
def flaky(n: Int): TestAspectPoly = {
val flaky = new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
test.catchAll(_ => test.tapError(_ => Annotations.annotate(TestAnnotation.retried, 1)).retryN(n - 1))
}
restoreTestEnvironment >>> flaky
}
/**
* An aspect that runs each test on its own separate fiber.
*/
val forked: TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](test: ZIO[R, TestFailure[E], TestSuccess])(implicit
trace: Trace
): ZIO[R, TestFailure[E], TestSuccess] =
test.fork.flatMap(_.join)
}
/**
* Constructs an aspect from a layer that does not produce any services.
*/
def fromLayer[R0, E0](layer: ZLayer[R0, E0, Any]): TestAspect[Nothing, R0, E0, Any] =
new TestAspect[Nothing, R0, E0, Any] {
def some[R <: R0, E >: E0](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] =
spec.provideSomeLayer[R](layer)
}
/**
* As aspect that runs each test with the specified `ZIOAspect`.
*/
def fromZIOAspect[LowerR, UpperR, LowerE, UpperE](
zioAspect: ZIOAspect[LowerR, UpperR, TestFailure[LowerE], TestFailure[UpperE], TestSuccess, TestSuccess]
): TestAspect[LowerR, UpperR, LowerE, UpperE] =
new TestAspect.PerTest[LowerR, UpperR, LowerE, UpperE] {
def perTest[R >: LowerR <: UpperR, E >: LowerE <: UpperE](test: ZIO[R, TestFailure[E], TestSuccess])(implicit
trace: Trace
): ZIO[R, TestFailure[E], TestSuccess] =
zioAspect(test)
}
/**
* An aspect that only runs a test if the specified environment variable
* satisfies the specified assertion.
*/
def ifEnv(env: String)(assertion: String => Boolean): TestAspectPoly =
ifEnvOption(env)(_.fold(false)(assertion))
/**
* An aspect that only runs a test if the specified environment variable is
* not set.
*/
def ifEnvNotSet(env: String): TestAspectPoly =
ifEnvOption(env)(_.isEmpty)
/**
* An aspect that only runs a test if the specified optional environment
* variable satisfies the specified assertion.
*/
def ifEnvOption(env: String)(assertion: Option[String] => Boolean): TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] =
spec.whenZIO(Live.live(System.env(env)).orDie.map(assertion))
}
/**
* An aspect that only runs a test if the specified environment variable is
* set.
*/
def ifEnvSet(env: String): TestAspectPoly =
ifEnvOption(env)(_.nonEmpty)
/**
* An aspect that only runs a test if the specified Java property satisfies
* the specified assertion.
*/
def ifProp(prop: String)(assertion: String => Boolean): TestAspectPoly =
ifPropOption(prop)(_.fold(false)(assertion))
/**
* An aspect that only runs a test if the specified Java property is not set.
*/
def ifPropNotSet(env: String): TestAspectPoly =
ifPropOption(env)(_.isEmpty)
/**
* An aspect that only runs a test if the specified optional Java property
* satisfies the specified assertion.
*/
def ifPropOption(prop: String)(assertion: Option[String] => Boolean): TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] =
spec.whenZIO(Live.live(System.property(prop)).orDie.map(assertion))
}
/**
* An aspect that only runs a test if the specified Java property is set.
*/
def ifPropSet(prop: String): TestAspectPoly =
ifPropOption(prop)(_.nonEmpty)
/**
* An aspect that applies the specified aspect on ScalaJS.
*/
def js[LowerR, UpperR, LowerE, UpperE](
that: TestAspect[LowerR, UpperR, LowerE, UpperE]
): TestAspect[LowerR, UpperR, LowerE, UpperE] =
if (TestPlatform.isJS) that else identity
/**
* An aspect that only runs tests on ScalaJS.
*/
val jsOnly: TestAspectPoly =
if (TestPlatform.isJS) identity else ignore
/**
* An aspect that applies the specified aspect on the JVM.
*/
def jvm[LowerR, UpperR, LowerE, UpperE](
that: TestAspect[LowerR, UpperR, LowerE, UpperE]
): TestAspect[LowerR, UpperR, LowerE, UpperE] =
if (TestPlatform.isJVM) that else identity
/**
* An aspect that only runs tests on the JVM.
*/
val jvmOnly: TestAspectPoly =
if (TestPlatform.isJVM) identity else ignore
/**
* An aspect that runs only on operating systems accepted by the specified
* predicate.
*/
def os(f: System.OS => Boolean): TestAspectPoly =
if (f(System.os)) identity else ignore
/**
* Runs only on Mac operating systems.
*/
val mac: TestAspectPoly = os(_.isMac)
/**
* An aspect that applies the specified aspect on ScalaNative.
*/
def native[LowerR, UpperR, LowerE, UpperE](
that: TestAspect[LowerR, UpperR, LowerE, UpperE]
): TestAspect[LowerR, UpperR, LowerE, UpperE] =
if (TestPlatform.isNative) that else identity
/**
* An aspect that only runs tests on ScalaNative.
*/
val nativeOnly: TestAspectPoly =
if (TestPlatform.isNative) identity else ignore
/**
* An aspect that repeats the test a default number of times, ensuring it is
* stable ("non-flaky"). Stops at the first failure.
*/
val nonFlaky: TestAspectPoly = {
val nonFlaky = new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
TestConfig.repeats.flatMap { n =>
test *> test.tap(_ => Annotations.annotate(TestAnnotation.repeated, 1)).repeatN(n - 1)
}
}
restoreTestEnvironment >>> nonFlaky
}
/**
* An aspect that repeats the test a specified number of times, ensuring it is
* stable ("non-flaky"). Stops at the first failure.
*/
def nonFlaky(n: Int): TestAspectPoly = {
val nonFlaky = new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
test *> test.tap(_ => Annotations.annotate(TestAnnotation.repeated, 1)).repeatN(n - 1)
}
restoreTestEnvironment >>> nonFlaky
}
/**
* Constructs an aspect that requires a test to not terminate within the
* specified time.
*/
def nonTermination(duration: Duration): TestAspectPoly =
timeout(duration) >>>
failing {
case TestFailure.Assertion(_, _) => false
case TestFailure.Runtime(cause, _) =>
cause.dieOption match {
case Some(t) => t.getMessage == s"Timeout of ${duration.render} exceeded."
case None => false
}
}
/**
* Sets the seed of the `TestRandom` instance in the environment to a random
* value before each test.
*/
val nondeterministic: TestAspectPoly =
before(
Live
.live(Random.nextLong(Trace.empty))(Trace.empty)
.flatMap(TestRandom.setSeed(_)(Trace.empty))(Trace.empty)
)
/**
* An aspect that executes the members of a suite in parallel.
*/
val parallel: TestAspectPoly =
executionStrategy(ExecutionStrategy.Parallel)
/**
* An aspect that executes the members of a suite in parallel, up to the
* specified number of concurrent fibers.
*/
def parallelN(n: Int): TestAspectPoly =
executionStrategy(ExecutionStrategy.ParallelN(n))
/**
* An aspect that repeats successful tests according to a schedule.
*/
def repeat[R0](
schedule: Schedule[R0, TestSuccess, Any]
): TestAspectAtLeastR[R0] = {
val repeat = new PerTest.AtLeastR[R0] {
def perTest[R <: R0, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
ZIO.environmentWithZIO { r =>
val repeatSchedule: Schedule[Any, TestSuccess, TestSuccess] =
schedule
.zipRight(Schedule.identity[TestSuccess])
.tapOutput(_ => Annotations.annotate(TestAnnotation.repeated, 1))
.provideEnvironment(r)
Live.live(test.provideEnvironment(r).repeat(repeatSchedule))
}
}
restoreTestEnvironment >>> repeat
}
/**
* An aspect that runs each test with the number of times to repeat tests to
* ensure they are stable set to the specified value.
*/
def repeats(n: Int): TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
testConfigWith { old =>
val testConfig = new TestConfig {
val repeats = n
val retries = old.retries
val samples = old.samples
val shrinks = old.shrinks
}
withTestConfig(testConfig)(test)
}
}
/**
* An aspect that restores a given [[zio.test.Restorable Restorable]]'s state
* to its starting state after the test is run. Note that this is only useful
* when repeating tests.
*/
def restore(restorable: UIO[Restorable]): TestAspectPoly =
aroundWith(restorable.flatMap(_.save(Trace.empty))(Trace.empty))(restore => restore)
/**
* An aspect that restores the [[zio.test.TestClock TestClock]]'s state to its
* starting state after the test is run. Note that this is only useful when
* repeating tests.
*/
def restoreTestClock: TestAspectPoly =
restore(testClock(Trace.empty))
/**
* An aspect that restores the [[zio.test.TestConsole TestConsole]]'s state to
* its starting state after the test is run. Note that this is only useful
* when repeating tests.
*/
def restoreTestConsole: TestAspectPoly =
restore(testConsole(Trace.empty))
/**
* An aspect that restores the [[zio.test.TestRandom TestRandom]]'s state to
* its starting state after the test is run. Note that this is only useful
* when repeating tests.
*/
def restoreTestRandom: TestAspectPoly =
restore(testRandom(Trace.empty))
/**
* An aspect that restores the [[zio.test.TestSystem TestSystem]]'s state to
* its starting state after the test is run. Note that this is only useful
* when repeating tests.
*/
def restoreTestSystem: TestAspectPoly =
restore(testSystem(Trace.empty))
/**
* An aspect that restores all state in the standard provided test
* environments ([[zio.test.TestClock TestClock]],
* [[zio.test.TestConsole TestConsole]], [[zio.test.TestRandom TestRandom]],
* and [[zio.test.TestSystem TestSystem]]) to their starting state after the
* test is run. Note that this is only useful when repeating tests.
*/
def restoreTestEnvironment: TestAspectPoly =
restoreTestClock >>> restoreTestConsole >>> restoreTestRandom >>> restoreTestSystem
/**
* An aspect that runs each test with the number of times to retry flaky tests
* set to the specified value.
*/
def retries(n: Int): TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
testConfigWith { old =>
val testConfig = new TestConfig {
val repeats = old.repeats
val retries = n
val samples = old.samples
val shrinks = old.shrinks
}
withTestConfig(testConfig)(test)
}
}
/**
* An aspect that retries failed tests according to a schedule.
*/
def retry[R0, E0](
schedule: Schedule[R0, TestFailure[E0], Any]
): TestAspect[Nothing, R0, Nothing, E0] = {
val retry = new TestAspect.PerTest[Nothing, R0, Nothing, E0] {
def perTest[R <: R0, E <: E0](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
ZIO.environmentWithZIO[R] { r =>
val retrySchedule: Schedule[Any, TestFailure[E0], Any] =
schedule
.tapOutput(_ => Annotations.annotate(TestAnnotation.retried, 1))
.provideEnvironment(r)
Live.live(test.provideEnvironment(r).retry(retrySchedule))
}
}
restoreTestEnvironment >>> retry
}
/**
* An aspect that runs each test with the number of sufficient samples to
* check for a random variable set to the specified value.
*/
def samples(n: Int): TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
testConfigWith { old =>
val testConfig = new TestConfig {
val repeats = old.repeats
val retries = old.retries
val samples = n
val shrinks = old.shrinks
}
withTestConfig(testConfig)(test)
}
}
/**
* An aspect that executes the members of a suite sequentially.
*/
val sequential: TestAspectPoly =
executionStrategy(ExecutionStrategy.Sequential)
/**
* An aspect that applies the specified aspect on Scala 2.
*/
def scala2[LowerR, UpperR, LowerE, UpperE](
that: TestAspect[LowerR, UpperR, LowerE, UpperE]
): TestAspect[LowerR, UpperR, LowerE, UpperE] =
if (TestVersion.isScala2) that else identity
/**
* An aspect that applies the specified aspect on Scala 2.12.
*/
def scala212[LowerR, UpperR, LowerE, UpperE](
that: TestAspect[LowerR, UpperR, LowerE, UpperE]
): TestAspect[LowerR, UpperR, LowerE, UpperE] =
if (TestVersion.isScala212) that else identity
/**
* An aspect that applies the specified aspect on Scala 2.13.
*/
def scala213[LowerR, UpperR, LowerE, UpperE](
that: TestAspect[LowerR, UpperR, LowerE, UpperE]
): TestAspect[LowerR, UpperR, LowerE, UpperE] =
if (TestVersion.isScala213) that else identity
/**
* An aspect that applies the specified aspect on Scala 3.
*/
def scala3[LowerR, UpperR, LowerE, UpperE](
that: TestAspect[LowerR, UpperR, LowerE, UpperE]
): TestAspect[LowerR, UpperR, LowerE, UpperE] =
if (TestVersion.isScala3) that else identity
/**
* An aspect that only runs tests on Scala 2.
*/
val scala2Only: TestAspectPoly =
if (TestVersion.isScala2) identity else ignore
/**
* An aspect that only runs tests on Scala 2.12.
*/
val scala212Only: TestAspectPoly =
if (TestVersion.isScala212) identity else ignore
/**
* An aspect that only runs tests on Scala 2.13.
*/
val scala213Only: TestAspectPoly =
if (TestVersion.isScala213) identity else ignore
/**
* An aspect that only runs tests on Scala 3.
*/
val scala3Only: TestAspectPoly =
if (TestVersion.isScala3) identity else ignore
/**
* Sets the seed of the `TestRandom` instance in the environment to the
* specified value before each test.
*/
def setSeed(seed: => Long): TestAspectPoly =
before(TestRandom.setSeed(seed)(Trace.empty))
/**
* An aspect that runs each test with the maximum number of shrinkings to
* minimize large failures set to the specified value.
*/
def shrinks(n: Int): TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
testConfigWith { old =>
val testConfig = new TestConfig {
val repeats = old.repeats
val retries = old.retries
val samples = old.samples
val shrinks = n
}
withTestConfig(testConfig)(test)
}
}
/**
* An aspect that runs each test with the [[zio.test.TestConsole TestConsole]]
* instance in the environment set to silent mode so that console output is
* only written to the output buffer and not rendered to standard output.
*/
val silent: TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
TestConsole.silent(test)
}
/**
* As aspect that runs each test with the default console logger removed so
* that logs are only written to the output buffer and not rendered to
* standard output.
*/
val silentLogging: TestAspectPoly =
TestAspect.fromLayer(Runtime.removeDefaultLoggers)
/**
* An aspect that runs each test with the size set to the specified value.
*/
def size(n: Int): TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](test: ZIO[R, TestFailure[E], TestSuccess])(implicit
trace: Trace
): ZIO[R, TestFailure[E], TestSuccess] =
Sized.withSize(n)(test)
}
/**
* An aspect that runs each test with the size set to the specified value.
*/
@deprecated("use size", "2.0.2")
def sized(n: Int): TestAspectPoly =
size(n)
/**
* An aspect that converts ignored tests into test failures.
*/
val success: TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
test.flatMap {
case TestSuccess.Ignored(_) =>
ZIO.fail(TestFailure.Runtime(Cause.die(new RuntimeException("Test was ignored."))))
case x => ZIO.succeed(x)
}
}
/**
* Annotates tests with string tags.
*/
def tag(tag: String, tags: String*): TestAspectPoly =
annotate(TestAnnotation.tagged, Set(tag) union tags.toSet)
/**
* Annotates tests with their execution times.
*/
val timed: TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] =
Live.withLive(test)(_.either.summarized(Clock.instant)(TestDuration.fromInterval)).flatMap {
case (duration, result) =>
ZIO.fromEither(result).ensuring(Annotations.annotate(TestAnnotation.timing, duration))
}
}
/**
* An aspect that times out tests using the specified duration.
* @param duration
* maximum test duration
*/
def timeout(
duration: Duration
): TestAspectPoly =
new PerTest.Poly {
def perTest[R, E](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess] = {
def timeoutFailure =
TestTimeoutException(s"Timeout of ${duration.render} exceeded.")
Live
.withLive(test)(_.either.disconnect.timeout(duration).flatMap {
case None => ZIO.fail(TestFailure.Runtime(Cause.die(timeoutFailure)))
case Some(result) => ZIO.fromEither(result)
})
}
}
/**
* Verifies the specified post-condition after each test is run.
*/
def verify[R0, E0](condition: => ZIO[R0, E0, TestResult]): TestAspect[Nothing, R0, E0, Any] =
new TestAspect.PerTest[Nothing, R0, E0, Any] {
def perTest[R <: R0, E >: E0](test: ZIO[R, TestFailure[E], TestSuccess])(implicit
trace: Trace
): ZIO[R, TestFailure[E], TestSuccess] =
test <* ZTest("verify", condition)
}
/**
* Runs only on Unix / Linux operating systems.
*/
val unix: TestAspectPoly = os(_.isUnix)
/**
* Runs only on Windows operating systems.
*/
val windows: TestAspectPoly = os(_.isWindows)
/**
* An aspect that runs tests with the specified config provider.
*/
def withConfigProvider(configProvider: ConfigProvider): TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] =
spec.provideSomeLayer[R](Runtime.setConfigProvider(configProvider))
}
/**
* An aspect that runs tests with the live clock service.
*/
lazy val withLiveClock: TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] = {
val layer = ZLayer.scoped {
for {
clock <- live(ZIO.clock)
_ <- ZIO.withClockScoped(clock)
} yield ()
}
spec.provideSomeLayer[R](layer)
}
}
/**
* An aspect that runs tests with the live console service.
*/
lazy val withLiveConsole: TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] = {
val layer = ZLayer.scoped {
for {
console <- live(ZIO.console)
_ <- ZIO.withConsoleScoped(console)
} yield ()
}
spec.provideSomeLayer[R](layer)
}
}
/**
* An aspect that runs tests with the live default ZIO services.
*/
lazy val withLiveEnvironment: TestAspectPoly =
withLiveClock >>>
withLiveConsole >>>
withLiveRandom >>>
withLiveSystem
/**
* An aspect that runs tests with the live random service.
*/
lazy val withLiveRandom: TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] = {
val layer = ZLayer.scoped {
for {
random <- live(ZIO.random)
_ <- ZIO.withRandomScoped(random)
} yield ()
}
spec.provideSomeLayer[R](layer)
}
}
/**
* An aspect that runs tests with the live system service.
*/
lazy val withLiveSystem: TestAspectPoly =
new TestAspectPoly {
def some[R, E](spec: Spec[R, E])(implicit trace: Trace): Spec[R, E] = {
val layer = ZLayer.scoped {
for {
system <- live(ZIO.system)
_ <- ZIO.withSystemScoped(system)
} yield ()
}
spec.provideSomeLayer[R](layer)
}
}
abstract class PerTest[+LowerR, -UpperR, +LowerE, -UpperE] extends TestAspect[LowerR, UpperR, LowerE, UpperE] {
def perTest[R >: LowerR <: UpperR, E >: LowerE <: UpperE](
test: ZIO[R, TestFailure[E], TestSuccess]
)(implicit trace: Trace): ZIO[R, TestFailure[E], TestSuccess]
final def some[R >: LowerR <: UpperR, E >: LowerE <: UpperE](
spec: Spec[R, E]
)(implicit trace: Trace): Spec[R, E] =
spec.transform[R, E] {
case Spec.TestCase(test, annotations) => Spec.TestCase(perTest(test), annotations)
case c => c
}
}
object PerTest {
/**
* A `PerTest.AtLeast[R]` is a `TestAspect.PerTest` that that requires at
* least an `R` in its environment
*/
type AtLeastR[R] = TestAspect.PerTest[Nothing, R, Nothing, Any]
/**
* A `PerTest.Poly` is a `TestAspect.PerTest` that is completely
* polymorphic, having no requirements ZRTestEnv on error or environment.
*/
type Poly = TestAspect.PerTest[Nothing, Any, Nothing, Any]
}
}