--- jsr166/src/test/tck/CompletableFutureTest.java 2013/02/06 19:55:06 1.1 +++ jsr166/src/test/tck/CompletableFutureTest.java 2014/06/02 02:19:23 1.42 @@ -1,23 +1,32 @@ /* - * Written by Doug Lea with assistance from members of JCP JSR-166 - * Expert Group and released to the public domain, as explained at + * Written by Doug Lea and Martin Buchholz with assistance from + * members of JCP JSR-166 Expert Group and released to the public + * domain, as explained at * http://creativecommons.org/publicdomain/zero/1.0/ - * Other contributors include Andrew Wright, Jeffrey Hayes, - * Pat Fisher, Mike Judd. */ import junit.framework.*; import java.util.concurrent.Callable; +import java.util.concurrent.Executor; +import java.util.concurrent.ExecutorService; +import java.util.concurrent.Executors; import java.util.concurrent.CancellationException; import java.util.concurrent.CountDownLatch; import java.util.concurrent.ExecutionException; import java.util.concurrent.Future; import java.util.concurrent.CompletableFuture; +import java.util.concurrent.CompletionException; +import java.util.concurrent.CompletionStage; import java.util.concurrent.TimeoutException; import java.util.concurrent.atomic.AtomicInteger; import static java.util.concurrent.TimeUnit.MILLISECONDS; import static java.util.concurrent.TimeUnit.SECONDS; import java.util.*; +import java.util.function.Supplier; +import java.util.function.Consumer; +import java.util.function.BiConsumer; +import java.util.function.Function; +import java.util.function.BiFunction; public class CompletableFutureTest extends JSR166TestCase { @@ -28,15 +37,3612 @@ public class CompletableFutureTest exten return new TestSuite(CompletableFutureTest.class); } + static class CFException extends RuntimeException {} + + void checkIncomplete(CompletableFuture f) { + assertFalse(f.isDone()); + assertFalse(f.isCancelled()); + assertTrue(f.toString().contains("[Not completed]")); + try { + assertNull(f.getNow(null)); + } catch (Throwable fail) { threadUnexpectedException(fail); } + try { + f.get(0L, SECONDS); + shouldThrow(); + } + catch (TimeoutException success) {} + catch (Throwable fail) { threadUnexpectedException(fail); } + } + + void checkCompletedNormally(CompletableFuture f, T value) { + try { + assertEquals(value, f.get(LONG_DELAY_MS, MILLISECONDS)); + } catch (Throwable fail) { threadUnexpectedException(fail); } + try { + assertEquals(value, f.join()); + } catch (Throwable fail) { threadUnexpectedException(fail); } + try { + assertEquals(value, f.getNow(null)); + } catch (Throwable fail) { threadUnexpectedException(fail); } + try { + assertEquals(value, f.get()); + } catch (Throwable fail) { threadUnexpectedException(fail); } + assertTrue(f.isDone()); + assertFalse(f.isCancelled()); + assertFalse(f.isCompletedExceptionally()); + assertTrue(f.toString().contains("[Completed normally]")); + } + + void checkCompletedWithWrappedCFException(CompletableFuture f) { + try { + f.get(LONG_DELAY_MS, MILLISECONDS); + shouldThrow(); + } catch (ExecutionException success) { + assertTrue(success.getCause() instanceof CFException); + } catch (Throwable fail) { threadUnexpectedException(fail); } + try { + f.join(); + shouldThrow(); + } catch (CompletionException success) { + assertTrue(success.getCause() instanceof CFException); + } + try { + f.getNow(null); + shouldThrow(); + } catch (CompletionException success) { + assertTrue(success.getCause() instanceof CFException); + } + try { + f.get(); + shouldThrow(); + } catch (ExecutionException success) { + assertTrue(success.getCause() instanceof CFException); + } catch (Throwable fail) { threadUnexpectedException(fail); } + assertTrue(f.isDone()); + assertFalse(f.isCancelled()); + assertTrue(f.toString().contains("[Completed exceptionally]")); + } + + void checkCompletedWithWrappedCFException(CompletableFuture f, + CFException ex) { + try { + f.get(LONG_DELAY_MS, MILLISECONDS); + shouldThrow(); + } catch (ExecutionException success) { + assertSame(ex, success.getCause()); + } catch (Throwable fail) { threadUnexpectedException(fail); } + try { + f.join(); + shouldThrow(); + } catch (CompletionException success) { + assertSame(ex, success.getCause()); + } + try { + f.getNow(null); + shouldThrow(); + } catch (CompletionException success) { + assertSame(ex, success.getCause()); + } + try { + f.get(); + shouldThrow(); + } catch (ExecutionException success) { + assertSame(ex, success.getCause()); + } catch (Throwable fail) { threadUnexpectedException(fail); } + assertTrue(f.isDone()); + assertFalse(f.isCancelled()); + assertTrue(f.toString().contains("[Completed exceptionally]")); + } + + void checkCancelled(CompletableFuture f) { + try { + f.get(LONG_DELAY_MS, MILLISECONDS); + shouldThrow(); + } catch (CancellationException success) { + } catch (Throwable fail) { threadUnexpectedException(fail); } + try { + f.join(); + shouldThrow(); + } catch (CancellationException success) {} + try { + f.getNow(null); + shouldThrow(); + } catch (CancellationException success) {} + try { + f.get(); + shouldThrow(); + } catch (CancellationException success) { + } catch (Throwable fail) { threadUnexpectedException(fail); } + assertTrue(f.isDone()); + assertTrue(f.isCompletedExceptionally()); + assertTrue(f.isCancelled()); + assertTrue(f.toString().contains("[Completed exceptionally]")); + } + + void checkCompletedWithWrappedCancellationException(CompletableFuture f) { + try { + f.get(LONG_DELAY_MS, MILLISECONDS); + shouldThrow(); + } catch (ExecutionException success) { + assertTrue(success.getCause() instanceof CancellationException); + } catch (Throwable fail) { threadUnexpectedException(fail); } + try { + f.join(); + shouldThrow(); + } catch (CompletionException success) { + assertTrue(success.getCause() instanceof CancellationException); + } + try { + f.getNow(null); + shouldThrow(); + } catch (CompletionException success) { + assertTrue(success.getCause() instanceof CancellationException); + } + try { + f.get(); + shouldThrow(); + } catch (ExecutionException success) { + assertTrue(success.getCause() instanceof CancellationException); + } catch (Throwable fail) { threadUnexpectedException(fail); } + assertTrue(f.isDone()); + assertFalse(f.isCancelled()); + assertTrue(f.isCompletedExceptionally()); + assertTrue(f.toString().contains("[Completed exceptionally]")); + } + + /** + * A newly constructed CompletableFuture is incomplete, as indicated + * by methods isDone, isCancelled, and getNow + */ + public void testConstructor() { + CompletableFuture f = new CompletableFuture<>(); + checkIncomplete(f); + } + + /** + * complete completes normally, as indicated by methods isDone, + * isCancelled, join, get, and getNow + */ + public void testComplete() { + CompletableFuture f = new CompletableFuture<>(); + checkIncomplete(f); + f.complete(one); + checkCompletedNormally(f, one); + } + + /** + * completeExceptionally completes exceptionally, as indicated by + * methods isDone, isCancelled, join, get, and getNow + */ + public void testCompleteExceptionally() { + CompletableFuture f = new CompletableFuture<>(); + checkIncomplete(f); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(f); + } + + /** + * cancel completes exceptionally and reports cancelled, as indicated by + * methods isDone, isCancelled, join, get, and getNow + */ + public void testCancel() { + CompletableFuture f = new CompletableFuture<>(); + checkIncomplete(f); + assertTrue(f.cancel(true)); + checkCancelled(f); + } + + /** + * obtrudeValue forces completion with given value + */ + public void testObtrudeValue() { + CompletableFuture f = new CompletableFuture<>(); + checkIncomplete(f); + f.complete(one); + checkCompletedNormally(f, one); + f.obtrudeValue(three); + checkCompletedNormally(f, three); + f.obtrudeValue(two); + checkCompletedNormally(f, two); + f = new CompletableFuture<>(); + f.obtrudeValue(three); + checkCompletedNormally(f, three); + f = new CompletableFuture<>(); + f.completeExceptionally(new CFException()); + f.obtrudeValue(four); + checkCompletedNormally(f, four); + } + + /** + * obtrudeException forces completion with given exception + */ + public void testObtrudeException() { + CompletableFuture f = new CompletableFuture<>(); + checkIncomplete(f); + f.complete(one); + checkCompletedNormally(f, one); + f.obtrudeException(new CFException()); + checkCompletedWithWrappedCFException(f); + f = new CompletableFuture<>(); + f.obtrudeException(new CFException()); + checkCompletedWithWrappedCFException(f); + f = new CompletableFuture<>(); + f.completeExceptionally(new CFException()); + f.obtrudeValue(four); + checkCompletedNormally(f, four); + f.obtrudeException(new CFException()); + checkCompletedWithWrappedCFException(f); + } + + /** + * getNumberOfDependents returns number of dependent tasks + */ + public void testGetNumberOfDependents() { + CompletableFuture f = new CompletableFuture<>(); + assertEquals(f.getNumberOfDependents(), 0); + CompletableFuture g = f.thenRun(new Noop()); + assertEquals(f.getNumberOfDependents(), 1); + assertEquals(g.getNumberOfDependents(), 0); + CompletableFuture h = f.thenRun(new Noop()); + assertEquals(f.getNumberOfDependents(), 2); + f.complete(1); + checkCompletedNormally(g, null); + assertEquals(f.getNumberOfDependents(), 0); + assertEquals(g.getNumberOfDependents(), 0); + } + + /** + * toString indicates current completion state + */ public void testToString() { CompletableFuture f; - assertTrue(new CompletableFuture().toString() - .contains("[Not completed]")); + f = new CompletableFuture(); + assertTrue(f.toString().contains("[Not completed]")); + f.complete("foo"); assertTrue(f.toString().contains("[Completed normally]")); + f = new CompletableFuture(); f.completeExceptionally(new IndexOutOfBoundsException()); assertTrue(f.toString().contains("[Completed exceptionally]")); } + + /** + * completedFuture returns a completed CompletableFuture with given value + */ + public void testCompletedFuture() { + CompletableFuture f = CompletableFuture.completedFuture("test"); + checkCompletedNormally(f, "test"); + } + + // Choose non-commutative actions for better coverage + + // A non-commutative function that handles and produces null values as well. + static Integer subtract(Integer x, Integer y) { + return (x == null && y == null) ? null : + ((x == null) ? 42 : x.intValue()) + - ((y == null) ? 99 : y.intValue()); + } + + // A function that handles and produces null values as well. + static Integer inc(Integer x) { + return (x == null) ? null : x + 1; + } + + static final Supplier supplyOne = + () -> Integer.valueOf(1); + static final Function inc = + (Integer x) -> Integer.valueOf(x.intValue() + 1); + static final BiFunction subtract = + (Integer x, Integer y) -> subtract(x, y); + static final class IncAction implements Consumer { + int invocationCount = 0; + Integer value; + public boolean ran() { return invocationCount == 1; } + public void accept(Integer x) { + invocationCount++; + value = inc(x); + } + } + static final class IncFunction implements Function { + int invocationCount = 0; + Integer value; + public boolean ran() { return invocationCount == 1; } + public Integer apply(Integer x) { + invocationCount++; + return value = inc(x); + } + } + static final class SubtractAction implements BiConsumer { + int invocationCount = 0; + Integer value; + // Check this action was invoked exactly once when result is computed. + public boolean ran() { return invocationCount == 1; } + public void accept(Integer x, Integer y) { + invocationCount++; + value = subtract(x, y); + } + } + static final class SubtractFunction implements BiFunction { + int invocationCount = 0; + Integer value; + // Check this action was invoked exactly once when result is computed. + public boolean ran() { return invocationCount == 1; } + public Integer apply(Integer x, Integer y) { + invocationCount++; + return value = subtract(x, y); + } + } + static final class Noop implements Runnable { + int invocationCount = 0; + boolean ran; + public void run() { + invocationCount++; + ran = true; + } + } + + static final class FailingSupplier implements Supplier { + boolean ran; + public Integer get() { ran = true; throw new CFException(); } + } + static final class FailingConsumer implements Consumer { + boolean ran; + public void accept(Integer x) { ran = true; throw new CFException(); } + } + static final class FailingBiConsumer implements BiConsumer { + boolean ran; + public void accept(Integer x, Integer y) { ran = true; throw new CFException(); } + } + static final class FailingFunction implements Function { + boolean ran; + public Integer apply(Integer x) { ran = true; throw new CFException(); } + } + static final class FailingBiFunction implements BiFunction { + boolean ran; + public Integer apply(Integer x, Integer y) { ran = true; throw new CFException(); } + } + static final class FailingNoop implements Runnable { + boolean ran; + public void run() { ran = true; throw new CFException(); } + } + + static final class CompletableFutureInc + implements Function> { + boolean ran; + public CompletableFuture apply(Integer x) { + ran = true; + CompletableFuture f = new CompletableFuture<>(); + f.complete(Integer.valueOf(x.intValue() + 1)); + return f; + } + } + + static final class FailingCompletableFutureFunction + implements Function> { + boolean ran; + public CompletableFuture apply(Integer x) { + ran = true; throw new CFException(); + } + } + + // Used for explicit executor tests + static final class ThreadExecutor implements Executor { + AtomicInteger count = new AtomicInteger(0); + + public void execute(Runnable r) { + count.getAndIncrement(); + new Thread(r).start(); + } + } + + static final class ExceptionToInteger implements Function { + public Integer apply(Throwable x) { return Integer.valueOf(3); } + } + + static final class IntegerHandler implements BiFunction { + boolean ran; + public Integer apply(Integer x, Throwable t) { + ran = true; + return (t == null) ? two : three; + } + } + + /** + * Permits the testing of parallel code for the 3 different + * execution modes without repeating all the testing code. + */ + enum ExecutionMode { + DEFAULT { + public CompletableFuture runAfterBoth + (CompletableFuture f, CompletableFuture g, Runnable a) { + return f.runAfterBoth(g, a); + } + public CompletableFuture thenAcceptBoth + (CompletableFuture f, + CompletionStage g, + BiConsumer a) { + return f.thenAcceptBoth(g, a); + } + public CompletableFuture thenCombine + (CompletableFuture f, + CompletionStage g, + BiFunction a) { + return f.thenCombine(g, a); + } + public CompletableFuture applyToEither + (CompletableFuture f, + CompletionStage g, + Function a) { + return f.applyToEither(g, a); + } + public CompletableFuture acceptEither + (CompletableFuture f, + CompletionStage g, + Consumer a) { + return f.acceptEither(g, a); + } + public CompletableFuture runAfterEither + (CompletableFuture f, + CompletionStage g, + java.lang.Runnable a) { + return f.runAfterEither(g, a); + } + public CompletableFuture thenCompose + (CompletableFuture f, + Function> a) { + return f.thenCompose(a); + } + public CompletableFuture whenComplete + (CompletableFuture f, + BiConsumer a) { + return f.whenComplete(a); + } + }, + +// /** Experimental way to do more testing */ +// REVERSE_DEFAULT { +// public CompletableFuture runAfterBoth +// (CompletableFuture f, CompletableFuture g, Runnable a) { +// return g.runAfterBoth(f, a); +// } +// public CompletableFuture thenAcceptBoth +// (CompletableFuture f, +// CompletionStage g, +// BiConsumer a) { +// return DEFAULT.thenAcceptBoth(f, g, a); +// } +// }, + + DEFAULT_ASYNC { + public CompletableFuture runAfterBoth + (CompletableFuture f, CompletableFuture g, Runnable a) { + return f.runAfterBothAsync(g, a); + } + public CompletableFuture thenAcceptBoth + (CompletableFuture f, + CompletionStage g, + BiConsumer a) { + return f.thenAcceptBothAsync(g, a); + } + public CompletableFuture thenCombine + (CompletableFuture f, + CompletionStage g, + BiFunction a) { + return f.thenCombineAsync(g, a); + } + public CompletableFuture applyToEither + (CompletableFuture f, + CompletionStage g, + Function a) { + return f.applyToEitherAsync(g, a); + } + public CompletableFuture acceptEither + (CompletableFuture f, + CompletionStage g, + Consumer a) { + return f.acceptEitherAsync(g, a); + } + public CompletableFuture runAfterEither + (CompletableFuture f, + CompletionStage g, + java.lang.Runnable a) { + return f.runAfterEitherAsync(g, a); + } + public CompletableFuture thenCompose + (CompletableFuture f, + Function> a) { + return f.thenComposeAsync(a); + } + public CompletableFuture whenComplete + (CompletableFuture f, + BiConsumer a) { + return f.whenCompleteAsync(a); + } + }, + +// REVERSE_DEFAULT_ASYNC { +// public CompletableFuture runAfterBoth +// (CompletableFuture f, CompletableFuture g, Runnable a) { +// return f.runAfterBothAsync(g, a); +// } +// public CompletableFuture thenAcceptBoth +// (CompletableFuture f, +// CompletionStage g, +// BiConsumer a) { +// return DEFAULT_ASYNC.thenAcceptBoth(f, g, a); +// } +// }, + + EXECUTOR { + public CompletableFuture runAfterBoth + (CompletableFuture f, CompletableFuture g, Runnable a) { + return f.runAfterBothAsync(g, a, new ThreadExecutor()); + } + public CompletableFuture thenAcceptBoth + (CompletableFuture f, + CompletionStage g, + BiConsumer a) { + return f.thenAcceptBothAsync(g, a, new ThreadExecutor()); + } + public CompletableFuture thenCombine + (CompletableFuture f, + CompletionStage g, + BiFunction a) { + return f.thenCombineAsync(g, a, new ThreadExecutor()); + } + public CompletableFuture applyToEither + (CompletableFuture f, + CompletionStage g, + Function a) { + return f.applyToEitherAsync(g, a, new ThreadExecutor()); + } + public CompletableFuture acceptEither + (CompletableFuture f, + CompletionStage g, + Consumer a) { + return f.acceptEitherAsync(g, a, new ThreadExecutor()); + } + public CompletableFuture runAfterEither + (CompletableFuture f, + CompletionStage g, + java.lang.Runnable a) { + return f.runAfterEitherAsync(g, a, new ThreadExecutor()); + } + public CompletableFuture thenCompose + (CompletableFuture f, + Function> a) { + return f.thenComposeAsync(a, new ThreadExecutor()); + } + public CompletableFuture whenComplete + (CompletableFuture f, + BiConsumer a) { + return f.whenCompleteAsync(a, new ThreadExecutor()); + } + }; + + public abstract CompletableFuture runAfterBoth + (CompletableFuture f, CompletableFuture g, Runnable a); + public abstract CompletableFuture thenAcceptBoth + (CompletableFuture f, + CompletionStage g, + BiConsumer a); + public abstract CompletableFuture thenCombine + (CompletableFuture f, + CompletionStage g, + BiFunction a); + public abstract CompletableFuture applyToEither + (CompletableFuture f, + CompletionStage g, + Function a); + public abstract CompletableFuture acceptEither + (CompletableFuture f, + CompletionStage g, + Consumer a); + public abstract CompletableFuture runAfterEither + (CompletableFuture f, + CompletionStage g, + java.lang.Runnable a); + public abstract CompletableFuture thenCompose + (CompletableFuture f, + Function> a); + public abstract CompletableFuture whenComplete + (CompletableFuture f, + BiConsumer a); + + + } + + /** + * exceptionally action completes with function value on source + * exception; otherwise with source value + */ + public void testExceptionally() { + CompletableFuture f = new CompletableFuture<>(); + ExceptionToInteger r = new ExceptionToInteger(); + CompletableFuture g = f.exceptionally(r); + f.completeExceptionally(new CFException()); + checkCompletedNormally(g, three); + + f = new CompletableFuture<>(); + r = new ExceptionToInteger(); + g = f.exceptionally(r); + f.complete(one); + checkCompletedNormally(g, one); + } + + /** + * handle action completes normally with function value on either + * normal or exceptional completion of source + */ + public void testHandle() { + CompletableFuture f, g; + IntegerHandler r; + + f = new CompletableFuture<>(); + f.completeExceptionally(new CFException()); + g = f.handle(r = new IntegerHandler()); + assertTrue(r.ran); + checkCompletedNormally(g, three); + + f = new CompletableFuture<>(); + g = f.handle(r = new IntegerHandler()); + assertFalse(r.ran); + f.completeExceptionally(new CFException()); + checkCompletedNormally(g, three); + assertTrue(r.ran); + + f = new CompletableFuture<>(); + f.complete(one); + g = f.handle(r = new IntegerHandler()); + assertTrue(r.ran); + checkCompletedNormally(g, two); + + f = new CompletableFuture<>(); + g = f.handle(r = new IntegerHandler()); + assertFalse(r.ran); + f.complete(one); + assertTrue(r.ran); + checkCompletedNormally(g, two); + } + + /** + * runAsync completes after running Runnable + */ + public void testRunAsync() { + Noop r = new Noop(); + CompletableFuture f = CompletableFuture.runAsync(r); + assertNull(f.join()); + assertTrue(r.ran); + checkCompletedNormally(f, null); + } + + /** + * runAsync with executor completes after running Runnable + */ + public void testRunAsync2() { + Noop r = new Noop(); + ThreadExecutor exec = new ThreadExecutor(); + CompletableFuture f = CompletableFuture.runAsync(r, exec); + assertNull(f.join()); + assertTrue(r.ran); + checkCompletedNormally(f, null); + assertEquals(1, exec.count.get()); + } + + /** + * failing runAsync completes exceptionally after running Runnable + */ + public void testRunAsync3() { + FailingNoop r = new FailingNoop(); + CompletableFuture f = CompletableFuture.runAsync(r); + checkCompletedWithWrappedCFException(f); + assertTrue(r.ran); + } + + /** + * supplyAsync completes with result of supplier + */ + public void testSupplyAsync() { + CompletableFuture f; + f = CompletableFuture.supplyAsync(supplyOne); + assertEquals(f.join(), one); + checkCompletedNormally(f, one); + } + + /** + * supplyAsync with executor completes with result of supplier + */ + public void testSupplyAsync2() { + CompletableFuture f; + f = CompletableFuture.supplyAsync(supplyOne, new ThreadExecutor()); + assertEquals(f.join(), one); + checkCompletedNormally(f, one); + } + + /** + * Failing supplyAsync completes exceptionally + */ + public void testSupplyAsync3() { + FailingSupplier r = new FailingSupplier(); + CompletableFuture f = CompletableFuture.supplyAsync(r); + checkCompletedWithWrappedCFException(f); + assertTrue(r.ran); + } + + // seq completion methods + + /** + * thenRun result completes normally after normal completion of source + */ + public void testThenRun() { + CompletableFuture f; + CompletableFuture g; + Noop r; + + f = new CompletableFuture<>(); + g = f.thenRun(r = new Noop()); + f.complete(null); + checkCompletedNormally(g, null); + assertTrue(r.ran); + + f = new CompletableFuture<>(); + f.complete(null); + g = f.thenRun(r = new Noop()); + checkCompletedNormally(g, null); + assertTrue(r.ran); + } + + /** + * thenRun result completes exceptionally after exceptional + * completion of source + */ + public void testThenRun2() { + CompletableFuture f; + CompletableFuture g; + Noop r; + + f = new CompletableFuture<>(); + g = f.thenRun(r = new Noop()); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + assertFalse(r.ran); + + f = new CompletableFuture<>(); + f.completeExceptionally(new CFException()); + g = f.thenRun(r = new Noop()); + checkCompletedWithWrappedCFException(g); + assertFalse(r.ran); + } + + /** + * thenRun result completes exceptionally if action does + */ + public void testThenRun3() { + CompletableFuture f; + CompletableFuture g; + FailingNoop r; + + f = new CompletableFuture<>(); + g = f.thenRun(r = new FailingNoop()); + f.complete(null); + checkCompletedWithWrappedCFException(g); + + f = new CompletableFuture<>(); + f.complete(null); + g = f.thenRun(r = new FailingNoop()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenRun result completes exceptionally if source cancelled + */ + public void testThenRun4() { + CompletableFuture f; + CompletableFuture g; + Noop r; + + f = new CompletableFuture<>(); + g = f.thenRun(r = new Noop()); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + + f = new CompletableFuture<>(); + assertTrue(f.cancel(true)); + g = f.thenRun(r = new Noop()); + checkCompletedWithWrappedCancellationException(g); + } + + /** + * thenApply result completes normally after normal completion of source + */ + public void testThenApply() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApply(inc); + f.complete(one); + checkCompletedNormally(g, two); + } + + /** + * thenApply result completes exceptionally after exceptional + * completion of source + */ + public void testThenApply2() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApply(inc); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenApply result completes exceptionally if action does + */ + public void testThenApply3() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApply(new FailingFunction()); + f.complete(one); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenApply result completes exceptionally if source cancelled + */ + public void testThenApply4() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApply(inc); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + } + + /** + * thenAccept result completes normally after normal completion of source + */ + public void testThenAccept() { + CompletableFuture f = new CompletableFuture<>(); + IncAction r = new IncAction(); + CompletableFuture g = f.thenAccept(r); + f.complete(one); + checkCompletedNormally(g, null); + assertEquals(r.value, (Integer) 2); + } + + /** + * thenAccept result completes exceptionally after exceptional + * completion of source + */ + public void testThenAccept2() { + CompletableFuture f = new CompletableFuture<>(); + IncAction r = new IncAction(); + CompletableFuture g = f.thenAccept(r); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenAccept result completes exceptionally if action does + */ + public void testThenAccept3() { + CompletableFuture f = new CompletableFuture<>(); + FailingConsumer r = new FailingConsumer(); + CompletableFuture g = f.thenAccept(r); + f.complete(one); + checkCompletedWithWrappedCFException(g); + assertTrue(r.ran); + } + + /** + * thenAccept result completes exceptionally if source cancelled + */ + public void testThenAccept4() { + CompletableFuture f = new CompletableFuture<>(); + IncAction r = new IncAction(); + CompletableFuture g = f.thenAccept(r); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + } + + /** + * thenCombine result completes normally after normal completion + * of sources + */ + public void testThenCombine_normalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + final CompletableFuture h = m.thenCombine(f, g, r); + + f.complete(v1); + checkIncomplete(h); + assertEquals(r.invocationCount, 0); + g.complete(v2); + + checkCompletedNormally(h, subtract(v1, v2)); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + assertEquals(r.invocationCount, 1); + } + } + + public void testThenCombine_normalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + final CompletableFuture h = m.thenCombine(f, g, r); + + g.complete(v2); + checkIncomplete(h); + assertEquals(r.invocationCount, 0); + f.complete(v1); + + checkCompletedNormally(h, subtract(v1, v2)); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + assertEquals(r.invocationCount, 1); + } + } + + public void testThenCombine_normalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + + g.complete(v2); + f.complete(v1); + final CompletableFuture h = m.thenCombine(f, g, r); + + checkCompletedNormally(h, subtract(v1, v2)); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + assertEquals(r.invocationCount, 1); + } + } + + public void testThenCombine_normalCompletion4() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + + f.complete(v1); + g.complete(v2); + final CompletableFuture h = m.thenCombine(f, g, r); + + checkCompletedNormally(h, subtract(v1, v2)); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + assertEquals(r.invocationCount, 1); + } + } + + /** + * thenCombine result completes exceptionally after exceptional + * completion of either source + */ + public void testThenCombine_exceptionalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + final CompletableFuture h = m.thenCombine(f, g, r); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + checkIncomplete(h); + g.complete(v1); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(f, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + public void testThenCombine_exceptionalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + final CompletableFuture h = m.thenCombine(f, g, r); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + checkIncomplete(h); + f.complete(v1); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(g, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testThenCombine_exceptionalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + f.complete(v1); + final CompletableFuture h = m.thenCombine(f, g, r); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(g, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testThenCombine_exceptionalCompletion4() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + g.complete(v1); + final CompletableFuture h = m.thenCombine(f, g, r); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(f, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + /** + * thenCombine result completes exceptionally if action does + */ + public void testThenCombine_actionFailed1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingBiFunction r = new FailingBiFunction(); + final CompletableFuture h = m.thenCombine(f, g, r); + + f.complete(v1); + checkIncomplete(h); + g.complete(v2); + + checkCompletedWithWrappedCFException(h); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testThenCombine_actionFailed2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingBiFunction r = new FailingBiFunction(); + final CompletableFuture h = m.thenCombine(f, g, r); + + g.complete(v2); + checkIncomplete(h); + f.complete(v1); + + checkCompletedWithWrappedCFException(h); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + /** + * thenCombine result completes exceptionally if either source cancelled + */ + public void testThenCombine_sourceCancelled1() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + final CompletableFuture h = m.thenCombine(f, g, r); + + assertTrue(f.cancel(mayInterruptIfRunning)); + checkIncomplete(h); + g.complete(v1); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(f); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + public void testThenCombine_sourceCancelled2() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + final CompletableFuture h = m.thenCombine(f, g, r); + + assertTrue(g.cancel(mayInterruptIfRunning)); + checkIncomplete(h); + f.complete(v1); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(g); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testThenCombine_sourceCancelled3() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + + assertTrue(g.cancel(mayInterruptIfRunning)); + f.complete(v1); + final CompletableFuture h = m.thenCombine(f, g, r); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(g); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testThenCombine_sourceCancelled4() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractFunction r = new SubtractFunction(); + + assertTrue(f.cancel(mayInterruptIfRunning)); + g.complete(v1); + final CompletableFuture h = m.thenCombine(f, g, r); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(f); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + /** + * thenAcceptBoth result completes normally after normal + * completion of sources + */ + public void testThenAcceptBoth_normalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + f.complete(v1); + checkIncomplete(h); + assertFalse(r.ran()); + g.complete(v2); + + checkCompletedNormally(h, null); + assertEquals(r.value, subtract(v1, v2)); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testThenAcceptBoth_normalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + g.complete(v2); + checkIncomplete(h); + assertFalse(r.ran()); + f.complete(v1); + + checkCompletedNormally(h, null); + assertEquals(r.value, subtract(v1, v2)); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testThenAcceptBoth_normalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + + g.complete(v2); + f.complete(v1); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + checkCompletedNormally(h, null); + assertEquals(r.value, subtract(v1, v2)); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testThenAcceptBoth_normalCompletion4() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + + f.complete(v1); + g.complete(v2); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + checkCompletedNormally(h, null); + assertEquals(r.value, subtract(v1, v2)); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + /** + * thenAcceptBoth result completes exceptionally after exceptional + * completion of either source + */ + public void testThenAcceptBoth_exceptionalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + checkIncomplete(h); + g.complete(v1); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(f, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + public void testThenAcceptBoth_exceptionalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + checkIncomplete(h); + f.complete(v1); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(g, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testThenAcceptBoth_exceptionalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + f.complete(v1); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(g, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testThenAcceptBoth_exceptionalCompletion4() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + g.complete(v1); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(f, ex); + assertFalse(r.ran()); + checkCompletedNormally(g, v1); + } + } + + /** + * thenAcceptBoth result completes exceptionally if action does + */ + public void testThenAcceptBoth_actionFailed1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingBiConsumer r = new FailingBiConsumer(); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + f.complete(v1); + checkIncomplete(h); + g.complete(v2); + + checkCompletedWithWrappedCFException(h); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testThenAcceptBoth_actionFailed2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingBiConsumer r = new FailingBiConsumer(); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + g.complete(v2); + checkIncomplete(h); + f.complete(v1); + + checkCompletedWithWrappedCFException(h); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + /** + * thenAcceptBoth result completes exceptionally if either source cancelled + */ + public void testThenAcceptBoth_sourceCancelled1() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + assertTrue(f.cancel(mayInterruptIfRunning)); + checkIncomplete(h); + g.complete(v1); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(f); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + public void testThenAcceptBoth_sourceCancelled2() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + assertTrue(g.cancel(mayInterruptIfRunning)); + checkIncomplete(h); + f.complete(v1); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(g); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testThenAcceptBoth_sourceCancelled3() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + + assertTrue(g.cancel(mayInterruptIfRunning)); + f.complete(v1); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(g); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testThenAcceptBoth_sourceCancelled4() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final SubtractAction r = new SubtractAction(); + + assertTrue(f.cancel(mayInterruptIfRunning)); + g.complete(v1); + final CompletableFuture h = m.thenAcceptBoth(f, g, r); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(f); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + /** + * runAfterBoth result completes normally after normal + * completion of sources + */ + public void testRunAfterBoth_normalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + f.complete(v1); + checkIncomplete(h); + assertFalse(r.ran); + g.complete(v2); + + checkCompletedNormally(h, null); + assertEquals(r.invocationCount, 1); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testRunAfterBoth_normalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + g.complete(v2); + checkIncomplete(h); + assertFalse(r.ran); + f.complete(v1); + + checkCompletedNormally(h, null); + assertEquals(r.invocationCount, 1); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testRunAfterBoth_normalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + + g.complete(v2); + f.complete(v1); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + checkCompletedNormally(h, null); + assertTrue(r.ran); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testRunAfterBoth_normalCompletion4() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + + f.complete(v1); + g.complete(v2); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + checkCompletedNormally(h, null); + assertEquals(r.invocationCount, 1); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + /** + * runAfterBoth result completes exceptionally after exceptional + * completion of either source + */ + public void testRunAfterBoth_exceptionalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterBoth(f, g, r); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + checkIncomplete(h); + g.complete(v1); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(f, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + public void testRunAfterBoth_exceptionalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterBoth(f, g, r); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + checkIncomplete(h); + f.complete(v1); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(g, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testRunAfterBoth_exceptionalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + f.complete(v1); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(g, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testRunAfterBoth_exceptionalCompletion4() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + g.complete(v1); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + checkCompletedWithWrappedCFException(h, ex); + checkCompletedWithWrappedCFException(f, ex); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + /** + * runAfterBoth result completes exceptionally if action does + */ + public void testRunAfterBoth_actionFailed1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingNoop r = new FailingNoop(); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + f.complete(v1); + checkIncomplete(h); + g.complete(v2); + + checkCompletedWithWrappedCFException(h); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testRunAfterBoth_actionFailed2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingNoop r = new FailingNoop(); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + g.complete(v2); + checkIncomplete(h); + f.complete(v1); + + checkCompletedWithWrappedCFException(h); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + /** + * runAfterBoth result completes exceptionally if either source cancelled + */ + public void testRunAfterBoth_sourceCancelled1() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + assertTrue(f.cancel(mayInterruptIfRunning)); + checkIncomplete(h); + g.complete(v1); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(f); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + public void testRunAfterBoth_sourceCancelled2() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + assertTrue(g.cancel(mayInterruptIfRunning)); + checkIncomplete(h); + f.complete(v1); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(g); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testRunAfterBoth_sourceCancelled3() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + + assertTrue(g.cancel(mayInterruptIfRunning)); + f.complete(v1); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(g); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + } + } + + public void testRunAfterBoth_sourceCancelled4() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + + assertTrue(f.cancel(mayInterruptIfRunning)); + g.complete(v1); + final CompletableFuture h = m.runAfterBoth(f, g, r); + + checkCompletedWithWrappedCancellationException(h); + checkCancelled(f); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + } + } + + /** + * applyToEither result completes normally after normal completion + * of either source + */ + public void testApplyToEither_normalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + final CompletableFuture h = m.applyToEither(f, g, r); + + f.complete(v1); + checkCompletedNormally(h, inc(v1)); + g.complete(v2); + + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + checkCompletedNormally(h, inc(v1)); + } + } + + public void testApplyToEither_normalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + final CompletableFuture h = m.applyToEither(f, g, r); + + g.complete(v2); + checkCompletedNormally(h, inc(v2)); + f.complete(v1); + + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + checkCompletedNormally(h, inc(v2)); + } + } + public void testApplyToEither_normalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + + f.complete(v1); + g.complete(v2); + final CompletableFuture h = m.applyToEither(f, g, r); + + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + + // unspecified behavior + assertTrue(Objects.equals(h.join(), inc(v1)) || + Objects.equals(h.join(), inc(v2))); + assertEquals(r.invocationCount, 1); + } + } + + /** + * applyToEither result completes exceptionally after exceptional + * completion of either source + */ + public void testApplyToEither_exceptionalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + final CompletableFuture h = m.applyToEither(f, g, r); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + checkCompletedWithWrappedCFException(h, ex); + g.complete(v1); + + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + checkCompletedWithWrappedCFException(f, ex); + checkCompletedWithWrappedCFException(h, ex); + } + } + + public void testApplyToEither_exceptionalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + final CompletableFuture h = m.applyToEither(f, g, r); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + checkCompletedWithWrappedCFException(h, ex); + f.complete(v1); + + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + checkCompletedWithWrappedCFException(g, ex); + checkCompletedWithWrappedCFException(h, ex); + } + } + + public void testApplyToEither_exceptionalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + f.complete(v1); + final CompletableFuture h = m.applyToEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), inc(v1)); + assertEquals(r.invocationCount, 1); + } catch (CompletionException ok) { + checkCompletedWithWrappedCFException(h, ex); + assertEquals(r.invocationCount, 0); + } + + checkCompletedWithWrappedCFException(g, ex); + checkCompletedNormally(f, v1); + } + } + + public void testApplyToEither_exceptionalCompletion4() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + g.complete(v1); + final CompletableFuture h = m.applyToEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), inc(v1)); + assertEquals(r.invocationCount, 1); + } catch (CompletionException ok) { + checkCompletedWithWrappedCFException(h, ex); + assertEquals(r.invocationCount, 0); + } + + checkCompletedWithWrappedCFException(f, ex); + checkCompletedNormally(g, v1); + } + } + + /** + * applyToEither result completes exceptionally if action does + */ + public void testApplyToEither_actionFailed1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingFunction r = new FailingFunction(); + final CompletableFuture h = m.applyToEither(f, g, r); + + f.complete(v1); + checkCompletedWithWrappedCFException(h); + g.complete(v2); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testApplyToEither_actionFailed2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingFunction r = new FailingFunction(); + final CompletableFuture h = m.applyToEither(f, g, r); + + g.complete(v2); + checkCompletedWithWrappedCFException(h); + f.complete(v1); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + /** + * applyToEither result completes exceptionally if either source cancelled + */ + public void testApplyToEither_sourceCancelled1() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + final CompletableFuture h = m.applyToEither(f, g, r); + + assertTrue(f.cancel(mayInterruptIfRunning)); + checkCompletedWithWrappedCancellationException(h); + g.complete(v1); + + checkCancelled(f); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + checkCompletedWithWrappedCancellationException(h); + } + } + + public void testApplyToEither_sourceCancelled2() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + final CompletableFuture h = m.applyToEither(f, g, r); + + assertTrue(g.cancel(mayInterruptIfRunning)); + checkCompletedWithWrappedCancellationException(h); + f.complete(v1); + + checkCancelled(g); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + checkCompletedWithWrappedCancellationException(h); + } + } + + public void testApplyToEither_sourceCancelled3() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + + assertTrue(g.cancel(mayInterruptIfRunning)); + f.complete(v1); + final CompletableFuture h = m.applyToEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), inc(v1)); + assertEquals(r.invocationCount, 1); + } catch (CompletionException ok) { + checkCompletedWithWrappedCancellationException(h); + assertEquals(r.invocationCount, 0); + } + + checkCancelled(g); + checkCompletedNormally(f, v1); + } + } + + public void testApplyToEither_sourceCancelled4() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncFunction r = new IncFunction(); + + assertTrue(f.cancel(mayInterruptIfRunning)); + g.complete(v1); + final CompletableFuture h = m.applyToEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), inc(v1)); + assertEquals(r.invocationCount, 1); + } catch (CompletionException ok) { + checkCompletedWithWrappedCancellationException(h); + assertEquals(r.invocationCount, 0); + } + + checkCancelled(f); + checkCompletedNormally(g, v1); + } + } + + /** + * acceptEither result completes normally after normal completion + * of either source + */ + public void testAcceptEither_normalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + final CompletableFuture h = m.acceptEither(f, g, r); + + f.complete(v1); + checkCompletedNormally(h, null); + assertEquals(r.value, inc(v1)); + g.complete(v2); + + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + checkCompletedNormally(h, null); + } + } + + public void testAcceptEither_normalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + final CompletableFuture h = m.acceptEither(f, g, r); + + g.complete(v2); + checkCompletedNormally(h, null); + assertEquals(r.value, inc(v2)); + f.complete(v1); + + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + checkCompletedNormally(h, null); + } + } + public void testAcceptEither_normalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + + f.complete(v1); + g.complete(v2); + final CompletableFuture h = m.acceptEither(f, g, r); + + checkCompletedNormally(h, null); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + + // unspecified behavior + assertTrue(Objects.equals(r.value, inc(v1)) || + Objects.equals(r.value, inc(v2))); + } + } + + /** + * acceptEither result completes exceptionally after exceptional + * completion of either source + */ + public void testAcceptEither_exceptionalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + final CompletableFuture h = m.acceptEither(f, g, r); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + checkCompletedWithWrappedCFException(h, ex); + g.complete(v1); + + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + checkCompletedWithWrappedCFException(f, ex); + checkCompletedWithWrappedCFException(h, ex); + } + } + + public void testAcceptEither_exceptionalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + final CompletableFuture h = m.acceptEither(f, g, r); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + checkCompletedWithWrappedCFException(h, ex); + f.complete(v1); + + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + checkCompletedWithWrappedCFException(g, ex); + checkCompletedWithWrappedCFException(h, ex); + } + } + + public void testAcceptEither_exceptionalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + f.complete(v1); + final CompletableFuture h = m.acceptEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), null); + assertEquals(r.invocationCount, 1); + assertEquals(inc(v1), r.value); + } catch (CompletionException ok) { + checkCompletedWithWrappedCFException(h, ex); + assertEquals(r.invocationCount, 0); + } + + checkCompletedWithWrappedCFException(g, ex); + checkCompletedNormally(f, v1); + } + } + + public void testAcceptEither_exceptionalCompletion4() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + g.complete(v1); + final CompletableFuture h = m.acceptEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), null); + assertEquals(r.invocationCount, 1); + assertEquals(inc(v1), r.value); + } catch (CompletionException ok) { + checkCompletedWithWrappedCFException(h, ex); + assertEquals(r.invocationCount, 0); + } + + checkCompletedWithWrappedCFException(f, ex); + checkCompletedNormally(g, v1); + } + } + + /** + * acceptEither result completes exceptionally if action does + */ + public void testAcceptEither_actionFailed1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingConsumer r = new FailingConsumer(); + final CompletableFuture h = m.acceptEither(f, g, r); + + f.complete(v1); + checkCompletedWithWrappedCFException(h); + g.complete(v2); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testAcceptEither_actionFailed2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingConsumer r = new FailingConsumer(); + final CompletableFuture h = m.acceptEither(f, g, r); + + g.complete(v2); + checkCompletedWithWrappedCFException(h); + f.complete(v1); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + /** + * acceptEither result completes exceptionally if either source cancelled + */ + public void testAcceptEither_sourceCancelled1() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + final CompletableFuture h = m.acceptEither(f, g, r); + + assertTrue(f.cancel(mayInterruptIfRunning)); + checkCompletedWithWrappedCancellationException(h); + g.complete(v1); + + checkCancelled(f); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + checkCompletedWithWrappedCancellationException(h); + } + } + + public void testAcceptEither_sourceCancelled2() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + final CompletableFuture h = m.acceptEither(f, g, r); + + assertTrue(g.cancel(mayInterruptIfRunning)); + checkCompletedWithWrappedCancellationException(h); + f.complete(v1); + + checkCancelled(g); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + checkCompletedWithWrappedCancellationException(h); + } + } + + public void testAcceptEither_sourceCancelled3() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + + assertTrue(g.cancel(mayInterruptIfRunning)); + f.complete(v1); + final CompletableFuture h = m.acceptEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), null); + assertEquals(r.invocationCount, 1); + assertEquals(inc(v1), r.value); + } catch (CompletionException ok) { + checkCompletedWithWrappedCancellationException(h); + assertEquals(r.invocationCount, 0); + } + + checkCancelled(g); + checkCompletedNormally(f, v1); + } + } + + public void testAcceptEither_sourceCancelled4() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final IncAction r = new IncAction(); + + assertTrue(f.cancel(mayInterruptIfRunning)); + g.complete(v1); + final CompletableFuture h = m.acceptEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), null); + assertEquals(r.invocationCount, 1); + assertEquals(inc(v1), r.value); + } catch (CompletionException ok) { + checkCompletedWithWrappedCancellationException(h); + assertEquals(r.invocationCount, 0); + } + + checkCancelled(f); + checkCompletedNormally(g, v1); + } + } + + /** + * runAfterEither result completes normally after normal completion + * of either source + */ + public void testRunAfterEither_normalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterEither(f, g, r); + + f.complete(v1); + checkCompletedNormally(h, null); + assertEquals(r.invocationCount, 1); + g.complete(v2); + + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + checkCompletedNormally(h, null); + assertEquals(r.invocationCount, 1); + } + } + + public void testRunAfterEither_normalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterEither(f, g, r); + + g.complete(v2); + checkCompletedNormally(h, null); + assertEquals(r.invocationCount, 1); + f.complete(v1); + + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + checkCompletedNormally(h, null); + assertEquals(r.invocationCount, 1); + } + } + public void testRunAfterEither_normalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + + f.complete(v1); + g.complete(v2); + final CompletableFuture h = m.runAfterEither(f, g, r); + + checkCompletedNormally(h, null); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + assertEquals(r.invocationCount, 1); + } + } + + /** + * runAfterEither result completes exceptionally after exceptional + * completion of either source + */ + public void testRunAfterEither_exceptionalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterEither(f, g, r); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + checkCompletedWithWrappedCFException(h, ex); + g.complete(v1); + + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + checkCompletedWithWrappedCFException(f, ex); + checkCompletedWithWrappedCFException(h, ex); + } + } + + public void testRunAfterEither_exceptionalCompletion2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterEither(f, g, r); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + checkCompletedWithWrappedCFException(h, ex); + f.complete(v1); + + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + checkCompletedWithWrappedCFException(g, ex); + checkCompletedWithWrappedCFException(h, ex); + } + } + + public void testRunAfterEither_exceptionalCompletion3() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CFException ex = new CFException(); + + g.completeExceptionally(ex); + f.complete(v1); + final CompletableFuture h = m.runAfterEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), null); + assertEquals(r.invocationCount, 1); + } catch (CompletionException ok) { + checkCompletedWithWrappedCFException(h, ex); + assertEquals(r.invocationCount, 0); + } + + checkCompletedWithWrappedCFException(g, ex); + checkCompletedNormally(f, v1); + } + } + + public void testRunAfterEither_exceptionalCompletion4() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CFException ex = new CFException(); + + f.completeExceptionally(ex); + g.complete(v1); + final CompletableFuture h = m.runAfterEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), null); + assertEquals(r.invocationCount, 1); + } catch (CompletionException ok) { + checkCompletedWithWrappedCFException(h, ex); + assertEquals(r.invocationCount, 0); + } + + checkCompletedWithWrappedCFException(f, ex); + checkCompletedNormally(g, v1); + } + } + + /** + * runAfterEither result completes exceptionally if action does + */ + public void testRunAfterEither_actionFailed1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingNoop r = new FailingNoop(); + final CompletableFuture h = m.runAfterEither(f, g, r); + + f.complete(v1); + checkCompletedWithWrappedCFException(h); + g.complete(v2); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + public void testRunAfterEither_actionFailed2() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) + for (Integer v2 : new Integer[] { 2, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final FailingNoop r = new FailingNoop(); + final CompletableFuture h = m.runAfterEither(f, g, r); + + g.complete(v2); + checkCompletedWithWrappedCFException(h); + f.complete(v1); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v2); + } + } + + /** + * runAfterEither result completes exceptionally if either source cancelled + */ + public void testRunAfterEither_sourceCancelled1() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterEither(f, g, r); + + assertTrue(f.cancel(mayInterruptIfRunning)); + checkCompletedWithWrappedCancellationException(h); + g.complete(v1); + + checkCancelled(f); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(g, v1); + checkCompletedWithWrappedCancellationException(h); + } + } + + public void testRunAfterEither_sourceCancelled2() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + final CompletableFuture h = m.runAfterEither(f, g, r); + + assertTrue(g.cancel(mayInterruptIfRunning)); + checkCompletedWithWrappedCancellationException(h); + f.complete(v1); + + checkCancelled(g); + assertEquals(r.invocationCount, 0); + checkCompletedNormally(f, v1); + checkCompletedWithWrappedCancellationException(h); + } + } + + public void testRunAfterEither_sourceCancelled3() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + + assertTrue(g.cancel(mayInterruptIfRunning)); + f.complete(v1); + final CompletableFuture h = m.runAfterEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), null); + assertEquals(r.invocationCount, 1); + } catch (CompletionException ok) { + checkCompletedWithWrappedCancellationException(h); + assertEquals(r.invocationCount, 0); + } + + checkCancelled(g); + checkCompletedNormally(f, v1); + } + } + + public void testRunAfterEither_sourceCancelled4() { + for (ExecutionMode m : ExecutionMode.values()) + for (boolean mayInterruptIfRunning : new boolean[] { true, false }) + for (Integer v1 : new Integer[] { 1, null }) { + + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = new CompletableFuture<>(); + final Noop r = new Noop(); + + assertTrue(f.cancel(mayInterruptIfRunning)); + g.complete(v1); + final CompletableFuture h = m.runAfterEither(f, g, r); + + // unspecified behavior + Integer v; + try { + assertEquals(h.join(), null); + assertEquals(r.invocationCount, 1); + } catch (CompletionException ok) { + checkCompletedWithWrappedCancellationException(h); + assertEquals(r.invocationCount, 0); + } + + checkCancelled(f); + checkCompletedNormally(g, v1); + } + } + + /** + * thenCompose result completes normally after normal completion of source + */ + public void testThenCompose() { + CompletableFuture f, g; + CompletableFutureInc r; + + f = new CompletableFuture<>(); + g = f.thenCompose(r = new CompletableFutureInc()); + f.complete(one); + checkCompletedNormally(g, two); + assertTrue(r.ran); + + f = new CompletableFuture<>(); + f.complete(one); + g = f.thenCompose(r = new CompletableFutureInc()); + checkCompletedNormally(g, two); + assertTrue(r.ran); + } + + /** + * thenCompose result completes exceptionally after exceptional + * completion of source + */ + public void testThenCompose2() { + CompletableFuture f, g; + CompletableFutureInc r; + + f = new CompletableFuture<>(); + g = f.thenCompose(r = new CompletableFutureInc()); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + + f = new CompletableFuture<>(); + f.completeExceptionally(new CFException()); + g = f.thenCompose(r = new CompletableFutureInc()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenCompose result completes exceptionally if action does + */ + public void testThenCompose3() { + CompletableFuture f, g; + FailingCompletableFutureFunction r; + + f = new CompletableFuture<>(); + g = f.thenCompose(r = new FailingCompletableFutureFunction()); + f.complete(one); + checkCompletedWithWrappedCFException(g); + + f = new CompletableFuture<>(); + f.complete(one); + g = f.thenCompose(r = new FailingCompletableFutureFunction()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenCompose result completes exceptionally if source cancelled + */ + public void testThenCompose4() { + CompletableFuture f, g; + CompletableFutureInc r; + + f = new CompletableFuture<>(); + g = f.thenCompose(r = new CompletableFutureInc()); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + + f = new CompletableFuture<>(); + assertTrue(f.cancel(true)); + g = f.thenCompose(r = new CompletableFutureInc()); + checkCompletedWithWrappedCancellationException(g); + } + + // asyncs + + /** + * thenRunAsync result completes normally after normal completion of source + */ + public void testThenRunAsync() { + CompletableFuture f = new CompletableFuture<>(); + Noop r = new Noop(); + CompletableFuture g = f.thenRunAsync(r); + f.complete(null); + checkCompletedNormally(g, null); + + // reordered version + f = new CompletableFuture<>(); + f.complete(null); + r = new Noop(); + g = f.thenRunAsync(r); + checkCompletedNormally(g, null); + } + + /** + * thenRunAsync result completes exceptionally after exceptional + * completion of source + */ + public void testThenRunAsync2() { + CompletableFuture f = new CompletableFuture<>(); + Noop r = new Noop(); + CompletableFuture g = f.thenRunAsync(r); + f.completeExceptionally(new CFException()); + try { + g.join(); + shouldThrow(); + } catch (CompletionException success) {} + checkCompletedWithWrappedCFException(g); + } + + /** + * thenRunAsync result completes exceptionally if action does + */ + public void testThenRunAsync3() { + CompletableFuture f = new CompletableFuture<>(); + FailingNoop r = new FailingNoop(); + CompletableFuture g = f.thenRunAsync(r); + f.complete(null); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenRunAsync result completes exceptionally if source cancelled + */ + public void testThenRunAsync4() { + CompletableFuture f = new CompletableFuture<>(); + Noop r = new Noop(); + CompletableFuture g = f.thenRunAsync(r); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + } + + /** + * thenApplyAsync result completes normally after normal completion of source + */ + public void testThenApplyAsync() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApplyAsync(inc); + f.complete(one); + checkCompletedNormally(g, two); + } + + /** + * thenApplyAsync result completes exceptionally after exceptional + * completion of source + */ + public void testThenApplyAsync2() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApplyAsync(inc); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenApplyAsync result completes exceptionally if action does + */ + public void testThenApplyAsync3() { + CompletableFuture f = new CompletableFuture<>(); + FailingFunction r = new FailingFunction(); + CompletableFuture g = f.thenApplyAsync(r); + f.complete(null); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenApplyAsync result completes exceptionally if source cancelled + */ + public void testThenApplyAsync4() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApplyAsync(inc); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + } + + /** + * thenAcceptAsync result completes normally after normal + * completion of source + */ + public void testThenAcceptAsync() { + CompletableFuture f = new CompletableFuture<>(); + IncAction r = new IncAction(); + CompletableFuture g = f.thenAcceptAsync(r); + f.complete(one); + checkCompletedNormally(g, null); + assertEquals(r.value, (Integer) 2); + } + + /** + * thenAcceptAsync result completes exceptionally after exceptional + * completion of source + */ + public void testThenAcceptAsync2() { + CompletableFuture f = new CompletableFuture<>(); + IncAction r = new IncAction(); + CompletableFuture g = f.thenAcceptAsync(r); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenAcceptAsync result completes exceptionally if action does + */ + public void testThenAcceptAsync3() { + CompletableFuture f = new CompletableFuture<>(); + FailingConsumer r = new FailingConsumer(); + CompletableFuture g = f.thenAcceptAsync(r); + f.complete(null); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenAcceptAsync result completes exceptionally if source cancelled + */ + public void testThenAcceptAsync4() { + CompletableFuture f = new CompletableFuture<>(); + IncAction r = new IncAction(); + CompletableFuture g = f.thenAcceptAsync(r); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + } + + /** + * thenComposeAsync result completes normally after normal + * completion of source + */ + public void testThenComposeAsync() { + CompletableFuture f, g; + CompletableFutureInc r; + + f = new CompletableFuture<>(); + g = f.thenComposeAsync(r = new CompletableFutureInc()); + f.complete(one); + checkCompletedNormally(g, two); + + f = new CompletableFuture<>(); + f.complete(one); + g = f.thenComposeAsync(r = new CompletableFutureInc()); + checkCompletedNormally(g, two); + } + + /** + * thenComposeAsync result completes exceptionally after + * exceptional completion of source + */ + public void testThenComposeAsync2() { + CompletableFuture f, g; + CompletableFutureInc r; + + f = new CompletableFuture<>(); + g = f.thenComposeAsync(r = new CompletableFutureInc()); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + assertFalse(r.ran); + + f = new CompletableFuture<>(); + f.completeExceptionally(new CFException()); + g = f.thenComposeAsync(r = new CompletableFutureInc()); + checkCompletedWithWrappedCFException(g); + assertFalse(r.ran); + } + + /** + * thenComposeAsync result completes exceptionally if action does + */ + public void testThenComposeAsync3() { + CompletableFuture f, g; + FailingCompletableFutureFunction r; + + f = new CompletableFuture<>(); + g = f.thenComposeAsync(r = new FailingCompletableFutureFunction()); + f.complete(one); + checkCompletedWithWrappedCFException(g); + + f = new CompletableFuture<>(); + f.complete(one); + g = f.thenComposeAsync(r = new FailingCompletableFutureFunction()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenComposeAsync result completes exceptionally if source cancelled + */ + public void testThenComposeAsync4() { + CompletableFuture f, g; + CompletableFutureInc r; + + f = new CompletableFuture<>(); + g = f.thenComposeAsync(r = new CompletableFutureInc()); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + + f = new CompletableFuture<>(); + assertTrue(f.cancel(true)); + g = f.thenComposeAsync(r = new CompletableFutureInc()); + checkCompletedWithWrappedCancellationException(g); + } + + // async with explicit executors + + /** + * thenRunAsync result completes normally after normal completion of source + */ + public void testThenRunAsyncE() { + CompletableFuture f = new CompletableFuture<>(); + Noop r = new Noop(); + CompletableFuture g = f.thenRunAsync(r, new ThreadExecutor()); + f.complete(null); + checkCompletedNormally(g, null); + + // reordered version + f = new CompletableFuture<>(); + f.complete(null); + r = new Noop(); + g = f.thenRunAsync(r, new ThreadExecutor()); + checkCompletedNormally(g, null); + } + + /** + * thenRunAsync result completes exceptionally after exceptional + * completion of source + */ + public void testThenRunAsync2E() { + CompletableFuture f = new CompletableFuture<>(); + Noop r = new Noop(); + CompletableFuture g = f.thenRunAsync(r, new ThreadExecutor()); + f.completeExceptionally(new CFException()); + try { + g.join(); + shouldThrow(); + } catch (CompletionException success) {} + checkCompletedWithWrappedCFException(g); + } + + /** + * thenRunAsync result completes exceptionally if action does + */ + public void testThenRunAsync3E() { + CompletableFuture f = new CompletableFuture<>(); + FailingNoop r = new FailingNoop(); + CompletableFuture g = f.thenRunAsync(r, new ThreadExecutor()); + f.complete(null); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenRunAsync result completes exceptionally if source cancelled + */ + public void testThenRunAsync4E() { + CompletableFuture f = new CompletableFuture<>(); + Noop r = new Noop(); + CompletableFuture g = f.thenRunAsync(r, new ThreadExecutor()); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + } + + /** + * thenApplyAsync result completes normally after normal completion of source + */ + public void testThenApplyAsyncE() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApplyAsync(inc, new ThreadExecutor()); + f.complete(one); + checkCompletedNormally(g, two); + } + + /** + * thenApplyAsync result completes exceptionally after exceptional + * completion of source + */ + public void testThenApplyAsync2E() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApplyAsync(inc, new ThreadExecutor()); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenApplyAsync result completes exceptionally if action does + */ + public void testThenApplyAsync3E() { + CompletableFuture f = new CompletableFuture<>(); + FailingFunction r = new FailingFunction(); + CompletableFuture g = f.thenApplyAsync(r, new ThreadExecutor()); + f.complete(null); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenApplyAsync result completes exceptionally if source cancelled + */ + public void testThenApplyAsync4E() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = f.thenApplyAsync(inc, new ThreadExecutor()); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + } + + /** + * thenAcceptAsync result completes normally after normal + * completion of source + */ + public void testThenAcceptAsyncE() { + CompletableFuture f = new CompletableFuture<>(); + IncAction r = new IncAction(); + CompletableFuture g = f.thenAcceptAsync(r, new ThreadExecutor()); + f.complete(one); + checkCompletedNormally(g, null); + assertEquals(r.value, (Integer) 2); + } + + /** + * thenAcceptAsync result completes exceptionally after exceptional + * completion of source + */ + public void testThenAcceptAsync2E() { + CompletableFuture f = new CompletableFuture<>(); + IncAction r = new IncAction(); + CompletableFuture g = f.thenAcceptAsync(r, new ThreadExecutor()); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenAcceptAsync result completes exceptionally if action does + */ + public void testThenAcceptAsync3E() { + CompletableFuture f = new CompletableFuture<>(); + FailingConsumer r = new FailingConsumer(); + CompletableFuture g = f.thenAcceptAsync(r, new ThreadExecutor()); + f.complete(null); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenAcceptAsync result completes exceptionally if source cancelled + */ + public void testThenAcceptAsync4E() { + CompletableFuture f = new CompletableFuture<>(); + IncAction r = new IncAction(); + CompletableFuture g = f.thenAcceptAsync(r, new ThreadExecutor()); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + } + + /** + * thenComposeAsync result completes normally after normal + * completion of source + */ + public void testThenComposeAsyncE() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFutureInc r = new CompletableFutureInc(); + CompletableFuture g = f.thenComposeAsync(r, new ThreadExecutor()); + f.complete(one); + checkCompletedNormally(g, two); + } + + /** + * thenComposeAsync result completes exceptionally after + * exceptional completion of source + */ + public void testThenComposeAsync2E() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFutureInc r = new CompletableFutureInc(); + CompletableFuture g = f.thenComposeAsync(r, new ThreadExecutor()); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenComposeAsync result completes exceptionally if action does + */ + public void testThenComposeAsync3E() { + CompletableFuture f = new CompletableFuture<>(); + FailingCompletableFutureFunction r = new FailingCompletableFutureFunction(); + CompletableFuture g = f.thenComposeAsync(r, new ThreadExecutor()); + f.complete(one); + checkCompletedWithWrappedCFException(g); + } + + /** + * thenComposeAsync result completes exceptionally if source cancelled + */ + public void testThenComposeAsync4E() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFutureInc r = new CompletableFutureInc(); + CompletableFuture g = f.thenComposeAsync(r, new ThreadExecutor()); + assertTrue(f.cancel(true)); + checkCompletedWithWrappedCancellationException(g); + } + + // other static methods + + /** + * allOf(no component futures) returns a future completed normally + * with the value null + */ + public void testAllOf_empty() throws Exception { + CompletableFuture f = CompletableFuture.allOf(); + checkCompletedNormally(f, null); + } + + /** + * allOf returns a future completed normally with the value null + * when all components complete normally + */ + public void testAllOf_normal() throws Exception { + for (int k = 1; k < 20; ++k) { + CompletableFuture[] fs = (CompletableFuture[]) new CompletableFuture[k]; + for (int i = 0; i < k; ++i) + fs[i] = new CompletableFuture<>(); + CompletableFuture f = CompletableFuture.allOf(fs); + for (int i = 0; i < k; ++i) { + checkIncomplete(f); + checkIncomplete(CompletableFuture.allOf(fs)); + fs[i].complete(one); + } + checkCompletedNormally(f, null); + checkCompletedNormally(CompletableFuture.allOf(fs), null); + } + } + + /** + * anyOf(no component futures) returns an incomplete future + */ + public void testAnyOf_empty() throws Exception { + CompletableFuture f = CompletableFuture.anyOf(); + checkIncomplete(f); + } + + /** + * anyOf returns a future completed normally with a value when + * a component future does + */ + public void testAnyOf_normal() throws Exception { + for (int k = 0; k < 10; ++k) { + CompletableFuture[] fs = new CompletableFuture[k]; + for (int i = 0; i < k; ++i) + fs[i] = new CompletableFuture<>(); + CompletableFuture f = CompletableFuture.anyOf(fs); + checkIncomplete(f); + for (int i = 0; i < k; ++i) { + fs[i].complete(one); + checkCompletedNormally(f, one); + checkCompletedNormally(CompletableFuture.anyOf(fs), one); + } + } + } + + /** + * anyOf result completes exceptionally when any component does. + */ + public void testAnyOf_exceptional() throws Exception { + for (int k = 0; k < 10; ++k) { + CompletableFuture[] fs = new CompletableFuture[k]; + for (int i = 0; i < k; ++i) + fs[i] = new CompletableFuture<>(); + CompletableFuture f = CompletableFuture.anyOf(fs); + checkIncomplete(f); + for (int i = 0; i < k; ++i) { + fs[i].completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(f); + checkCompletedWithWrappedCFException(CompletableFuture.anyOf(fs)); + } + } + } + + /** + * Completion methods throw NullPointerException with null arguments + */ + public void testNPE() { + CompletableFuture f = new CompletableFuture<>(); + CompletableFuture g = new CompletableFuture<>(); + CompletableFuture nullFuture = (CompletableFuture)null; + CompletableFuture h; + ThreadExecutor exec = new ThreadExecutor(); + + Runnable[] throwingActions = { + () -> CompletableFuture.supplyAsync(null), + () -> CompletableFuture.supplyAsync(null, exec), + () -> CompletableFuture.supplyAsync(supplyOne, null), + + () -> CompletableFuture.runAsync(null), + () -> CompletableFuture.runAsync(null, exec), + () -> CompletableFuture.runAsync(() -> {}, null), + + () -> f.completeExceptionally(null), + + () -> f.thenApply(null), + () -> f.thenApplyAsync(null), + () -> f.thenApplyAsync((x) -> x, null), + () -> f.thenApplyAsync(null, exec), + + () -> f.thenAccept(null), + () -> f.thenAcceptAsync(null), + () -> f.thenAcceptAsync((x) -> {} , null), + () -> f.thenAcceptAsync(null, exec), + + () -> f.thenRun(null), + () -> f.thenRunAsync(null), + () -> f.thenRunAsync(() -> {} , null), + () -> f.thenRunAsync(null, exec), + + () -> f.thenCombine(g, null), + () -> f.thenCombineAsync(g, null), + () -> f.thenCombineAsync(g, null, exec), + () -> f.thenCombine(nullFuture, (x, y) -> x), + () -> f.thenCombineAsync(nullFuture, (x, y) -> x), + () -> f.thenCombineAsync(nullFuture, (x, y) -> x, exec), + () -> f.thenCombineAsync(g, (x, y) -> x, null), + + () -> f.thenAcceptBoth(g, null), + () -> f.thenAcceptBothAsync(g, null), + () -> f.thenAcceptBothAsync(g, null, exec), + () -> f.thenAcceptBoth(nullFuture, (x, y) -> {}), + () -> f.thenAcceptBothAsync(nullFuture, (x, y) -> {}), + () -> f.thenAcceptBothAsync(nullFuture, (x, y) -> {}, exec), + () -> f.thenAcceptBothAsync(g, (x, y) -> {}, null), + + () -> f.runAfterBoth(g, null), + () -> f.runAfterBothAsync(g, null), + () -> f.runAfterBothAsync(g, null, exec), + () -> f.runAfterBoth(nullFuture, () -> {}), + () -> f.runAfterBothAsync(nullFuture, () -> {}), + () -> f.runAfterBothAsync(nullFuture, () -> {}, exec), + () -> f.runAfterBothAsync(g, () -> {}, null), + + () -> f.applyToEither(g, null), + () -> f.applyToEitherAsync(g, null), + () -> f.applyToEitherAsync(g, null, exec), + () -> f.applyToEither(nullFuture, (x) -> x), + () -> f.applyToEitherAsync(nullFuture, (x) -> x), + () -> f.applyToEitherAsync(nullFuture, (x) -> x, exec), + () -> f.applyToEitherAsync(g, (x) -> x, null), + + () -> f.acceptEither(g, null), + () -> f.acceptEitherAsync(g, null), + () -> f.acceptEitherAsync(g, null, exec), + () -> f.acceptEither(nullFuture, (x) -> {}), + () -> f.acceptEitherAsync(nullFuture, (x) -> {}), + () -> f.acceptEitherAsync(nullFuture, (x) -> {}, exec), + () -> f.acceptEitherAsync(g, (x) -> {}, null), + + () -> f.runAfterEither(g, null), + () -> f.runAfterEitherAsync(g, null), + () -> f.runAfterEitherAsync(g, null, exec), + () -> f.runAfterEither(nullFuture, () -> {}), + () -> f.runAfterEitherAsync(nullFuture, () -> {}), + () -> f.runAfterEitherAsync(nullFuture, () -> {}, exec), + () -> f.runAfterEitherAsync(g, () -> {}, null), + + () -> f.thenCompose(null), + () -> f.thenComposeAsync(null), + () -> f.thenComposeAsync(new CompletableFutureInc(), null), + () -> f.thenComposeAsync(null, exec), + + () -> f.exceptionally(null), + + () -> f.handle(null), + + () -> CompletableFuture.allOf((CompletableFuture)null), + () -> CompletableFuture.allOf((CompletableFuture[])null), + () -> CompletableFuture.allOf(f, null), + () -> CompletableFuture.allOf(null, f), + + () -> CompletableFuture.anyOf((CompletableFuture)null), + () -> CompletableFuture.anyOf((CompletableFuture[])null), + () -> CompletableFuture.anyOf(f, null), + () -> CompletableFuture.anyOf(null, f), + + () -> f.obtrudeException(null), + }; + + assertThrows(NullPointerException.class, throwingActions); + assertEquals(0, exec.count.get()); + } + + /** + * toCompletableFuture returns this CompletableFuture. + */ + public void testToCompletableFuture() { + CompletableFuture f = new CompletableFuture<>(); + assertSame(f, f.toCompletableFuture()); + } + + /** + * whenComplete action executes on normal completion, propagating + * source result. + */ + public void testWhenComplete_normalCompletion1() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final AtomicInteger a = new AtomicInteger(); + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = + m.whenComplete(f, + (Integer x, Throwable t) -> { + threadAssertSame(x, v1); + threadAssertNull(t); + a.getAndIncrement(); + }); + f.complete(v1); + checkCompletedNormally(f, v1); + checkCompletedNormally(g, v1); + assertEquals(a.get(), 1); + } + } + + /** + * whenComplete action executes on exceptional completion, propagating + * source result. + */ + public void testWhenComplete_exceptionalCompletion() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final AtomicInteger a = new AtomicInteger(); + final CFException ex = new CFException(); + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = m.whenComplete + (f, + (Integer x, Throwable t) -> { + threadAssertNull(x); + threadAssertSame(t, ex); + a.getAndIncrement(); + }); + f.completeExceptionally(ex); + checkCompletedWithWrappedCFException(f, ex); + checkCompletedWithWrappedCFException(g, ex); + assertEquals(a.get(), 1); + } + } + + /** + * If a whenComplete action throws an exception when triggered by + * a normal completion, it completes exceptionally + */ + public void testWhenComplete_actionFailed() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CFException ex = new CFException(); + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = m.whenComplete + (f, + (Integer x, Throwable t) -> { + threadAssertSame(x, v1); + threadAssertNull(t); + throw ex; + }); + f.complete(v1); + checkCompletedNormally(f, v1); + checkCompletedWithWrappedCFException(g, ex); + } + } + + /** + * If a whenComplete action throws an exception when triggered by + * a source completion that also throws an exception, the source + * exception takes precedence. + */ + public void testWhenComplete_actionFailedSourceFailed() { + for (ExecutionMode m : ExecutionMode.values()) + for (Integer v1 : new Integer[] { 1, null }) { + + final CFException ex1 = new CFException(); + final CFException ex2 = new CFException(); + final CompletableFuture f = new CompletableFuture<>(); + final CompletableFuture g = m.whenComplete + (f, + (Integer x, Throwable t) -> { + threadAssertSame(t, ex1); + threadAssertNull(x); + throw ex2; + }); + f.completeExceptionally(ex1); + checkCompletedWithWrappedCFException(f, ex1); + checkCompletedWithWrappedCFException(g, ex1); + } + } + + /** + * handleAsync action completes normally with function value on + * either normal or exceptional completion of source + */ + public void testHandleAsync() { + CompletableFuture f, g; + IntegerHandler r; + + f = new CompletableFuture<>(); + g = f.handleAsync(r = new IntegerHandler()); + assertFalse(r.ran); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(f); + checkCompletedNormally(g, three); + assertTrue(r.ran); + + f = new CompletableFuture<>(); + g = f.handleAsync(r = new IntegerHandler()); + assertFalse(r.ran); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(f); + checkCompletedNormally(g, three); + assertTrue(r.ran); + + f = new CompletableFuture<>(); + g = f.handleAsync(r = new IntegerHandler()); + assertFalse(r.ran); + f.complete(one); + checkCompletedNormally(f, one); + checkCompletedNormally(g, two); + assertTrue(r.ran); + + f = new CompletableFuture<>(); + g = f.handleAsync(r = new IntegerHandler()); + assertFalse(r.ran); + f.complete(one); + checkCompletedNormally(f, one); + checkCompletedNormally(g, two); + assertTrue(r.ran); + } + + /** + * handleAsync action with Executor completes normally with + * function value on either normal or exceptional completion of + * source + */ + public void testHandleAsync2() { + CompletableFuture f, g; + ThreadExecutor exec = new ThreadExecutor(); + IntegerHandler r; + + f = new CompletableFuture<>(); + g = f.handleAsync(r = new IntegerHandler(), exec); + assertFalse(r.ran); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(f); + checkCompletedNormally(g, three); + assertTrue(r.ran); + + f = new CompletableFuture<>(); + g = f.handleAsync(r = new IntegerHandler(), exec); + assertFalse(r.ran); + f.completeExceptionally(new CFException()); + checkCompletedWithWrappedCFException(f); + checkCompletedNormally(g, three); + assertTrue(r.ran); + + f = new CompletableFuture<>(); + g = f.handleAsync(r = new IntegerHandler(), exec); + assertFalse(r.ran); + f.complete(one); + checkCompletedNormally(f, one); + checkCompletedNormally(g, two); + assertTrue(r.ran); + + f = new CompletableFuture<>(); + g = f.handleAsync(r = new IntegerHandler(), exec); + assertFalse(r.ran); + f.complete(one); + checkCompletedNormally(f, one); + checkCompletedNormally(g, two); + assertTrue(r.ran); + } + }