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add generator for futur-lazy

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WhatCats
2025-01-06 23:08:59 +01:00
parent 4236adbd9e
commit 6174193145
11 changed files with 595 additions and 188 deletions
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1
.gitignore vendored
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@@ -1,5 +1,6 @@
.gradle .gradle
build/ build/
node_modules/
!gradle/wrapper/gradle-wrapper.jar !gradle/wrapper/gradle-wrapper.jar
!**/src/main/**/build/ !**/src/main/**/build/
!**/src/test/**/build/ !**/src/test/**/build/

2
build.gradle
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@@ -32,7 +32,7 @@ subprojects {
dependencies { dependencies {
compileOnly 'org.jetbrains:annotations:24.1.0' compileOnly 'org.jetbrains:annotations:24.1.0'
implementation 'org.slf4j:slf4j-api:2.0.12' implementation 'org.slf4j:slf4j-api:2.0.12'
2
testRuntimeOnly 'org.junit.platform:junit-platform-launcher' testRuntimeOnly 'org.junit.platform:junit-platform-launcher'
testImplementation 'io.projectreactor:reactor-core:3.6.4' testImplementation 'io.projectreactor:reactor-core:3.6.4'
testImplementation 'org.junit.jupiter:junit-jupiter:5.8.1' testImplementation 'org.junit.jupiter:junit-jupiter:5.8.1'

12
futur-api/src/main/java/dev/tommyjs/futur/joiner/PromiseJoiner.java
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@@ -9,7 +9,6 @@ import org.jetbrains.annotations.NotNull;
import org.jetbrains.annotations.Nullable; import org.jetbrains.annotations.Nullable;
import java.util.Iterator; import java.util.Iterator;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger; import java.util.concurrent.atomic.AtomicInteger;
public abstract class PromiseJoiner<V, K, T, R> { public abstract class PromiseJoiner<V, K, T, R> {
@@ -29,7 +28,6 @@ public abstract class PromiseJoiner<V, K, T, R> {
protected abstract R getResult(); protected abstract R getResult();
protected void join(@NotNull Iterator<V> promises, boolean link) { protected void join(@NotNull Iterator<V> promises, boolean link) {
AtomicBoolean waiting = new AtomicBoolean();
AtomicInteger count = new AtomicInteger(); AtomicInteger count = new AtomicInteger();
int i = 0; int i = 0;
@@ -50,19 +48,15 @@ public abstract class PromiseJoiner<V, K, T, R> {
Throwable e = onChildComplete(index, key, res); Throwable e = onChildComplete(index, key, res);
if (e != null) { if (e != null) {
joined.completeExceptionally(e); joined.completeExceptionally(e);
} else if (count.decrementAndGet() == 0 && waiting.get()) { } else if (count.decrementAndGet() == -1) {
joined.complete(getResult()); joined.complete(getResult());
} }
}); });
} }
} while (promises.hasNext()); } while (promises.hasNext());
if (!joined.isCompleted()) { if (count.decrementAndGet() == -1) {
count.updateAndGet(v -> { joined.complete(getResult());
if (v == 0) joined.complete(getResult());
else waiting.set(true);
return v;
});
} }
} }

11
futur-api/src/main/java/dev/tommyjs/futur/promise/AbstractPromise.java
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@@ -48,8 +48,9 @@ public abstract class AbstractPromise<T, FS, FA> implements CompletablePromise<T
@NotNull ExceptionalFunction<T, V> completer @NotNull ExceptionalFunction<T, V> completer
) { ) {
return () -> { return () -> {
if (promise.isCompleted()) return; if (!promise.isCompleted()) {
runCompleter(promise, () -> promise.complete(completer.apply(result))); runCompleter(promise, () -> promise.complete(completer.apply(result)));
}
}; };
} }
@@ -479,17 +480,17 @@ public abstract class AbstractPromise<T, FS, FA> implements CompletablePromise<T
while (iter.hasNext()) { while (iter.hasNext()) {
PromiseListener<T> listener = iter.next(); PromiseListener<T> listener = iter.next();
try {
if (listener instanceof AsyncPromiseListener) { if (listener instanceof AsyncPromiseListener) {
callListenerAsync(listener, ctx); callListenerAsync(listener, ctx);
} else { } else {
try {
callListenerNow(listener, ctx); callListenerNow(listener, ctx);
}
} finally { } finally {
iter.forEachRemaining(v -> callListenerAsyncLastResort(v, ctx)); iter.forEachRemaining(v -> callListenerAsyncLastResort(v, ctx));
} }
} }
} }
}
private void callListenerAsyncLastResort(PromiseListener<T> listener, PromiseCompletion<T> ctx) { private void callListenerAsyncLastResort(PromiseListener<T> listener, PromiseCompletion<T> ctx) {
try { try {
@@ -531,16 +532,18 @@ public abstract class AbstractPromise<T, FS, FA> implements CompletablePromise<T
@Override @Override
public @NotNull CompletableFuture<T> toFuture() { public @NotNull CompletableFuture<T> toFuture() {
CompletableFuture<T> future = new CompletableFuture<>(); CompletableFuture<T> future = new CompletableFuture<>();
this.addDirectListener(future::complete, future::completeExceptionally); addDirectListener(future::complete, future::completeExceptionally);
future.whenComplete((_, e) -> { future.whenComplete((_, e) -> {
if (e instanceof CancellationException) { if (e instanceof CancellationException) {
this.cancel(); this.cancel();
} }
}); });
return future; return future;
} }
private static class DeferredExecutionException extends ExecutionException { private static class DeferredExecutionException extends ExecutionException {
} }
} }

1
futur-api/src/main/java/dev/tommyjs/futur/promise/AsyncPromiseListener.java
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@@ -5,4 +5,5 @@ package dev.tommyjs.futur.promise;
* executed asynchronously by the {@link PromiseFactory} that created the completed promise. * executed asynchronously by the {@link PromiseFactory} that created the completed promise.
*/ */
public interface AsyncPromiseListener<T> extends PromiseListener<T> { public interface AsyncPromiseListener<T> extends PromiseListener<T> {
} }

3
futur-api/src/main/java/dev/tommyjs/futur/util/ConcurrentResultArray.java
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@@ -8,7 +8,6 @@ import java.util.concurrent.atomic.AtomicReference;
public class ConcurrentResultArray<T> { public class ConcurrentResultArray<T> {
private static final float RESIZE_THRESHOLD = 0.75F;
private static final float RESIZE_FACTOR = 1.2F; private static final float RESIZE_FACTOR = 1.2F;
private final AtomicReference<T[]> ref; private final AtomicReference<T[]> ref;
@@ -20,7 +19,7 @@ public class ConcurrentResultArray<T> {
public void set(int index, T element) { public void set(int index, T element) {
ref.updateAndGet(array -> { ref.updateAndGet(array -> {
if (array.length * RESIZE_THRESHOLD <= index) { if (array.length <= index) {
array = Arrays.copyOf(array, (int) (array.length * RESIZE_FACTOR)); array = Arrays.copyOf(array, (int) (array.length * RESIZE_FACTOR));
} }

BIN
futur-lazy/generator/bun.lockb Normal file
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33
futur-lazy/generator/index.ts Normal file
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@@ -0,0 +1,33 @@
const PACKAGE = "src/main/java/dev/tommyjs/futur"
const SIGNAL = "// Generated delegates to static factory"
const regex = /( {4}\/\*\*.+?)?((?:\S| )+? )(\S+)(\(.*?\))(?: {.+?}|;)/gs
const content = await Bun.file(`../../futur-api/${PACKAGE}/promise/PromiseFactory.java`).text()
const methods = [""]
for (const match of content.matchAll(regex)) {
let [_, docs, head, name, params] = match
head = head.trimStart()
if (head.startsWith("static")) continue
if (head.startsWith("default")) head = head.slice(8);
const args = Array.from(params.matchAll(/ ([a-zA-Z1-9]+)[,)]/gs))
.map(v => v[1]).join(", ")
methods.push(
[
`${docs} public static ${head}${name}${params} {`,
` return factory.${name}(${args});`,
" }"
].join("\n")
)
}
const output = Bun.file(`../${PACKAGE}/lazy/Promises.java`)
const existing = await output.text()
const cutIndex = existing.indexOf(SIGNAL) + SIGNAL.length;
const newContent = existing.slice(0, cutIndex) + methods.join("\n\n") + "\n\n}"
await Bun.write(output, newContent)

11
futur-lazy/generator/package.json Normal file
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@@ -0,0 +1,11 @@
{
"name": "generate-promises",
"module": "index.ts",
"type": "module",
"devDependencies": {
"@types/bun": "latest"
},
"peerDependencies": {
"typescript": "latest"
}
}

27
futur-lazy/generator/tsconfig.json Normal file
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@@ -0,0 +1,27 @@
{
"compilerOptions": {
// Enable latest features
"lib": ["ESNext", "DOM"],
"target": "ESNext",
"module": "ESNext",
"moduleDetection": "force",
"jsx": "react-jsx",
"allowJs": true,
// Bundler mode
"moduleResolution": "bundler",
"allowImportingTsExtensions": true,
"verbatimModuleSyntax": true,
"noEmit": true,
// Best practices
"strict": true,
"skipLibCheck": true,
"noFallthroughCasesInSwitch": true,
// Some stricter flags (disabled by default)
"noUnusedLocals": false,
"noUnusedParameters": false,
"noPropertyAccessFromIndexSignature": false
}
}

670
futur-lazy/src/main/java/dev/tommyjs/futur/lazy/Promises.java
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@@ -27,182 +27,520 @@ public final class Promises {
Promises.factory = factory; Promises.factory = factory;
} }
// Generated delegates to static factory
/**
* Creates a new uncompleted promise.
*
* @return the new promise
*/
public static <T> @NotNull CompletablePromise<T> unresolved() { public static <T> @NotNull CompletablePromise<T> unresolved() {
return factory.unresolved(); return factory.unresolved();
} }
public static <K, V> @NotNull Promise<Map.Entry<K, V>> combine(@NotNull Promise<K> p1, @NotNull Promise<V> p2, boolean cancelOnError) { /**
return factory.combine(p1, p2, cancelOnError); * Creates a new promise, completed with the given value.
} *
* @param value the value to complete the promise with
public static <K, V> @NotNull Promise<Map.Entry<K, V>> combine(@NotNull Promise<K> p1, @NotNull Promise<V> p2) { * @return the new promise
return factory.combine(p1, p2); */
}
public static <K, V> @NotNull Promise<Map<K, V>> combine(
@NotNull Map<K, Promise<V>> promises,
@Nullable BiConsumer<K, Throwable> exceptionHandler,
boolean propagateCancel
) {
return factory.combine(promises, exceptionHandler, propagateCancel);
}
public static <K, V> @NotNull Promise<Map<K, V>> combine(@NotNull Map<K, Promise<V>> promises, @NotNull BiConsumer<K, Throwable> exceptionHandler) {
return factory.combine(promises, exceptionHandler);
}
public static <K, V> @NotNull Promise<Map<K, V>> combine(@NotNull Map<K, Promise<V>> promises, boolean cancelOnError) {
return factory.combine(promises, cancelOnError);
}
public static <K, V> @NotNull Promise<Map<K, V>> combine(@NotNull Map<K, Promise<V>> promises) {
return factory.combine(promises);
}
public static <V> @NotNull Promise<List<V>> combine(
@NotNull Iterator<Promise<V>> promises, int expectedSize,
@Nullable BiConsumer<Integer, Throwable> exceptionHandler, boolean propagateCancel
) {
return factory.combine(promises, expectedSize, exceptionHandler, propagateCancel);
}
public static <V> @NotNull Promise<List<V>> combine(
@NotNull Collection<Promise<V>> promises,
@NotNull BiConsumer<Integer, Throwable> exceptionHandler,
boolean propagateCancel
) {
return factory.combine(promises, exceptionHandler, propagateCancel);
}
public static <V> @NotNull Promise<List<V>> combine(
@NotNull Collection<Promise<V>> promises,
@NotNull BiConsumer<Integer, Throwable> exceptionHandler
) {
return factory.combine(promises, exceptionHandler);
}
public static <V> @NotNull Promise<List<V>> combine(@NotNull Collection<Promise<V>> promises, boolean cancelOnError) {
return factory.combine(promises, cancelOnError);
}
public static <V> @NotNull Promise<List<V>> combine(@NotNull Collection<Promise<V>> promises) {
return factory.combine(promises);
}
public static <V> @NotNull Promise<List<V>> combine(
@NotNull Stream<Promise<V>> promises,
@NotNull BiConsumer<Integer, Throwable> exceptionHandler,
boolean propagateCancel
) {
return factory.combine(promises, exceptionHandler, propagateCancel);
}
public static <V> @NotNull Promise<List<V>> combine(
@NotNull Stream<Promise<V>> promises,
@NotNull BiConsumer<Integer, Throwable> exceptionHandler
) {
return factory.combine(promises, exceptionHandler);
}
public static <V> @NotNull Promise<List<V>> combine(@NotNull Stream<Promise<V>> promises, boolean cancelOnError) {
return factory.combine(promises, cancelOnError);
}
public static <V> @NotNull Promise<List<V>> combine(@NotNull Stream<Promise<V>> promises) {
return factory.combine(promises);
}
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(
@NotNull Iterator<Promise<?>> promises, int estimatedSize, boolean propagateCancel) {
return factory.allSettled(promises, estimatedSize, propagateCancel);
}
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Collection<Promise<?>> promises, boolean propagateCancel) {
return factory.allSettled(promises, propagateCancel);
}
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Collection<Promise<?>> promises) {
return factory.allSettled(promises);
}
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Stream<Promise<?>> promises, boolean propagateCancel) {
return factory.allSettled(promises, propagateCancel);
}
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Stream<Promise<?>> promises) {
return factory.allSettled(promises);
}
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(boolean propagateCancel, @NotNull Promise<?>... promises) {
return factory.allSettled(propagateCancel, promises);
}
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Promise<?>... promises) {
return factory.allSettled(promises);
}
public static @NotNull Promise<Void> all(@NotNull Iterator<Promise<?>> promises, boolean cancelAllOnError) {
return factory.all(promises, cancelAllOnError);
}
public static @NotNull Promise<Void> all(@NotNull Iterable<Promise<?>> promises, boolean cancelAllOnError) {
return factory.all(promises, cancelAllOnError);
}
public static @NotNull Promise<Void> all(@NotNull Iterable<Promise<?>> promises) {
return factory.all(promises);
}
public static @NotNull Promise<Void> all(@NotNull Stream<Promise<?>> promises, boolean cancelAllOnError) {
return factory.all(promises, cancelAllOnError);
}
public static @NotNull Promise<Void> all(@NotNull Stream<Promise<?>> promises) {
return factory.all(promises);
}
public static @NotNull Promise<Void> all(boolean cancelAllOnError, @NotNull Promise<?>... promises) {
return factory.all(cancelAllOnError, promises);
}
public static @NotNull Promise<Void> all(@NotNull Promise<?>... promises) {
return factory.all(promises);
}
public static <V> @NotNull Promise<V> race(@NotNull Iterator<Promise<V>> promises, boolean cancelLosers) {
return factory.race(promises, cancelLosers);
}
public static <V> @NotNull Promise<V> race(@NotNull Iterable<Promise<V>> promises, boolean cancelLosers) {
return factory.race(promises, cancelLosers);
}
public static <V> @NotNull Promise<V> race(@NotNull Iterable<Promise<V>> promises) {
return factory.race(promises);
}
public static <V> @NotNull Promise<V> race(@NotNull Stream<Promise<V>> promises, boolean cancelLosers) {
return factory.race(promises, cancelLosers);
}
public static <V> @NotNull Promise<V> race(@NotNull Stream<Promise<V>> promises) {
return factory.race(promises);
}
public static <T> @NotNull Promise<T> wrap(@NotNull CompletableFuture<T> future) {
return factory.wrap(future);
}
public static @NotNull Promise<Void> start() {
return factory.start();
}
public static <T> @NotNull Promise<T> resolve(T value) { public static <T> @NotNull Promise<T> resolve(T value) {
return factory.resolve(value); return factory.resolve(value);
} }
/**
* Creates a new promise, completed with {@code null}.
*
* @return the new promise
* @apiNote This method is often useful for starting promise chains.
*/
public static @NotNull Promise<Void> start() {
return factory.start();
}
/**
* Creates a new promise, completed exceptionally with the given error.
*
* @param error the error to complete the promise with
* @return the new promise
*/
public static <T> @NotNull Promise<T> error(@NotNull Throwable error) { public static <T> @NotNull Promise<T> error(@NotNull Throwable error) {
return factory.error(error); return factory.error(error);
} }
/**
* Creates a new promise backed by the given future. The promise will be completed upon completion
* of the future.
*
* @param future the future to wrap
* @return the new promise
*/
public static <T> @NotNull Promise<T> wrap(@NotNull CompletableFuture<T> future) {
return factory.wrap(future);
}
/**
* Combines two promises into a single promise that completes when both promises complete. If
* {@code link} is {@code true} and either input promise completes exceptionally (including
* cancellation), the other promise will be cancelled and the output promise will complete
* exceptionally.
*
* @param p1 the first promise
* @param p2 the second promise
* @param link whether to cancel the other promise on error
* @return the combined promise
*/
public static <K, V> @NotNull Promise<Map.Entry<K, V>> combine(@NotNull Promise<K> p1, @NotNull Promise<V> p2,
boolean link) {
return factory.combine(p1, p2, link);
}
/**
* Combines two promises into a single promise that completes when both promises complete. If either
* input promise completes exceptionally, the other promise will be cancelled and the output promise
* will complete exceptionally.
*
* @param p1 the first promise
* @param p2 the second promise
* @return the combined promise
*/
public static <K, V> @NotNull Promise<Map.Entry<K, V>> combine(@NotNull Promise<K> p1, @NotNull Promise<V> p2) {
return factory.combine(p1, p2);
}
/**
* Combines key-value pairs of inputs to promises into a single promise that completes with key-value
* pairs of inputs to outputs when all promises complete. If {@code link} is {@code true}
* and any promise completes exceptionally, the other promises will be cancelled and the output
* promise will complete exceptionally. If an exception handler is present, promises that fail
* will not cause this behaviour, and instead the exception handler will be called with the key
* that failed and the exception.
*
* @param promises the input promises
* @param exceptionHandler the exception handler
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static <K, V> @NotNull Promise<Map<K, V>> combine(@NotNull Map<K, Promise<V>> promises,
@Nullable BiConsumer<K, Throwable> exceptionHandler,
boolean link) {
return factory.combine(promises, exceptionHandler, link);
}
/**
* Combines key-value pairs of inputs to promises into a single promise that completes with key-value
* pairs of inputs to outputs when all promises complete. If any promise completes exceptionally,
* the exception handler will be called with the key that failed and the exception. The output promise
* will always complete successfully regardless of whether input promises fail.
*
* @param promises the input promises
* @param exceptionHandler the exception handler
* @return the combined promise
*/
public static <K, V> @NotNull Promise<Map<K, V>> combine(@NotNull Map<K, Promise<V>> promises,
@NotNull BiConsumer<K, Throwable> exceptionHandler) {
return factory.combine(promises, exceptionHandler);
}
/**
* Combines key-value pairs of inputs to promises into a single promise that completes with key-value
* pairs of inputs to outputs when all promises complete. If {@code link} is {@code true}
* and any promise completes exceptionally, the other promises will be cancelled and the output
* promise will complete exceptionally.
*
* @param promises the input promises
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static <K, V> @NotNull Promise<Map<K, V>> combine(@NotNull Map<K, Promise<V>> promises, boolean link) {
return factory.combine(promises, link);
}
/**
* Combines key-value pairs of inputs to promises into a single promise that completes with key-value
* pairs of inputs to outputs when all promises complete. If any promise completes exceptionally,
* the output promise will complete exceptionally.
*
* @param promises the input promises
* @return the combined promise
*/
public static <K, V> @NotNull Promise<Map<K, V>> combine(@NotNull Map<K, Promise<V>> promises) {
return factory.combine(promises);
}
/**
* Combines an iterator of promises into a single promise that completes with a list of results when all
* promises complete. If {@code link} is {@code true} and any promise completes exceptionally, all
* other promises will be cancelled and the output promise will complete exceptionally. If an exception
* handler is present, promises that fail will not cause this behaviour, and instead the exception
* handler will be called with the index that failed and the exception.
*
* @param promises the input promises
* @param exceptionHandler the exception handler
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static <V> @NotNull Promise<List<V>> combine(@NotNull Iterator<Promise<V>> promises, int expectedSize,
@Nullable BiConsumer<Integer, Throwable> exceptionHandler,
boolean link) {
return factory.combine(promises, expectedSize, exceptionHandler, link);
}
/**
* Combines a collection of promises into a single promise that completes with a list of results when all
* promises complete. If any promise completes exceptionally, the exception handler will be called with
* the index that failed and the exception. The output promise will always complete successfully regardless
* of whether input promises fail.
*
* @param promises the input promises
* @param exceptionHandler the exception handler
* @return the combined promise
*/
public static <V> @NotNull Promise<List<V>> combine(@NotNull Collection<Promise<V>> promises,
@NotNull BiConsumer<Integer, Throwable> exceptionHandler,
boolean link) {
return factory.combine(promises, exceptionHandler, link);
}
/**
* Combines a collection of promises into a single promise that completes with a list of results when all
* promises complete. If any promise completes exceptionally, the exception handler will be called with
* the index that failed and the exception. The output promise will always complete successfully regardless
* of whether input promises fail.
*
* @param promises the input promises
* @param exceptionHandler the exception handler
* @return the combined promise
*/
public static <V> @NotNull Promise<List<V>> combine(@NotNull Collection<Promise<V>> promises,
@NotNull BiConsumer<Integer, Throwable> exceptionHandler) {
return factory.combine(promises, exceptionHandler);
}
/**
* Combines a collection of promises into a single promise that completes with a list of results when all
* promises complete. If {@code link} is {@code true} and any promise completes exceptionally, all
* other promises will be cancelled and the output promise will complete exceptionally.
*
* @param promises the input promises
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static <V> @NotNull Promise<List<V>> combine(@NotNull Collection<Promise<V>> promises, boolean link) {
return factory.combine(promises, link);
}
/**
* Combines a collection of promises into a single promise that completes with a list of results when all
* promises complete. If any promise completes exceptionally, the output promise will complete exceptionally.
*
* @param promises the input promises
* @return the combined promise
*/
public static <V> @NotNull Promise<List<V>> combine(@NotNull Collection<Promise<V>> promises) {
return factory.combine(promises);
}
/**
* Combines a stream of promises into a single promise that completes with a list of results when all
* promises complete. If {@code link} is {@code true} and any promise completes exceptionally, all
* other promises will be cancelled and the output promise will complete exceptionally. If an exception
* handler is present, promises that fail will not cause this behaviour, and instead the exception
* handler will be called with the index that failed and the exception.
*
* @param promises the input promises
* @param exceptionHandler the exception handler
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static <V> @NotNull Promise<List<V>> combine(@NotNull Stream<Promise<V>> promises,
@NotNull BiConsumer<Integer, Throwable> exceptionHandler,
boolean link) {
return factory.combine(promises, exceptionHandler, link);
}
/**
* Combines a stream of promises into a single promise that completes with a list of results when all
* promises complete. If any promise completes exceptionally, the exception handler will be called with
* the index that failed and the exception. The output promise will always complete successfully regardless
* of whether input promises fail.
*
* @param promises the input promises
* @param exceptionHandler the exception handler
* @return the combined promise
*/
public static <V> @NotNull Promise<List<V>> combine(@NotNull Stream<Promise<V>> promises,
@NotNull BiConsumer<Integer, Throwable> exceptionHandler) {
return factory.combine(promises, exceptionHandler);
}
/**
* Combines a stream of promises into a single promise that completes with a list of results when all
* promises complete. If {@code link} is {@code true} and any promise completes exceptionally, all
* other promises will be cancelled and the output promise will complete exceptionally.
*
* @param promises the input promises
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static <V> @NotNull Promise<List<V>> combine(@NotNull Stream<Promise<V>> promises, boolean link) {
return factory.combine(promises, link);
}
/**
* Combines a stream of promises into a single promise that completes with a list of results when all
* promises complete. If any promise completes exceptionally, the output promise will complete exceptionally.
*
* @param promises the input promises
* @return the combined promise
*/
public static <V> @NotNull Promise<List<V>> combine(@NotNull Stream<Promise<V>> promises) {
return factory.combine(promises);
}
/**
* Combines an iterator of promises into a single promise that completes with a list of results when all
* promises complete. If {@code link} is {@code true} and any promise completes exceptionally, all
* other promises will be cancelled. The output promise will always complete successfully regardless
* of whether input promises fail.
*
* @param promises the input promises
* @param expectedSize the expected size of the list (used for optimization)
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Iterator<Promise<?>> promises,
int expectedSize, boolean link) {
return factory.allSettled(promises, expectedSize, link);
}
/**
* Combines a collection of promises into a single promise that completes with a list of results when all
* promises complete. If {@code link} is {@code true} and any promise completes exceptionally, all
* other promises will be cancelled. The output promise will always complete successfully regardless
* of whether input promises fail.
*
* @param promises the input promises
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Collection<Promise<?>> promises,
boolean link) {
return factory.allSettled(promises, link);
}
/**
* Combines a collection of promises into a single promise that completes with a list of results when all
* promises complete. If any promise completes exceptionally, all other promises will be cancelled.
*
* @param promises the input promises
* @return the combined promise
*/
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Collection<Promise<?>> promises) {
return factory.allSettled(promises);
}
/**
* Combines a stream of promises into a single promise that completes with a list of results when all
* promises complete. If {@code link} is {@code true} and any promise completes exceptionally, all
* other promises will be cancelled. The output promise will always complete successfully regardless
* of whether input promises fail.
*
* @param promises the input promises
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Stream<Promise<?>> promises,
boolean link) {
return factory.allSettled(promises, link);
}
/**
* Combines a stream of promises into a single promise that completes with a list of results when all
* promises complete. If any promise completes exceptionally, all other promises will be cancelled.
*
* @param promises the input promises
* @return the combined promise
*/
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Stream<Promise<?>> promises) {
return factory.allSettled(promises);
}
/**
* Combines an array of promises into a single promise that completes with a list of results when all
* promises complete. If {@code link} is {@code true} and any promise completes exceptionally, all
* other promises will be cancelled. The output promise will always complete successfully regardless
* of whether input promises fail.
*
* @param link whether to cancel all promises on any exceptional completions
* @param promises the input promises
* @return the combined promise
*/
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(boolean link,
@NotNull Promise<?>... promises) {
return factory.allSettled(link, promises);
}
/**
* Combines an array of promises into a single promise that completes with a list of results when all
* promises complete. If any promise completes exceptionally, all other promises will be cancelled.
*
* @param promises the input promises
* @return the combined promise
*/
public static @NotNull Promise<List<PromiseCompletion<?>>> allSettled(@NotNull Promise<?>... promises) {
return factory.allSettled(promises);
}
/**
* Combines an iterator of promises into a single promise that completes when all promises complete.
* If {@code link} is {@code true} and any promise completes exceptionally, all other promises will
* be cancelled and the output promise will complete exceptionally.
*
* @param promises the input promises
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static @NotNull Promise<Void> all(@NotNull Iterator<Promise<?>> promises, boolean link) {
return factory.all(promises, link);
}
/**
* Combines an iterable of promises into a single promise that completes when all promises complete.
* If {@code link} is {@code true} and any promise completes exceptionally, all other promises will
* be cancelled and the output promise will complete exceptionally.
*
* @param promises the input promises
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static @NotNull Promise<Void> all(@NotNull Iterable<Promise<?>> promises, boolean link) {
return factory.all(promises, link);
}
/**
* Combines an iterable of promises into a single promise that completes when all promises complete.
* If any promise completes exceptionally, all other promises will be cancelled and the output
* promise will complete exceptionally.
*
* @param promises the input promises
* @return the combined promise
*/
public static @NotNull Promise<Void> all(@NotNull Iterable<Promise<?>> promises) {
return factory.all(promises);
}
/**
* Combines a stream of promises into a single promise that completes when all promises complete.
* If {@code link} is {@code true} and any promise completes exceptionally, all other promises will
* be cancelled and the output promise will complete exceptionally.
*
* @param promises the input promises
* @param link whether to cancel all promises on any exceptional completions
* @return the combined promise
*/
public static @NotNull Promise<Void> all(@NotNull Stream<Promise<?>> promises, boolean link) {
return factory.all(promises, link);
}
/**
* Combines a stream of promises into a single promise that completes when all promises complete.
* If any promise completes exceptionally, all other promises will be cancelled and the output
* promise willcomplete exceptionally.
*
* @param promises the input promises
* @return the combined promise
*/
public static @NotNull Promise<Void> all(@NotNull Stream<Promise<?>> promises) {
return factory.all(promises);
}
/**
* Combines an array of promises into a single promise that completes when all promises complete.
* If {@code link} is {@code true} and any promise completes exceptionally, all other promises will
* be cancelled
* and the output promise will complete exceptionally.
*
* @param link whether to cancel all promises on any exceptional completions
* @param promises the input promises
* @return the combined promise
*/
public static @NotNull Promise<Void> all(boolean link, @NotNull Promise<?>... promises) {
return factory.all(link, promises);
}
/**
* Combines an array of promises into a single promise that completes when all promises complete.
* If any promise completes exceptionally, all other promises will be cancelled and the output
* promise will complete exceptionally.
*
* @param promises the input promises
* @return the combined promise
*/
public static @NotNull Promise<Void> all(@NotNull Promise<?>... promises) {
return factory.all(promises);
}
/**
* Combines an iterator of promises into a single promise that completes when the first promise
* completes (successfully or exceptionally). If {@code cancelLosers} is {@code true}, all other
* promises will be cancelled when the first promise
* completes.
*
* @param promises the input promises
* @param cancelLosers whether to cancel the other promises when the first completes
* @return the combined promise
*/
public static <V> @NotNull Promise<V> race(@NotNull Iterator<Promise<V>> promises, boolean cancelLosers) {
return factory.race(promises, cancelLosers);
}
/**
* Combines an iterable of promises into a single promise that completes when the first promise
* completes (successfully or exceptionally). All other promises will be cancelled when the first
* promise completes.
*
* @param promises the input promises
* @return the combined promise
*/
public static <V> @NotNull Promise<V> race(@NotNull Iterable<Promise<V>> promises, boolean cancelLosers) {
return factory.race(promises, cancelLosers);
}
/**
* Combines an iterable of promises into a single promise that completes when the first promise
* completes (successfully or exceptionally). All other promises will be cancelled when the first
* promise completes.
*
* @param promises the input promises
*/
public static <V> @NotNull Promise<V> race(@NotNull Iterable<Promise<V>> promises) {
return factory.race(promises);
}
/**
* Combines a stream of promises into a single promise that completes when the first promise
* completes (successfully or exceptionally). If {@code cancelLosers} is {@code true}, all other
* promises will be cancelled when the first promise completes.
*
* @param promises the input promises
* @param cancelLosers whether to cancel the other promises when the first completes
* @return the combined promise
*/
public static <V> @NotNull Promise<V> race(@NotNull Stream<Promise<V>> promises, boolean cancelLosers) {
return factory.race(promises, cancelLosers);
}
/**
* Combines a stream of promises into a single promise that completes when the first promise
* completes (successfully or exceptionally). All other promises will be cancelled when the first
* promise completes.
*
* @param promises the input promises
* @return the combined promise
*/
public static <V> @NotNull Promise<V> race(@NotNull Stream<Promise<V>> promises) {
return factory.race(promises);
}
} }