/libcore/support/src/test/java/tests/security/ |
H A D | AlgorithmParameterGeneratorTest.java | 26 private final TestHelper<AlgorithmParameters> helper; field in class:AlgorithmParameterGeneratorTest 28 protected AlgorithmParameterGeneratorTest(String algorithmName, TestHelper<AlgorithmParameters> helper) { argument 30 this.helper = helper; 39 helper.test(parameters);
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H A D | AlgorithmParametersTest.java | 27 private final TestHelper<AlgorithmParameters> helper; field in class:AlgorithmParametersTest 31 TestHelper<AlgorithmParameters> helper, AlgorithmParameterSpec parameterData) { 33 this.helper = helper; 40 helper.test(algorithmParameters); 30 AlgorithmParametersTest(String algorithmName, TestHelper<AlgorithmParameters> helper, AlgorithmParameterSpec parameterData) argument
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H A D | KeyPairGeneratorTest.java | 27 private final TestHelper<KeyPair> helper; field in class:KeyPairGeneratorTest 31 protected KeyPairGeneratorTest(String algorithmName, TestHelper<KeyPair> helper) { argument 33 this.helper = helper; 50 helper.test(keyPair);
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/libcore/ojluni/src/main/java/java/util/stream/ |
H A D | TerminalOp.java | 76 * @param helper the pipeline helper 80 default <P_IN> R evaluateParallel(PipelineHelper<E_IN> helper, argument 84 return evaluateSequential(helper, spliterator); 92 * @param helper the pipeline helper 96 <P_IN> R evaluateSequential(PipelineHelper<E_IN> helper, argument
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H A D | AbstractShortCircuitTask.java | 63 * @param helper the {@code PipelineHelper} describing the stream pipeline 68 protected AbstractShortCircuitTask(PipelineHelper<P_OUT> helper, argument 70 super(helper, spliterator);
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H A D | AbstractTask.java | 99 /** The pipeline helper, common to all tasks in a computation */ 100 protected final PipelineHelper<P_OUT> helper; field in class:AbstractTask 131 * @param helper The {@code PipelineHelper} describing the stream pipeline 136 protected AbstractTask(PipelineHelper<P_OUT> helper, argument 139 this.helper = helper; 155 this.helper = parent.helper;
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H A D | FindOps.java | 150 public <S> O evaluateSequential(PipelineHelper<T> helper, argument 152 O result = helper.wrapAndCopyInto(sinkSupplier.get(), spliterator).get(); 157 public <P_IN> O evaluateParallel(PipelineHelper<T> helper, argument 159 return new FindTask<>(this, helper, spliterator).invoke(); 255 PipelineHelper<P_OUT> helper, 257 super(helper, spliterator); 285 O result = helper.wrapAndCopyInto(op.sinkSupplier.get(), spliterator).get(); 254 FindTask(FindOp<P_OUT, O> op, PipelineHelper<P_OUT> helper, Spliterator<P_IN> spliterator) argument
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H A D | ForEachOps.java | 149 public <S> Void evaluateSequential(PipelineHelper<T> helper, argument 151 return helper.wrapAndCopyInto(this, spliterator).get(); 155 public <S> Void evaluateParallel(PipelineHelper<T> helper, argument 158 new ForEachOrderedTask<>(helper, spliterator, this).invoke(); 160 new ForEachTask<>(helper, spliterator, helper.wrapSink(this)).invoke(); 257 private final PipelineHelper<T> helper; field in class:ForEachOps.ForEachTask 260 ForEachTask(PipelineHelper<T> helper, argument 265 this.helper = helper; 365 private final PipelineHelper<T> helper; field in class:ForEachOps.ForEachOrderedTask 373 ForEachOrderedTask(PipelineHelper<T> helper, Spliterator<S> spliterator, Sink<T> action) argument [all...] |
H A D | MatchOps.java | 228 public <S> Boolean evaluateSequential(PipelineHelper<T> helper, argument 230 return helper.wrapAndCopyInto(sinkSupplier.get(), spliterator).getAndClearState(); 234 public <S> Boolean evaluateParallel(PipelineHelper<T> helper, argument 242 return new MatchTask<>(this, helper, spliterator).invoke(); 285 MatchTask(MatchOp<P_OUT> op, PipelineHelper<P_OUT> helper, argument 287 super(helper, spliterator); 306 boolean b = helper.wrapAndCopyInto(op.sinkSupplier.get(), spliterator).getAndClearState();
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H A D | ReduceOps.java | 706 public <P_IN> R evaluateSequential(PipelineHelper<T> helper, argument 708 return helper.wrapAndCopyInto(makeSink(), spliterator).get(); 712 public <P_IN> R evaluateParallel(PipelineHelper<T> helper, argument 714 return new ReduceTask<>(this, helper, spliterator).invoke().get(); 728 PipelineHelper<P_OUT> helper, 730 super(helper, spliterator); 747 return helper.wrapAndCopyInto(op.makeSink(), spliterator); 727 ReduceTask(ReduceOp<P_OUT, R, S> op, PipelineHelper<P_OUT> helper, Spliterator<P_IN> spliterator) argument
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H A D | AbstractPipeline.java | 48 * used by the operation; the shape-specific classes add helper methods for 567 * @param helper the pipeline helper describing the pipeline stages 573 public abstract <P_IN> Node<E_OUT> evaluateToNode(PipelineHelper<E_OUT> helper, argument 583 * @param ph the pipeline helper describing the pipeline stages 671 * @param helper the pipeline helper describing the pipeline stages 676 public <P_IN> Node<E_OUT> opEvaluateParallel(PipelineHelper<E_OUT> helper, argument 692 * return evaluateParallel(helper, i -> (E_OUT[]) new 698 * @param helper th 703 opEvaluateParallelLazy(PipelineHelper<E_OUT> helper, Spliterator<P_IN> spliterator) argument [all...] |
H A D | SliceOps.java | 133 public <P_IN> Spliterator<T> opEvaluateParallelLazy(PipelineHelper<T> helper, Spliterator<P_IN> spliterator) { 134 long size = helper.exactOutputSizeIfKnown(spliterator); 137 helper.wrapSpliterator(spliterator), 140 } else if (!StreamOpFlag.ORDERED.isKnown(helper.getStreamAndOpFlags())) { 142 helper.wrapSpliterator(spliterator), 154 return new SliceTask<>(this, helper, spliterator, castingArray(), skip, limit). 160 public <P_IN> Node<T> opEvaluateParallel(PipelineHelper<T> helper, 163 long size = helper.exactOutputSizeIfKnown(spliterator); 170 Spliterator<P_IN> s = sliceSpliterator(helper.getSourceShape(), spliterator, skip, limit); 171 return Nodes.collect(helper, 568 SliceTask(AbstractPipeline<P_OUT, P_OUT, ?> op, PipelineHelper<P_OUT> helper, Spliterator<P_IN> spliterator, IntFunction<P_OUT[]> generator, long offset, long size) argument [all...] |
H A D | SortedOps.java | 147 public <P_IN> Node<T> opEvaluateParallel(PipelineHelper<T> helper, argument 152 if (StreamOpFlag.SORTED.isKnown(helper.getStreamAndOpFlags()) && isNaturalSort) { 153 return helper.evaluate(spliterator, false, generator); 157 T[] flattenedData = helper.evaluate(spliterator, true, generator).asArray(generator); 186 public <P_IN> Node<Integer> opEvaluateParallel(PipelineHelper<Integer> helper, argument 189 if (StreamOpFlag.SORTED.isKnown(helper.getStreamAndOpFlags())) { 190 return helper.evaluate(spliterator, false, generator); 193 Node.OfInt n = (Node.OfInt) helper.evaluate(spliterator, true, generator); 225 public <P_IN> Node<Long> opEvaluateParallel(PipelineHelper<Long> helper, argument 228 if (StreamOpFlag.SORTED.isKnown(helper 264 opEvaluateParallel(PipelineHelper<Double> helper, Spliterator<P_IN> spliterator, IntFunction<Double[]> generator) argument [all...] |
H A D | DoublePipeline.java | 136 public final <P_IN> Node<Double> evaluateToNode(PipelineHelper<Double> helper, argument 140 return Nodes.collectDouble(helper, spliterator, flattenTree); 639 public abstract <P_IN> Node<Double> opEvaluateParallel(PipelineHelper<Double> helper, argument
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H A D | IntPipeline.java | 139 public final <P_IN> Node<Integer> evaluateToNode(PipelineHelper<Integer> helper, argument 143 return Nodes.collectInt(helper, spliterator, flattenTree); 633 public abstract <P_IN> Node<Integer> opEvaluateParallel(PipelineHelper<Integer> helper, argument
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H A D | LongPipeline.java | 137 public final <P_IN> Node<Long> evaluateToNode(PipelineHelper<Long> helper, argument 141 return Nodes.collectLong(helper, spliterator, flattenTree); 614 public abstract <P_IN> Node<Long> opEvaluateParallel(PipelineHelper<Long> helper, argument
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H A D | ReferencePipeline.java | 106 public final <P_IN> Node<P_OUT> evaluateToNode(PipelineHelper<P_OUT> helper, argument 110 return Nodes.collect(helper, spliterator, flattenTree, generator); 662 public abstract <P_IN> Node<E_OUT> opEvaluateParallel(PipelineHelper<E_OUT> helper, argument
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H A D | Nodes.java | 310 * @param helper the pipeline helper describing the pipeline 316 public static <P_IN, P_OUT> Node<P_OUT> collect(PipelineHelper<P_OUT> helper, argument 320 long size = helper.exactOutputSizeIfKnown(spliterator); 325 new SizedCollectorTask.OfRef<>(spliterator, helper, array).invoke(); 328 Node<P_OUT> node = new CollectorTask.OfRef<>(helper, generator, spliterator).invoke(); 349 * @param helper the pipeline helper describing the pipeline 354 public static <P_IN> Node.OfInt collectInt(PipelineHelper<Integer> helper, argument 357 long size = helper 392 collectLong(PipelineHelper<Long> helper, Spliterator<P_IN> spliterator, boolean flattenTree) argument 430 collectDouble(PipelineHelper<Double> helper, Spliterator<P_IN> spliterator, boolean flattenTree) argument 1827 protected final PipelineHelper<P_OUT> helper; field in class:Nodes.SizedCollectorTask 1834 SizedCollectorTask(Spliterator<P_IN> spliterator, PipelineHelper<P_OUT> helper, int arrayLength) argument 1901 OfRef(Spliterator<P_IN> spliterator, PipelineHelper<P_OUT> helper, P_OUT[] array) argument 1933 OfInt(Spliterator<P_IN> spliterator, PipelineHelper<Integer> helper, int[] array) argument 1965 OfLong(Spliterator<P_IN> spliterator, PipelineHelper<Long> helper, long[] array) argument 1997 OfDouble(Spliterator<P_IN> spliterator, PipelineHelper<Double> helper, double[] array) argument 2152 protected final PipelineHelper<P_OUT> helper; field in class:Nodes.CollectorTask 2156 CollectorTask(PipelineHelper<P_OUT> helper, Spliterator<P_IN> spliterator, LongFunction<T_BUILDER> builderFactory, BinaryOperator<T_NODE> concFactory) argument 2196 OfRef(PipelineHelper<P_OUT> helper, IntFunction<P_OUT[]> generator, Spliterator<P_IN> spliterator) argument 2206 OfInt(PipelineHelper<Integer> helper, Spliterator<P_IN> spliterator) argument 2214 OfLong(PipelineHelper<Long> helper, Spliterator<P_IN> spliterator) argument 2222 OfDouble(PipelineHelper<Double> helper, Spliterator<P_IN> spliterator) argument [all...] |
/libcore/ojluni/src/test/java/util/stream/bootlib/java/util/stream/ |
H A D | StatefulTestOp.java | 45 public <P_IN> Spliterator<T> opEvaluateParallelLazy(PipelineHelper<T> helper, 47 return op.opEvaluateParallelLazy(helper, spliterator); 51 public <P_IN> Node<T> opEvaluateParallel(PipelineHelper<T> helper, 54 return op.opEvaluateParallel(helper, spliterator, generator); 65 public <P_IN> Spliterator<Integer> opEvaluateParallelLazy(PipelineHelper<Integer> helper, 67 return op.opEvaluateParallelLazy(helper, spliterator); 71 public <P_IN> Node<Integer> opEvaluateParallel(PipelineHelper<Integer> helper, 74 return (Node<Integer>) op.opEvaluateParallel(helper, spliterator, generator); 85 public <P_IN> Spliterator<Long> opEvaluateParallelLazy(PipelineHelper<Long> helper, 87 return op.opEvaluateParallelLazy(helper, spliterato 130 opEvaluateParallelLazy(PipelineHelper<E> helper, Spliterator<P_IN> spliterator) argument 135 opEvaluateParallel(PipelineHelper<E> helper, Spliterator<P_IN> spliterator, IntFunction<E[]> generator) argument [all...] |
H A D | CollectorOps.java | 30 /** Test helper class for java.util.stream test framework */ 69 public <P_IN> Node<E_IN> opEvaluateParallel(PipelineHelper<E_IN> helper, argument 72 return helper.evaluate(spliterator, false, generator); 86 public <P_IN> Node<T> opEvaluateParallel(PipelineHelper<T> helper, argument 89 int flags = helper.getStreamAndOpFlags(); 92 return super.opEvaluateParallel(helper, spliterator, generator);
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/libcore/ojluni/src/test/java/util/stream/testlib/org/openjdk/testlib/java/util/stream/ |
H A D | CollectorOps.java | 31 /** Test helper class for java.util.stream test framework */ 70 public <P_IN> Node<E_IN> opEvaluateParallel(PipelineHelper<E_IN> helper, argument 73 return helper.evaluate(spliterator, false, generator); 87 public <P_IN> Node<T> opEvaluateParallel(PipelineHelper<T> helper, argument 90 int flags = helper.getStreamAndOpFlags(); 93 return super.opEvaluateParallel(helper, spliterator, generator);
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H A D | StatefulTestOp.java | 46 public <P_IN> Spliterator<T> opEvaluateParallelLazy(PipelineHelper<T> helper, 48 return op.opEvaluateParallelLazy(helper, spliterator); 52 public <P_IN> Node<T> opEvaluateParallel(PipelineHelper<T> helper, 55 return op.opEvaluateParallel(helper, spliterator, generator); 66 public <P_IN> Spliterator<Integer> opEvaluateParallelLazy(PipelineHelper<Integer> helper, 68 return op.opEvaluateParallelLazy(helper, spliterator); 72 public <P_IN> Node<Integer> opEvaluateParallel(PipelineHelper<Integer> helper, 75 return (Node<Integer>) op.opEvaluateParallel(helper, spliterator, generator); 86 <P_IN> Spliterator<Long> opEvaluateParallelLazy(PipelineHelper<Long> helper, 88 return op.opEvaluateParallelLazy(helper, spliterato 131 opEvaluateParallelLazy(PipelineHelper<E> helper, Spliterator<P_IN> spliterator) argument 136 opEvaluateParallel(PipelineHelper<E> helper, Spliterator<P_IN> spliterator, IntFunction<E[]> generator) argument [all...] |