下面列出了怎么用java.util.stream.DoubleStreamTestScenario的API类实例代码及写法,或者点击链接到github查看源代码。
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.PAR_STREAM_TO_ARRAY_CLEAR_SIZED).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.PAR_STREAM_TO_ARRAY_CLEAR_SIZED).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.PAR_STREAM_TO_ARRAY_CLEAR_SIZED).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.PAR_STREAM_TO_ARRAY_CLEAR_SIZED).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.CLEAR_SIZED_SCENARIOS).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.PAR_STREAM_TO_ARRAY_CLEAR_SIZED).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.PAR_STREAM_TO_ARRAY_CLEAR_SIZED).
resultAsserter(ra).
exercise();
}
@Test(dataProvider = "DoubleStream.limit")
public void testDoubleSubsizedWithRange(String description, UnaryOperator<DoubleStream> fs) {
// Range is [0, 2^53), splits are SUBSIZED
// Such a size will induce out of memory errors for incorrect
// slice implementations
withData(doubles()).
stream(s -> fs.apply(s)).
without(DoubleStreamTestScenario.PAR_STREAM_TO_ARRAY_CLEAR_SIZED).
exercise();
}
@Test(dataProvider = "doubles")
public void testDoubles(TestData.OfDouble data, ResultAsserter<Iterable<Double>> ra) {
withData(data).
stream(s -> s).
without(DoubleStreamTestScenario.PAR_STREAM_TO_ARRAY_CLEAR_SIZED).
resultAsserter(ra).
exercise();
}