org.apache.flink.test.util.JavaProgramTestBase Java Examples
The following examples show how to use
org.apache.flink.test.util.JavaProgramTestBase.
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Example #1
| Source File: BroadcastBranchingITCase.java From Flink-CEPplus with Apache License 2.0 | 5 votes |
|
@Override
protected void testProgram() throws Exception {
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(1);
// Sc1 generates M parameters a,b,c for second degree polynomials P(x) = ax^2 + bx + c identified by id
DataSet<Tuple4<String, Integer, Integer, Integer>> sc1 = env
.fromElements(new Tuple4<>("1", 61, 6, 29), new Tuple4<>("2", 7, 13, 10), new Tuple4<>("3", 8, 13, 27));
// Sc2 generates N x values to be evaluated with the polynomial identified by id
DataSet<Tuple2<String, Integer>> sc2 = env
.fromElements(new Tuple2<>("1", 5), new Tuple2<>("2", 3), new Tuple2<>("3", 6));
// Sc3 generates N y values to be evaluated with the polynomial identified by id
DataSet<Tuple2<String, Integer>> sc3 = env
.fromElements(new Tuple2<>("1", 2), new Tuple2<>("2", 3), new Tuple2<>("3", 7));
// Jn1 matches x and y values on id and emits (id, x, y) triples
JoinOperator<Tuple2<String, Integer>, Tuple2<String, Integer>, Tuple3<String, Integer, Integer>> jn1 =
sc2.join(sc3).where(0).equalTo(0).with(new Jn1());
// Jn2 matches polynomial and arguments by id, computes p = min(P(x),P(y)) and emits (id, p) tuples
JoinOperator<Tuple3<String, Integer, Integer>, Tuple4<String, Integer, Integer, Integer>, Tuple2<String, Integer>> jn2 =
jn1.join(sc1).where(0).equalTo(0).with(new Jn2());
// Mp1 selects (id, x, y) triples where x = y and broadcasts z (=x=y) to Mp2
FlatMapOperator<Tuple3<String, Integer, Integer>, Tuple2<String, Integer>> mp1 =
jn1.flatMap(new Mp1());
// Mp2 filters out all p values which can be divided by z
List<Tuple2<String, Integer>> result = jn2.flatMap(new Mp2()).withBroadcastSet(mp1, "z").collect();
JavaProgramTestBase.compareResultAsText(result, RESULT);
}
Example #2
| Source File: BroadcastBranchingITCase.java From flink with Apache License 2.0 | 5 votes |
|
@Override
protected void testProgram() throws Exception {
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(1);
// Sc1 generates M parameters a,b,c for second degree polynomials P(x) = ax^2 + bx + c identified by id
DataSet<Tuple4<String, Integer, Integer, Integer>> sc1 = env
.fromElements(new Tuple4<>("1", 61, 6, 29), new Tuple4<>("2", 7, 13, 10), new Tuple4<>("3", 8, 13, 27));
// Sc2 generates N x values to be evaluated with the polynomial identified by id
DataSet<Tuple2<String, Integer>> sc2 = env
.fromElements(new Tuple2<>("1", 5), new Tuple2<>("2", 3), new Tuple2<>("3", 6));
// Sc3 generates N y values to be evaluated with the polynomial identified by id
DataSet<Tuple2<String, Integer>> sc3 = env
.fromElements(new Tuple2<>("1", 2), new Tuple2<>("2", 3), new Tuple2<>("3", 7));
// Jn1 matches x and y values on id and emits (id, x, y) triples
JoinOperator<Tuple2<String, Integer>, Tuple2<String, Integer>, Tuple3<String, Integer, Integer>> jn1 =
sc2.join(sc3).where(0).equalTo(0).with(new Jn1());
// Jn2 matches polynomial and arguments by id, computes p = min(P(x),P(y)) and emits (id, p) tuples
JoinOperator<Tuple3<String, Integer, Integer>, Tuple4<String, Integer, Integer, Integer>, Tuple2<String, Integer>> jn2 =
jn1.join(sc1).where(0).equalTo(0).with(new Jn2());
// Mp1 selects (id, x, y) triples where x = y and broadcasts z (=x=y) to Mp2
FlatMapOperator<Tuple3<String, Integer, Integer>, Tuple2<String, Integer>> mp1 =
jn1.flatMap(new Mp1());
// Mp2 filters out all p values which can be divided by z
List<Tuple2<String, Integer>> result = jn2.flatMap(new Mp2()).withBroadcastSet(mp1, "z").collect();
JavaProgramTestBase.compareResultAsText(result, RESULT);
}
Example #3
| Source File: BroadcastBranchingITCase.java From flink with Apache License 2.0 | 5 votes |
|
@Override
protected void testProgram() throws Exception {
ExecutionEnvironment env = ExecutionEnvironment.getExecutionEnvironment();
env.setParallelism(1);
// Sc1 generates M parameters a,b,c for second degree polynomials P(x) = ax^2 + bx + c identified by id
DataSet<Tuple4<String, Integer, Integer, Integer>> sc1 = env
.fromElements(new Tuple4<>("1", 61, 6, 29), new Tuple4<>("2", 7, 13, 10), new Tuple4<>("3", 8, 13, 27));
// Sc2 generates N x values to be evaluated with the polynomial identified by id
DataSet<Tuple2<String, Integer>> sc2 = env
.fromElements(new Tuple2<>("1", 5), new Tuple2<>("2", 3), new Tuple2<>("3", 6));
// Sc3 generates N y values to be evaluated with the polynomial identified by id
DataSet<Tuple2<String, Integer>> sc3 = env
.fromElements(new Tuple2<>("1", 2), new Tuple2<>("2", 3), new Tuple2<>("3", 7));
// Jn1 matches x and y values on id and emits (id, x, y) triples
JoinOperator<Tuple2<String, Integer>, Tuple2<String, Integer>, Tuple3<String, Integer, Integer>> jn1 =
sc2.join(sc3).where(0).equalTo(0).with(new Jn1());
// Jn2 matches polynomial and arguments by id, computes p = min(P(x),P(y)) and emits (id, p) tuples
JoinOperator<Tuple3<String, Integer, Integer>, Tuple4<String, Integer, Integer, Integer>, Tuple2<String, Integer>> jn2 =
jn1.join(sc1).where(0).equalTo(0).with(new Jn2());
// Mp1 selects (id, x, y) triples where x = y and broadcasts z (=x=y) to Mp2
FlatMapOperator<Tuple3<String, Integer, Integer>, Tuple2<String, Integer>> mp1 =
jn1.flatMap(new Mp1());
// Mp2 filters out all p values which can be divided by z
List<Tuple2<String, Integer>> result = jn2.flatMap(new Mp2()).withBroadcastSet(mp1, "z").collect();
JavaProgramTestBase.compareResultAsText(result, RESULT);
}
