@Test public final void testComparatorsFromJoinQual() { Schema outerSchema = new Schema(); outerSchema.addColumn("employee.id1", CatalogUtil.newSimpleDataType(Type.INT4)); outerSchema.addColumn("employee.id2", CatalogUtil.newSimpleDataType(Type.INT4)); Schema innerSchema = new Schema(); innerSchema.addColumn("people.fid1", CatalogUtil.newSimpleDataType(Type.INT4)); innerSchema.addColumn("people.fid2", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f1 = new FieldEval("employee.id1", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f2 = new FieldEval("people.fid1", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f3 = new FieldEval("employee.id2", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f4 = new FieldEval("people.fid2", CatalogUtil.newSimpleDataType(Type.INT4)); EvalNode joinQual = new BinaryEval(EvalType.EQUAL, f1, f2); TupleComparator[] comparators = PlannerUtil.getComparatorsFromJoinQual(joinQual, outerSchema, innerSchema); Tuple t1 = new VTuple(2); t1.put(0, DatumFactory.createInt4(1)); t1.put(1, DatumFactory.createInt4(2)); Tuple t2 = new VTuple(2); t2.put(0, DatumFactory.createInt4(2)); t2.put(1, DatumFactory.createInt4(3)); TupleComparator outerComparator = comparators[0]; assertTrue(outerComparator.compare(t1, t2) < 0); assertTrue(outerComparator.compare(t2, t1) > 0); TupleComparator innerComparator = comparators[1]; assertTrue(innerComparator.compare(t1, t2) < 0); assertTrue(innerComparator.compare(t2, t1) > 0); // tests for composited join key EvalNode joinQual2 = new BinaryEval(EvalType.EQUAL, f3, f4); EvalNode compositedJoinQual = new BinaryEval(EvalType.AND, joinQual, joinQual2); comparators = PlannerUtil.getComparatorsFromJoinQual(compositedJoinQual, outerSchema, innerSchema); outerComparator = comparators[0]; assertTrue(outerComparator.compare(t1, t2) < 0); assertTrue(outerComparator.compare(t2, t1) > 0); innerComparator = comparators[1]; assertTrue(innerComparator.compare(t1, t2) < 0); assertTrue(innerComparator.compare(t2, t1) > 0); }
@Test public final void testGetJoinKeyPairs() { Schema outerSchema = new Schema(); outerSchema.addColumn("employee.id1", CatalogUtil.newSimpleDataType(Type.INT4)); outerSchema.addColumn("employee.id2", CatalogUtil.newSimpleDataType(Type.INT4)); Schema innerSchema = new Schema(); innerSchema.addColumn("people.fid1", CatalogUtil.newSimpleDataType(Type.INT4)); innerSchema.addColumn("people.fid2", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f1 = new FieldEval("employee.id1", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f2 = new FieldEval("people.fid1", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f3 = new FieldEval("employee.id2", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f4 = new FieldEval("people.fid2", CatalogUtil.newSimpleDataType(Type.INT4)); EvalNode joinQual = new BinaryEval(EvalType.EQUAL, f1, f2); // the case where part is the outer and partsupp is the inner. List<Column[]> pairs = PlannerUtil.getJoinKeyPairs(joinQual, outerSchema, innerSchema); assertEquals(1, pairs.size()); assertEquals("employee.id1", pairs.get(0)[0].getQualifiedName()); assertEquals("people.fid1", pairs.get(0)[1].getQualifiedName()); // after exchange of outer and inner pairs = PlannerUtil.getJoinKeyPairs(joinQual, innerSchema, outerSchema); assertEquals("people.fid1", pairs.get(0)[0].getQualifiedName()); assertEquals("employee.id1", pairs.get(0)[1].getQualifiedName()); // composited join key test EvalNode joinQual2 = new BinaryEval(EvalType.EQUAL, f3, f4); EvalNode compositedJoinQual = new BinaryEval(EvalType.AND, joinQual, joinQual2); pairs = PlannerUtil.getJoinKeyPairs(compositedJoinQual, outerSchema, innerSchema); assertEquals(2, pairs.size()); assertEquals("employee.id1", pairs.get(0)[0].getQualifiedName()); assertEquals("people.fid1", pairs.get(0)[1].getQualifiedName()); assertEquals("employee.id2", pairs.get(1)[0].getQualifiedName()); assertEquals("people.fid2", pairs.get(1)[1].getQualifiedName()); // after exchange of outer and inner pairs = PlannerUtil.getJoinKeyPairs(compositedJoinQual, innerSchema, outerSchema); assertEquals(2, pairs.size()); assertEquals("people.fid1", pairs.get(0)[0].getQualifiedName()); assertEquals("employee.id1", pairs.get(0)[1].getQualifiedName()); assertEquals("people.fid2", pairs.get(1)[0].getQualifiedName()); assertEquals("employee.id2", pairs.get(1)[1].getQualifiedName()); }
@Test public final void testGetSortKeysFromJoinQual() { Schema outerSchema = new Schema(); outerSchema.addColumn("employee.id1", CatalogUtil.newSimpleDataType(Type.INT4)); outerSchema.addColumn("employee.id2", CatalogUtil.newSimpleDataType(Type.INT4)); Schema innerSchema = new Schema(); innerSchema.addColumn("people.fid1", CatalogUtil.newSimpleDataType(Type.INT4)); innerSchema.addColumn("people.fid2", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f1 = new FieldEval("employee.id1", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f2 = new FieldEval("people.fid1", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f3 = new FieldEval("employee.id2", CatalogUtil.newSimpleDataType(Type.INT4)); FieldEval f4 = new FieldEval("people.fid2", CatalogUtil.newSimpleDataType(Type.INT4)); EvalNode joinQual = new BinaryEval(EvalType.EQUAL, f1, f2); SortSpec[][] sortSpecs = PlannerUtil.getSortKeysFromJoinQual(joinQual, outerSchema, innerSchema); assertEquals(2, sortSpecs.length); assertEquals(1, sortSpecs[0].length); assertEquals(1, sortSpecs[1].length); assertEquals(outerSchema.getColumn("id1"), sortSpecs[0][0].getSortKey()); assertEquals(innerSchema.getColumn("fid1"), sortSpecs[1][0].getSortKey()); // tests for composited join key EvalNode joinQual2 = new BinaryEval(EvalType.EQUAL, f3, f4); EvalNode compositedJoinQual = new BinaryEval(EvalType.AND, joinQual, joinQual2); sortSpecs = PlannerUtil.getSortKeysFromJoinQual(compositedJoinQual, outerSchema, innerSchema); assertEquals(2, sortSpecs.length); assertEquals(2, sortSpecs[0].length); assertEquals(2, sortSpecs[1].length); assertEquals(outerSchema.getColumn("id1"), sortSpecs[0][0].getSortKey()); assertEquals(outerSchema.getColumn("id2"), sortSpecs[0][1].getSortKey()); assertEquals(innerSchema.getColumn("fid1"), sortSpecs[1][0].getSortKey()); assertEquals(innerSchema.getColumn("fid2"), sortSpecs[1][1].getSortKey()); }
@BeforeClass public static void setUp() throws Exception { util = new TajoTestingCluster(); util.startCatalogCluster(); catalog = util.getMiniCatalogCluster().getCatalog(); Schema schema = new Schema(); schema.addColumn("name", Type.TEXT); schema.addColumn("empId", CatalogUtil.newSimpleDataType(Type.INT4)); schema.addColumn("deptName", Type.TEXT); Schema schema2 = new Schema(); schema2.addColumn("deptName", Type.TEXT); schema2.addColumn("manager", Type.TEXT); Schema schema3 = new Schema(); schema3.addColumn("deptName", Type.TEXT); schema3.addColumn("score", CatalogUtil.newSimpleDataType(Type.INT4)); TableMeta meta = CatalogUtil.newTableMeta(StoreType.CSV); TableDesc people = new TableDesc("employee", schema, meta, CommonTestingUtil.getTestDir()); catalog.addTable(people); TableDesc student = new TableDesc( "dept", schema2, StoreType.CSV, new Options(), CommonTestingUtil.getTestDir()); catalog.addTable(student); TableDesc score = new TableDesc( "score", schema3, StoreType.CSV, new Options(), CommonTestingUtil.getTestDir()); catalog.addTable(score); FunctionDesc funcDesc = new FunctionDesc( "sumtest", SumInt.class, FunctionType.AGGREGATION, CatalogUtil.newSimpleDataType(Type.INT4), CatalogUtil.newSimpleDataTypeArray(Type.INT4)); catalog.createFunction(funcDesc); analyzer = new SQLAnalyzer(); planner = new LogicalPlanner(catalog); }