/**
   * Tests whether a query gives the same results when run both with and without a given optimizer
   *
   * @param queryStr Query
   * @param ds Dataset
   * @param opt Optimizer
   * @param expected Expected number of results
   */
  public static void test(String queryStr, Dataset ds, Symbol opt, int expected) {
    Query q = QueryFactory.create(queryStr);

    if (!q.isSelectType()) Assert.fail("Only SELECT queries are testable with this method");

    Op op = Algebra.compile(q);
    // Track current state
    boolean isEnabled = ARQ.isTrue(opt);
    boolean isDisabled = ARQ.isFalse(opt);

    try {
      // Run first without optimization
      ARQ.set(opt, false);
      ResultSetRewindable rs;
      try (QueryExecution qe = QueryExecutionFactory.create(q, ds)) {
        rs = ResultSetFactory.makeRewindable(qe.execSelect());
        if (expected != rs.size()) {
          System.err.println("Non-optimized results not as expected");
          TextOutput output = new TextOutput((SerializationContext) null);
          output.format(System.out, rs);
          rs.reset();
        }
        Assert.assertEquals(expected, rs.size());
      }

      // Run with optimization
      ARQ.set(opt, true);
      ResultSetRewindable rsOpt;
      try (QueryExecution qeOpt = QueryExecutionFactory.create(q, ds)) {
        rsOpt = ResultSetFactory.makeRewindable(qeOpt.execSelect());
        if (expected != rsOpt.size()) {
          System.err.println("Optimized results not as expected");
          TextOutput output = new TextOutput((SerializationContext) null);
          output.format(System.out, rsOpt);
          rsOpt.reset();
        }
        Assert.assertEquals(expected, rsOpt.size());
      }
      Assert.assertTrue(ResultSetCompare.isomorphic(rs, rsOpt));
    } finally {
      // Restore previous state
      if (isEnabled) {
        ARQ.set(opt, true);
      } else if (isDisabled) {
        ARQ.set(opt, false);
      } else {
        ARQ.unset(opt);
      }
    }
  }
Example #2
0
  /**
   * Perform the {@link QueryExecution} once.
   *
   * @param action
   * @param queryExecution
   * @param query
   * @param queryStringLog Informational string created from the initial query.
   * @return
   */
  protected SPARQLResult executeQuery(
      HttpAction action, QueryExecution queryExecution, Query query, String queryStringLog) {
    setAnyTimeouts(queryExecution, action);

    if (query.isSelectType()) {
      ResultSet rs = queryExecution.execSelect();

      // Force some query execution now.
      // If the timeout-first-row goes off, the output stream has not
      // been started so the HTTP error code is sent.

      rs.hasNext();

      // If we wanted perfect query time cancellation, we could consume
      // the result now to see if the timeout-end-of-query goes off.
      // rs = ResultSetFactory.copyResults(rs) ;

      // action.log.info(format("[%d] exec/select", action.id)) ;
      return new SPARQLResult(rs);
    }

    if (query.isConstructType()) {
      Dataset dataset = queryExecution.execConstructDataset();
      // action.log.info(format("[%d] exec/construct", action.id));
      return new SPARQLResult(dataset);
    }

    if (query.isDescribeType()) {
      Model model = queryExecution.execDescribe();
      // action.log.info(format("[%d] exec/describe", action.id)) ;
      return new SPARQLResult(model);
    }

    if (query.isAskType()) {
      boolean b = queryExecution.execAsk();
      // action.log.info(format("[%d] exec/ask", action.id)) ;
      return new SPARQLResult(b);
    }

    ServletOps.errorBadRequest("Unknown query type - " + queryStringLog);
    return null;
  }