public void testQueryWithIndex() { final Connection conn = getConnection(); // Query using name final String queryStr1 = "SELECT {[Measures].[Org Salary], [Measures].[Count]} " + "ON COLUMNS, " + "{[Employees].[Sheri Nowmer]} " + "ON ROWS FROM [HR]"; final Query query1 = conn.parseQuery(queryStr1); final Result result1 = conn.execute(query1); // Query using key final String queryStr2 = "SELECT {[Measures].[Org Salary], [Measures].[Count]} " + "ON COLUMNS, " + "{[Employees].&[1]} " + "ON ROWS FROM [HR]"; final Query query2 = conn.parseQuery(queryStr2); final Result result2 = conn.execute(query2); // Results of two previous queries must be the same assertEquals( result2.getCell(new int[] {0, 0}).getValue(), result1.getCell(new int[] {0, 0}).getValue()); assertEquals( result2.getCell(new int[] {1, 0}).getValue(), result1.getCell(new int[] {1, 0}).getValue()); }
public java.util.List<Key> execute(Connection connection) { return connection.execute(this); }
/** * During MDX query parse and execution, checks that the query results (or does not result) in a * particular SQL statement being generated. * * <p>Parses and executes the MDX query once for each SQL pattern in the current dialect. If there * are multiple patterns, runs the MDX query multiple times, and expects to see each SQL statement * appear. If there are no patterns in this dialect, the test trivially succeeds. * * @param testContext non-default test context if required * @param mdxQuery MDX query * @param patterns Set of patterns * @param negative false to assert if SQL is generated; true to assert if SQL is NOT generated * @param bypassSchemaCache whether to grab a new connection and bypass the schema cache before * parsing the MDX query * @param clearCache whether to clear cache before executing the MDX query */ protected void assertQuerySqlOrNot( TestContext testContext, String mdxQuery, SqlPattern[] patterns, boolean negative, boolean bypassSchemaCache, boolean clearCache) { Connection connection = testContext.getConnection(); mdxQuery = testContext.upgradeQuery(mdxQuery); // Run the test once for each pattern in this dialect. // (We could optimize and run it once, collecting multiple queries, and // comparing all queries at the end.) Dialect dialect = testContext.getDialect(); Dialect.DatabaseProduct d = dialect.getDatabaseProduct(); boolean patternFound = false; for (SqlPattern sqlPattern : patterns) { if (!sqlPattern.hasDatabaseProduct(d)) { // If the dialect is not one in the pattern set, skip the // test. If in the end no pattern is located, print a warning // message if required. continue; } patternFound = true; String sql = sqlPattern.getSql(); String trigger = sqlPattern.getTriggerSql(); sql = dialectize(d, sql); trigger = dialectize(d, trigger); // Create a dummy DataSource which will throw a 'bomb' if it is // asked to execute a particular SQL statement, but will otherwise // behave exactly the same as the current DataSource. RolapUtil.setHook(new TriggerHook(trigger)); Bomb bomb = null; try { if (bypassSchemaCache) { connection = testContext.withSchemaPool(false).getConnection(); } final Query query = connection.parseQuery(mdxQuery); if (clearCache) { clearCache((RolapCube) query.getCube()); } final Result result = connection.execute(query); Util.discard(result); bomb = null; } catch (Bomb e) { bomb = e; } catch (RuntimeException e) { // Walk up the exception tree and see if the root cause // was a SQL bomb. bomb = Util.getMatchingCause(e, Bomb.class); if (bomb == null) { throw e; } } finally { RolapUtil.setHook(null); } if (negative) { if (bomb != null) { fail("forbidden query [" + sql + "] detected"); } } else { if (bomb == null) { fail("expected query [" + sql + "] did not occur"); } assertEquals( replaceQuotes(sql.replaceAll("\r\n", "\n")), replaceQuotes(bomb.sql.replaceAll("\r\n", "\n"))); } } // Print warning message that no pattern was specified for the current // dialect. if (!patternFound) { String warnDialect = MondrianProperties.instance().WarnIfNoPatternForDialect.get(); if (warnDialect.equals(d.toString())) { System.out.println( "[No expected SQL statements found for dialect \"" + dialect.toString() + "\" and test not run]"); } } }
protected Result executeQuery(String mdx, Connection connection) { Query query = connection.parseQuery(mdx); query.setResultStyle(ResultStyle.LIST); return connection.execute(query); }
private void synchronize() { Connection connection = new Connection(this); connection.execute(); }