public void testNamePollTally() throws Exception { V1NamePoll np; // test a name poll we won np = makeCompletedNamePoll(4, 1, 0); assertEquals(5, np.m_tally.numAgree); assertEquals(1, np.m_tally.numDisagree); assertEquals(Tallier.RESULT_WON, np.m_tally.getTallyResult()); // test a name poll we lost with a dissenting vote np = makeCompletedNamePoll(1, 8, 1); assertEquals(2, np.m_tally.numAgree); assertEquals(9, np.m_tally.numDisagree); // build a master list np.buildPollLists(np.m_tally.pollVotes.iterator()); // these should be different since we lost the poll assertFalse(CollectionUtil.isIsomorphic(np.m_tally.localEntries, np.m_tally.votedEntries)); // the expected "correct" set is in our disagree msg assertTrue(CollectionUtil.isIsomorphic(disagree_entries, np.m_tally.votedEntries)); }
/** * @param args * @throws Exception */ @SuppressWarnings("unchecked") public void process(String[] args, String... required) throws Exception { final boolean debug = LOG.isDebugEnabled(); if (debug) LOG.debug("Processing " + args.length + " parameters..."); final Pattern p = Pattern.compile("="); for (int i = 0, cnt = args.length; i < cnt; i++) { final String arg = args[i]; final String[] parts = p.split(arg, 2); if (parts[0].startsWith("-")) parts[0] = parts[0].substring(1); if (parts.length == 1) { if (parts[0].startsWith("${") == false) this.opt_params.add(parts[0]); continue; } else if (parts[0].equalsIgnoreCase("tag")) { continue; } else if (parts[1].startsWith("${") || parts[0].startsWith("#")) { continue; } if (debug) LOG.debug(String.format("%-35s = %s", parts[0], parts[1])); // DesignerHints Override if (parts[0].startsWith(PARAM_DESIGNER_HINTS_PREFIX)) { String param = parts[0].replace(PARAM_DESIGNER_HINTS_PREFIX, "").toLowerCase(); try { Field f = DesignerHints.class.getField(param); this.hints_params.put(f.getName(), parts[1]); if (debug) LOG.debug(String.format("DesignerHints.%s = %s", param, parts[1])); } catch (NoSuchFieldException ex) { throw new Exception("Unknown DesignerHints parameter: " + param, ex); } } // HStoreConf Parameter else if (HStoreConf.isConfParameter(parts[0])) { this.conf_params.put(parts[0].toLowerCase(), parts[1]); } // ArgumentsParser Parameter else if (PARAMS.contains(parts[0].toLowerCase())) { this.params.put(parts[0].toLowerCase(), parts[1]); } // Invalid! else { String suggestions = ""; i = 0; String end = CollectionUtil.last(parts[0].split("\\.")); for (String param : PARAMS) { String param_end = CollectionUtil.last(param.split("\\.")); if (param.startsWith(parts[0]) || (end != null && param.endsWith(end)) || (end != null && param_end != null && param_end.startsWith(end))) { if (suggestions.isEmpty()) suggestions = ". Possible Matches:"; suggestions += String.format("\n [%02d] %s", ++i, param); } } // FOR throw new Exception("Unknown parameter '" + parts[0] + "'" + suggestions); } } // FOR // ------------------------------------------------------- // CATALOGS // ------------------------------------------------------- // Text File if (this.params.containsKey(PARAM_CATALOG)) { String path = this.params.get(PARAM_CATALOG); if (debug) LOG.debug("Loading catalog from file '" + path + "'"); Catalog catalog = CatalogUtil.loadCatalog(path); if (catalog == null) throw new Exception("Failed to load catalog object from file '" + path + "'"); this.updateCatalog(catalog, new File(path)); } // Jar File else if (this.params.containsKey(PARAM_CATALOG_JAR)) { String path = this.params.get(PARAM_CATALOG_JAR); this.params.put(PARAM_CATALOG, path); File jar_file = new File(path); Catalog catalog = CatalogUtil.loadCatalogFromJar(path); if (catalog == null) throw new Exception("Failed to load catalog object from jar file '" + path + "'"); if (debug) LOG.debug("Loaded catalog from jar file '" + path + "'"); this.updateCatalog(catalog, jar_file); if (!this.params.containsKey(PARAM_CATALOG_TYPE)) { String jar_name = jar_file.getName(); int jar_idx = jar_name.lastIndexOf(".jar"); if (jar_idx != -1) { ProjectType type = ProjectType.get(jar_name.substring(0, jar_idx)); if (type != null) { if (debug) LOG.debug("Set catalog type '" + type + "' from catalog jar file name"); this.catalog_type = type; this.params.put(PARAM_CATALOG_TYPE, this.catalog_type.toString()); } } } } // Schema File else if (this.params.containsKey(PARAM_CATALOG_SCHEMA)) { String path = this.params.get(PARAM_CATALOG_SCHEMA); Catalog catalog = CompilerUtil.compileCatalog(path); if (catalog == null) throw new Exception("Failed to load schema from '" + path + "'"); if (debug) LOG.debug("Loaded catalog from schema file '" + path + "'"); this.updateCatalog(catalog, new File(path)); } // Catalog Type if (this.params.containsKey(PARAM_CATALOG_TYPE)) { String catalog_type = this.params.get(PARAM_CATALOG_TYPE); ProjectType type = ProjectType.get(catalog_type); if (type == null) { throw new Exception("Unknown catalog type '" + catalog_type + "'"); } this.catalog_type = type; } // Update Cluster Configuration if (this.params.containsKey(ArgumentsParser.PARAM_CATALOG_HOSTS)) { ClusterConfiguration cc = new ClusterConfiguration(this.getParam(ArgumentsParser.PARAM_CATALOG_HOSTS)); this.updateCatalog(FixCatalog.addHostInfo(this.catalog, cc), null); } // Check the requirements after loading the catalog, because some of the // above parameters will set the catalog one if (required != null && required.length > 0) this.require(required); // ------------------------------------------------------- // PHYSICAL DESIGN COMPONENTS // ------------------------------------------------------- if (this.params.containsKey(PARAM_PARTITION_PLAN)) { assert (this.catalog_db != null); File path = new File(this.params.get(PARAM_PARTITION_PLAN)); boolean ignoreMissing = this.getBooleanParam(ArgumentsParser.PARAM_PARTITION_PLAN_IGNORE_MISSING, false); if (path.exists() || (path.exists() == false && ignoreMissing == false)) { if (debug) LOG.debug("Loading in partition plan from '" + path + "'"); this.pplan = new PartitionPlan(); this.pplan.load(path.getAbsolutePath(), this.catalog_db); // Apply! if (this.params.containsKey(PARAM_PARTITION_PLAN_APPLY) && this.getBooleanParam(PARAM_PARTITION_PLAN_APPLY)) { boolean secondaryIndexes = this.getBooleanParam(PARAM_PARTITION_PLAN_NO_SECONDARY, false) == false; LOG.info( String.format( "Applying PartitionPlan '%s' to catalog [enableSecondary=%s]", path.getName(), secondaryIndexes)); this.pplan.apply(this.catalog_db, secondaryIndexes); } } } // ------------------------------------------------------- // DESIGNER COMPONENTS // ------------------------------------------------------- if (this.params.containsKey(PARAM_DESIGNER_THREADS)) { this.max_concurrent = Integer.valueOf(this.params.get(PARAM_DESIGNER_THREADS)); } if (this.params.containsKey(PARAM_DESIGNER_INTERVALS)) { this.num_intervals = Integer.valueOf(this.params.get(PARAM_DESIGNER_INTERVALS)); } if (this.params.containsKey(PARAM_DESIGNER_HINTS)) { String path = this.params.get(PARAM_DESIGNER_HINTS); if (debug) LOG.debug( "Loading in designer hints from '" + path + "'.\nForced Values:\n" + StringUtil.formatMaps(this.hints_params)); this.designer_hints.load(path, catalog_db, this.hints_params); } if (this.params.containsKey(PARAM_DESIGNER_CHECKPOINT)) { this.designer_checkpoint = new File(this.params.get(PARAM_DESIGNER_CHECKPOINT)); } String designer_attributes[] = { PARAM_DESIGNER_PARTITIONER, PARAM_DESIGNER_MAPPER, PARAM_DESIGNER_INDEXER, PARAM_DESIGNER_COSTMODEL }; ClassLoader loader = ClassLoader.getSystemClassLoader(); for (String key : designer_attributes) { if (this.params.containsKey(key)) { String target_name = this.params.get(key); Class<?> target_class = loader.loadClass(target_name); assert (target_class != null); if (debug) LOG.debug("Set " + key + " class to " + target_class.getName()); if (key.equals(PARAM_DESIGNER_PARTITIONER)) { this.partitioner_class = (Class<? extends AbstractPartitioner>) target_class; } else if (key.equals(PARAM_DESIGNER_MAPPER)) { this.mapper_class = (Class<? extends AbstractMapper>) target_class; } else if (key.equals(PARAM_DESIGNER_INDEXER)) { this.indexer_class = (Class<? extends AbstractIndexSelector>) target_class; } else if (key.equals(PARAM_DESIGNER_COSTMODEL)) { this.costmodel_class = (Class<? extends AbstractCostModel>) target_class; // Special Case: TimeIntervalCostModel if (target_name.endsWith(TimeIntervalCostModel.class.getSimpleName())) { this.costmodel = new TimeIntervalCostModel<SingleSitedCostModel>( this.catalog_db, SingleSitedCostModel.class, this.num_intervals); } else { this.costmodel = ClassUtil.newInstance( this.costmodel_class, new Object[] {this.catalog_db}, new Class[] {Database.class}); } } else { assert (false) : "Invalid key '" + key + "'"; } } } // FOR // ------------------------------------------------------- // TRANSACTION ESTIMATION COMPONENTS // ------------------------------------------------------- if (this.params.containsKey(PARAM_MAPPINGS)) { assert (this.catalog_db != null); File path = new File(this.params.get(PARAM_MAPPINGS)); if (path.exists()) { this.param_mappings.load(path.getAbsolutePath(), this.catalog_db); } else { LOG.warn("The ParameterMappings file '" + path + "' does not exist"); } } if (this.params.containsKey(PARAM_MARKOV_THRESHOLDS_VALUE)) { assert (this.catalog_db != null); float defaultValue = this.getDoubleParam(PARAM_MARKOV_THRESHOLDS_VALUE).floatValue(); this.thresholds = new EstimationThresholds(defaultValue); this.params.put(PARAM_MARKOV_THRESHOLDS, this.thresholds.toString()); LOG.debug("CREATED THRESHOLDS: " + this.thresholds); } else if (this.params.containsKey(PARAM_MARKOV_THRESHOLDS)) { assert (this.catalog_db != null); this.thresholds = new EstimationThresholds(); File path = new File(this.params.get(PARAM_MARKOV_THRESHOLDS)); if (path.exists()) { this.thresholds.load(path.getAbsolutePath(), this.catalog_db); } else { LOG.warn("The estimation thresholds file '" + path + "' does not exist"); } LOG.debug("LOADED THRESHOLDS: " + this.thresholds); } // ------------------------------------------------------- // HASHER // ------------------------------------------------------- if (this.catalog != null) { if (this.params.containsKey(PARAM_HASHER_CLASS)) { String hasherClassName = this.params.get(PARAM_HASHER_CLASS); this.hasher_class = (Class<? extends AbstractHasher>) loader.loadClass(hasherClassName); } Constructor<? extends AbstractHasher> constructor = this.hasher_class.getConstructor(new Class[] {Database.class, Integer.class}); int num_partitions = CatalogUtil.getNumberOfPartitions(this.catalog_db); this.hasher = constructor.newInstance(new Object[] {this.catalog_db, num_partitions}); if (!(this.hasher instanceof DefaultHasher)) LOG.debug("Loaded hasher " + this.hasher.getClass()); if (this.params.containsKey(PARAM_HASHER_PROFILE)) { this.hasher.load(this.params.get(PARAM_HASHER_PROFILE), null); } } // ------------------------------------------------------- // SAMPLE WORKLOAD TRACE // ------------------------------------------------------- this.loadWorkload(); }