@Override public void initialize() { for (MapFn fn : fns) { fn.initialize(); } }
@Override public void initialize() { firstMapFn.initialize(); secondMapFn.initialize(); }
@Override public void initialize() { keys.initialize(); values.initialize(); }
@Override public void initialize() { keys.initialize(); values.initialize(); }
@Override public void initialize() { keys.initialize(); values.initialize(); }
@Override public void initialize() { keyMapFn.initialize(); valueMapFn.initialize(); }
@Override public void initialize() { for (MapFn fn : fns) { fn.initialize(); } this.written = new int[fns.size()]; this.values = new Writable[fns.size()]; }
@Override public void initialize(Configuration conf) { this.inputFn.initialize(); this.outputFn.initialize(); for (PType subType : subTypes) { subType.initialize(conf); } this.initialized = true; }
@Override public void initialize() { this.schema = new Schema.Parser().parse(jsonSchema); for (MapFn fn : fns) { fn.initialize(); } }
@Override public void initialize() { keyMapFn.initialize(); valueMapFn.initialize(); pairSchemaJson = org.apache.avro.mapred.Pair.getPairSchema( new Schema.Parser().parse(firstJson), new Schema.Parser().parse(secondJson)).toString(); }
@Override public void initialize() { keyMapFn.initialize(); valueMapFn.initialize(); Schema.Parser parser = new Schema.Parser(); keyValueSchemaJson = AvroKeyValue.getSchema(parser.parse(keySchemaJson), parser.parse(valueSchemaJson)).toString(); }
@Override public void initialize() { for (MapFn fn : fns) { fn.initialize(); } // The rest of the methods allocate new // objects each time. However this one // uses Tuple.tuplify which does a copy this.values = new Object[fns.size()]; tupleFactory.initialize(); }
@Override public void initialize() { keyMapFn.initialize(); valueMapFn.initialize(); pairSchemaJson = org.apache.avro.mapred.Pair.getPairSchema( new Schema.Parser().parse(firstJson), Avros.allowNulls(new Schema.Parser().parse(secondJson))).toString(); }
@Override public void initialize() { for (MapFn fn : fns) { fn.initialize(); } tupleFactory.initialize(); }
@Override public void initialize() { for (MapFn fn : fns) { fn.initialize(); } // The rest of the methods allocate new // objects each time. However this one // uses Tuple.tuplify which does a copy this.values = new Object[fns.size()]; tupleFactory.initialize(); }
@Override public void initialize(Configuration conf) { derivedToAvroFn.setConfiguration(conf); derivedToAvroFn.initialize(); avroToDerivedFn.setConfiguration(conf); avroToDerivedFn.initialize(); avroBaseType.initialize(conf); }
@Override public void initialize(Configuration conf) { baseInputMapFn.setConfiguration(conf); baseInputMapFn.initialize(); baseOutputMapFn.setConfiguration(conf); baseOutputMapFn.initialize(); deepCopier.initialize(conf); for (PType ptype : subTypes) { ptype.initialize(conf); } initialized = true; }
@Override public void initialize() { this.schema = new Schema.Parser().parse(jsonSchema); for (MapFn fn : fns) { fn.initialize(); } if (getConfiguration() != null) { mode = AvroMode.REFLECT.withFactoryFromConfiguration(getConfiguration()); } else { mode = AvroMode.REFLECT; } }
@Override public void initialize() { this.schema = new Schema.Parser().parse(jsonSchema); for (MapFn fn : fns) { fn.initialize(); } if (getConfiguration() != null) { mode = AvroMode.REFLECT.withFactoryFromConfiguration(getConfiguration()); } else { mode = AvroMode.REFLECT; } }
@Override public void initialize() { super.initialize(); for (PType pt : ptypes) { pt.initialize(getConfiguration()); } }