@Test public void testReturnDigitsOnly() throws KettleException { RowMeta inputRowMeta = new RowMeta(); ValueMetaString nameMeta = new ValueMetaString("Name"); inputRowMeta.addValueMeta(nameMeta); ValueMetaString valueMeta = new ValueMetaString("Value"); inputRowMeta.addValueMeta(valueMeta); RowSet inputRowSet = smh.getMockInputRowSet(new Object[][] {{"name1", "qwe123asd456zxc"}, {"name2", null}}); inputRowSet.setRowMeta(inputRowMeta); Calculator calculator = new Calculator(smh.stepMeta, smh.stepDataInterface, 0, smh.transMeta, smh.trans); calculator.getInputRowSets().add(inputRowSet); calculator.setInputRowMeta(inputRowMeta); calculator.init(smh.initStepMetaInterface, smh.initStepDataInterface); CalculatorMeta meta = new CalculatorMeta(); meta.setCalculation( new CalculatorMetaFunction[] { new CalculatorMetaFunction( "digits", CalculatorMetaFunction.CALC_GET_ONLY_DIGITS, "Value", null, null, ValueMetaInterface.TYPE_STRING, 0, 0, false, "", "", "", "") }); // Verify output try { calculator.addRowListener( new RowAdapter() { @Override public void rowWrittenEvent(RowMetaInterface rowMeta, Object[] row) throws KettleStepException { assertEquals("123456", row[2]); } }); calculator.processRow(meta, new CalculatorData()); } catch (KettleException ke) { ke.printStackTrace(); fail(); } }
@Test public void calculatorShouldClearDataInstance() throws Exception { RowMeta inputRowMeta = new RowMeta(); ValueMetaInteger valueMeta = new ValueMetaInteger("Value"); inputRowMeta.addValueMeta(valueMeta); RowSet inputRowSet = smh.getMockInputRowSet(new Object[] {-1L}); inputRowSet.setRowMeta(inputRowMeta); Calculator calculator = new Calculator(smh.stepMeta, smh.stepDataInterface, 0, smh.transMeta, smh.trans); calculator.getInputRowSets().add(inputRowSet); calculator.setInputRowMeta(inputRowMeta); calculator.init(smh.initStepMetaInterface, smh.initStepDataInterface); CalculatorMeta meta = new CalculatorMeta(); meta.setCalculation( new CalculatorMetaFunction[] { new CalculatorMetaFunction( "test", CalculatorMetaFunction.CALC_ABS, "Value", null, null, ValueMetaInterface.TYPE_STRING, 0, 0, false, "", "", "", "") }); CalculatorData data = new CalculatorData(); data = spy(data); calculator.processRow(meta, data); verify(data).getValueMetaFor(eq(valueMeta.getType()), anyString()); calculator.processRow(meta, data); verify(data).clearValuesMetaMapping(); }
public void testCalculator1() throws Exception { KettleEnvironment.init(); PluginRegistry registry = PluginRegistry.getInstance(); // // Create a new transformation... // TransMeta transMeta = new TransMeta(); transMeta.setName("calculatortest1"); // // create a row generator step... // String rowGeneratorStepname = "row generator step"; RowGeneratorMeta rm = new RowGeneratorMeta(); // Set the information of the row generator. String rowGeneratorPid = registry.getPluginId(StepPluginType.class, rm); StepMeta rowGeneratorStep = new StepMeta(rowGeneratorPid, rowGeneratorStepname, rm); transMeta.addStep(rowGeneratorStep); // // Generate 1 empty row // String[] strDummies = {}; int[] intDummies = {}; rm.setDefault(); rm.setFieldName(strDummies); rm.setFieldType(strDummies); rm.setValue(strDummies); rm.setFieldLength(intDummies); rm.setFieldPrecision(intDummies); rm.setRowLimit("1"); rm.setFieldFormat(strDummies); rm.setGroup(strDummies); rm.setDecimal(strDummies); // // Add calculator step. // String calculatorStepname1 = "calculator 1"; CalculatorMeta calc1 = new CalculatorMeta(); CalculatorMetaFunction[] calculations = new CalculatorMetaFunction[] { new CalculatorMetaFunction( "timestamp1", // fieldName CalculatorMetaFunction.CALC_CONSTANT, // calctype "1970-01-01 00:00:00.100100", // fieldA "", // String fieldB "", // String fieldC ValueMetaInterface.TYPE_TIMESTAMP, // valueType, 0, // int valueLength, 0, // int valuePrecision, false, // boolean removedFromResult, "", // String conversionMask, "", // String decimalSymbol, "", // String groupingSymbol, "" // String currencySymbol ), new CalculatorMetaFunction( "int1", // fieldName CalculatorMetaFunction.CALC_CONSTANT, // calctype "1", // fieldA "", // String fieldB "", // String fieldC ValueMetaInterface.TYPE_INTEGER, // valueType, 0, // int valueLength, 0, // int valuePrecision, false, // boolean removedFromResult, "", // String conversionMask, "", // String decimalSymbol, "", // String groupingSymbol, "" // String currencySymbol ), new CalculatorMetaFunction( "timestamp plus 1 day", // fieldName CalculatorMetaFunction.CALC_ADD_DAYS, // calctype "timestamp1", // fieldA "int1", // String fieldB "", // String fieldC ValueMetaInterface.TYPE_DATE, // valueType, 0, // int valueLength, 0, // int valuePrecision, false, // boolean removedFromResult, "", // String conversionMask, "", // String decimalSymbol, "", // String groupingSymbol, "" // String currencySymbol ) }; calc1.setCalculation(calculations); // String calculatorPid1 = registry.getPluginId(StepPluginType.class, calc1); StepMeta calcualtorStep1 = new StepMeta(calculatorPid1, calculatorStepname1, calc1); transMeta.addStep(calcualtorStep1); // TransHopMeta hi1 = new TransHopMeta(rowGeneratorStep, calcualtorStep1); transMeta.addTransHop(hi1); // Now execute the transformation... Trans trans = new Trans(transMeta); trans.prepareExecution(null); StepInterface si = trans.getStepInterface(calculatorStepname1, 0); RowStepCollector endRc = new RowStepCollector(); si.addRowListener(endRc); trans.startThreads(); trans.waitUntilFinished(); // Now check whether the output is still as we expect. List<RowMetaAndData> goldenImageRows = createResultData1(); List<RowMetaAndData> resultRows1 = endRc.getRowsWritten(); checkRows(resultRows1, goldenImageRows); }
public void assertRoundGeneral( final Object expectedResult, final int calcFunction, final Number value, final Long precision, final Long roundingMode, final int valueDataType, final int functionDataType) throws KettleException { final String msg = getKettleTypeName(valueDataType) + "->" + getKettleTypeName(functionDataType) + " "; final RowMeta inputRowMeta = new RowMeta(); final List<Object> inputValues = new ArrayList<Object>(3); final String fieldValue = "Value"; final ValueMetaInterface valueMeta; switch (valueDataType) { case ValueMetaInterface.TYPE_BIGNUMBER: valueMeta = new ValueMetaBigNumber(fieldValue); break; case ValueMetaInterface.TYPE_NUMBER: valueMeta = new ValueMetaNumber(fieldValue); break; case ValueMetaInterface.TYPE_INTEGER: valueMeta = new ValueMetaInteger(fieldValue); break; default: throw new IllegalArgumentException( msg + "Unexpected value dataType: " + value.getClass().getName() + ". Long, Double or BigDecimal expected."); } inputRowMeta.addValueMeta(valueMeta); inputValues.add(value); final String fieldPrecision; final ValueMetaInteger precisionMeta; if (precision == null) { fieldPrecision = null; precisionMeta = null; } else { fieldPrecision = "Precision"; precisionMeta = new ValueMetaInteger(fieldPrecision); inputRowMeta.addValueMeta(precisionMeta); inputValues.add(precision); } final String fieldRoundingMode; final ValueMetaInteger roundingModeMeta; if (roundingMode == null) { fieldRoundingMode = null; roundingModeMeta = null; } else { fieldRoundingMode = "RoundingMode"; roundingModeMeta = new ValueMetaInteger(fieldRoundingMode); inputRowMeta.addValueMeta(roundingModeMeta); inputValues.add(roundingMode); } RowSet inputRowSet = smh.getMockInputRowSet(inputValues.toArray()); inputRowSet.setRowMeta(inputRowMeta); final String fieldA = inputRowMeta.size() > 0 ? inputRowMeta.getValueMetaList().get(0).getName() : null; final String fieldB = inputRowMeta.size() > 1 ? inputRowMeta.getValueMetaList().get(1).getName() : null; final String fieldC = inputRowMeta.size() > 2 ? inputRowMeta.getValueMetaList().get(2).getName() : null; final int resultDataType = functionDataType; final String fieldResult = "test"; final int expectedResultRowSize = inputRowMeta.size() + 1; Calculator calculator = new Calculator(smh.stepMeta, smh.stepDataInterface, 0, smh.transMeta, smh.trans); calculator.getInputRowSets().add(inputRowSet); calculator.setInputRowMeta(inputRowMeta); calculator.init(smh.initStepMetaInterface, smh.initStepDataInterface); CalculatorMeta meta = new CalculatorMeta(); meta.setCalculation( new CalculatorMetaFunction[] { new CalculatorMetaFunction( fieldResult, calcFunction, fieldA, fieldB, fieldC, resultDataType, 2, 0, false, "", "", "", "") }); // Verify output try { calculator.addRowListener( new RowAdapter() { @Override public void rowWrittenEvent(RowMetaInterface rowMeta, Object[] row) throws KettleStepException { assertEquals(msg + " resultRowSize", expectedResultRowSize, rowMeta.size()); final int fieldResultIndex = rowMeta.size() - 1; assertEquals( msg + " fieldResult", fieldResult, rowMeta.getValueMeta(fieldResultIndex).getName()); assertEquals(msg, expectedResult, row[fieldResultIndex]); } }); calculator.processRow(meta, new CalculatorData()); } catch (KettleException ke) { ke.printStackTrace(); fail(msg + ke.getMessage()); } }