コード例 #1
0
  public VoltTable[] run(short w_id, byte d_id, byte[] c_last) {
    voltQueueSQL(getCustomersByLastName, w_id, d_id, c_last);
    VoltTable customers = voltExecuteSQL()[0];

    // Get the midpoint customer's id
    final int namecnt = customers.getRowCount();
    final int index = (namecnt - 1) / 2;
    final VoltTableRow customer = customers.fetchRow(index);
    final long c_id = customer.getLong(C_ID_IDX);

    // Build an VoltTable with a single customer row
    final VoltTable customerResultTable = result_template.clone(1024);
    customerResultTable.addRow(
        c_id,
        customer.getStringAsBytes(1),
        customer.getStringAsBytes(2),
        customer.getStringAsBytes(3),
        customer.getDouble(4));

    // Do the rest of the work
    return getOrderStatus(w_id, d_id, c_id, customerResultTable);
  }
コード例 #2
0
ファイル: debugTPCCpayment.java プロジェクト: victori/voltdb
  public VoltTable[] run(long zip) throws VoltAbortException {
    Date timestamp = new Date();

    // create a District, Warehouse, and 4 Customers (multiple, since we
    // want to test for correct behavior of paymentByCustomerName.

    final double initialYTD = 15241.45;
    voltQueueSQL(
        insertDistrict,
        7L,
        3L,
        "A District",
        "Street Addy",
        "meh",
        "westerfield",
        "BA",
        "99999",
        .0825,
        initialYTD,
        21L);
    // check that a district was inserted
    long resultsl = voltExecuteSQL()[0].asScalarLong();
    assert (resultsl == 1);

    voltQueueSQL(
        insertWarehouse,
        3L,
        "EZ Street WHouse",
        "Headquarters",
        "77 Mass. Ave.",
        "Cambridge",
        "AZ",
        "12938",
        .1234,
        initialYTD);
    // check that a warehouse was inserted
    resultsl = voltExecuteSQL()[0].asScalarLong();
    assert (resultsl == 1);

    final double initialBalance = 15.75;
    voltQueueSQL(
        insertCustomer,
        C_ID,
        D_ID,
        W_ID,
        "I",
        "Be",
        "lastname",
        "Place",
        "Place2",
        "BiggerPlace",
        "AL",
        "91083",
        "(193) 099 - 9082",
        new Date(),
        "BC",
        19298943.12,
        .13,
        initialBalance,
        initialYTD,
        0L,
        15L,
        "Some History");
    // check that a customer was inserted
    resultsl = voltExecuteSQL()[0].asScalarLong();
    assert (resultsl == 1);
    voltQueueSQL(
        insertCustomer,
        C_ID + 1,
        D_ID,
        W_ID,
        "We",
        "Represent",
        "Customer",
        "Random Department",
        "Place2",
        "BiggerPlace",
        "AL",
        "13908",
        "(913) 909 - 0928",
        new Date(),
        "GC",
        19298943.12,
        .13,
        initialBalance,
        initialYTD,
        1L,
        15L,
        "Some History");
    // check that a customer was inserted
    resultsl = voltExecuteSQL()[0].asScalarLong();
    assert (resultsl == 1);
    voltQueueSQL(
        insertCustomer,
        C_ID + 2,
        D_ID,
        W_ID,
        "Who",
        "Is",
        "Customer",
        "Receiving",
        "450 Mass F.X.",
        "BiggerPlace",
        "CI",
        "91083",
        "(541) 931 - 0928",
        new Date(),
        "GC",
        19899324.21,
        .13,
        initialBalance,
        initialYTD,
        2L,
        15L,
        "Some History");
    // check that a customer was inserted
    resultsl = voltExecuteSQL()[0].asScalarLong();
    assert (resultsl == 1);
    voltQueueSQL(
        insertCustomer,
        C_ID + 3,
        D_ID,
        W_ID,
        "ICanBe",
        "",
        "Customer",
        "street",
        "place",
        "BiggerPlace",
        "MA",
        "91083",
        "(913) 909 - 0928",
        new Date(),
        "GC",
        19298943.12,
        .13,
        initialBalance,
        initialYTD,
        3L,
        15L,
        "Some History");
    // check that a customer was inserted
    resultsl = voltExecuteSQL()[0].asScalarLong();
    assert (resultsl == 1);

    // long d_id, long w_id, double h_amount, String c_last, long c_w_id,
    // long c_d_id
    final double paymentAmount = 500.25;

    // VoltTable[] results = client.callProcedure("paymentByCustomerName", W_ID,
    //      D_ID, paymentAmount, W_ID, D_ID, "Customer", new Date());
    // assertEquals(3, results.length);

    // being proc
    voltQueueSQL(getCustomersByLastName, "Customer", D_ID, W_ID);
    final VoltTable customers = voltExecuteSQL()[0];
    final int namecnt = customers.getRowCount();
    if (namecnt == 0) {
      throw new VoltAbortException(
          "no customers with last name: "
              + "Customer"
              + " in warehouse: "
              + W_ID
              + " and in district "
              + D_ID);
    }

    try {
      System.out.println("PAYMENT FOUND CUSTOMERS: " + customers.toString());
    } catch (Exception e) {
      e.printStackTrace();
    }

    final int index = (namecnt - 1) / 2;
    final VoltTableRow customer = customers.fetchRow(index);
    final long c_id = customer.getLong(C_ID_IDX);

    voltQueueSQL(getWarehouse, W_ID);
    voltQueueSQL(getDistrict, W_ID, D_ID);
    final VoltTable[] results = voltExecuteSQL();
    final VoltTable warehouse = results[0];
    final VoltTable district = results[1];

    try {
      System.out.println("WAREHOUSE PRE: " + warehouse.toString());
    } catch (Exception e) {
      e.printStackTrace();
    }

    voltQueueSQL(getWarehouses);
    VoltTable warehouses = voltExecuteSQL()[0];
    try {
      System.out.println("WAREHOUSE PRE: " + warehouses.toString());
    } catch (Exception e) {
      e.printStackTrace();
    }

    voltQueueSQL(updateWarehouseBalance, paymentAmount, W_ID);
    voltQueueSQL(updateDistrictBalance, paymentAmount, W_ID, D_ID);
    voltExecuteSQL();

    voltQueueSQL(getWarehouses);
    warehouses = voltExecuteSQL()[0];
    try {
      System.out.println("WAREHOUSE PRE: " + warehouses.toString());
    } catch (Exception e) {
      e.printStackTrace();
    }

    // do stuff to extract district and warehouse info.

    // customer info
    final byte[] c_first = customer.getStringAsBytes(C_FIRST_IDX);
    final byte[] c_middle = customer.getStringAsBytes(C_MIDDLE_IDX);
    final byte[] c_last = customer.getStringAsBytes(C_LAST_IDX);
    final byte[] c_street_1 = customer.getStringAsBytes(C_STREET_1_IDX);
    final byte[] c_street_2 = customer.getStringAsBytes(C_STREET_2_IDX);
    final byte[] c_city = customer.getStringAsBytes(C_CITY_IDX);
    final byte[] c_state = customer.getStringAsBytes(C_STATE_IDX);
    final byte[] c_zip = customer.getStringAsBytes(C_ZIP_IDX);
    final byte[] c_phone = customer.getStringAsBytes(C_PHONE_IDX);
    final TimestampType c_since = customer.getTimestampAsTimestamp(C_SINCE_IDX);
    final byte[] c_credit = customer.getStringAsBytes(C_CREDIT_IDX);
    final double c_credit_lim = customer.getDouble(C_CREDIT_LIM_IDX);
    final double c_discount = customer.getDouble(C_DISCOUNT_IDX);
    final double c_balance = customer.getDouble(C_BALANCE_IDX) - paymentAmount;
    final double c_ytd_payment = customer.getDouble(C_YTD_PAYMENT_IDX) + paymentAmount;
    final long c_payment_cnt = customer.getLong(C_PAYMENT_CNT_IDX) + 1;
    byte[] c_data;
    if (Arrays.equals(c_credit, Constants.BAD_CREDIT_BYTES)) {
      c_data = customer.getStringAsBytes(C_DATA_IDX);
      byte[] newData =
          (c_id + " " + D_ID + " " + W_ID + " " + D_ID + " " + W_ID + " " + paymentAmount + "|")
              .getBytes();

      int newLength = newData.length + c_data.length;
      if (newLength > Constants.MAX_C_DATA) {
        newLength = Constants.MAX_C_DATA;
      }
      ByteBuilder builder = new ByteBuilder(newLength);

      int minLength = newLength;
      if (newData.length < minLength) minLength = newData.length;
      builder.append(newData, 0, minLength);

      int remaining = newLength - minLength;
      builder.append(c_data, 0, remaining);
      c_data = builder.array();
      voltQueueSQL(
          updateBCCustomer, c_balance, c_ytd_payment, c_payment_cnt, c_data, W_ID, D_ID, c_id);
    } else {
      c_data = new byte[0];
      voltQueueSQL(updateGCCustomer, c_balance, c_ytd_payment, c_payment_cnt, W_ID, D_ID, c_id);
    }

    // Concatenate w_name, four spaces, d_name
    byte[] w_name = warehouse.fetchRow(0).getStringAsBytes(W_NAME_IDX);
    final byte[] FOUR_SPACES = {' ', ' ', ' ', ' '};
    byte[] d_name = district.fetchRow(0).getStringAsBytes(D_NAME_IDX);
    ByteBuilder builder = new ByteBuilder(w_name.length + FOUR_SPACES.length + d_name.length);
    builder.append(w_name);
    builder.append(FOUR_SPACES);
    builder.append(d_name);
    byte[] h_data = builder.array();

    // Create the history record
    voltQueueSQL(insertHistory, c_id, D_ID, W_ID, D_ID, W_ID, timestamp, paymentAmount, h_data);
    voltExecuteSQL();

    // TPC-C 2.5.3.3: Must display the following fields:
    // W_ID, D_ID, C_ID, C_D_ID, C_W_ID, W_STREET_1, W_STREET_2, W_CITY, W_STATE, W_ZIP,
    // D_STREET_1, D_STREET_2, D_CITY, D_STATE, D_ZIP, C_FIRST, C_MIDDLE, C_LAST, C_STREET_1,
    // C_STREET_2, C_CITY, C_STATE, C_ZIP, C_PHONE, C_SINCE, C_CREDIT, C_CREDIT_LIM,
    // C_DISCOUNT, C_BALANCE, the first 200 characters of C_DATA (only if C_CREDIT = "BC"),
    // H_AMOUNT, and H_DATE.

    // Return the entire warehouse and district tuples. The client provided:
    // w_id, d_id, c_d_id, c_w_id, h_amount, h_data.
    // Build a table for the rest
    final VoltTable misc = misc_template.clone(8192);
    misc.addRow(
        c_id,
        c_first,
        c_middle,
        c_last,
        c_street_1,
        c_street_2,
        c_city,
        c_state,
        c_zip,
        c_phone,
        c_since,
        c_credit,
        c_credit_lim,
        c_discount,
        c_balance,
        c_data);

    // Hand back all the warehouse, district, and customer data
    VoltTable[] resultsX = new VoltTable[] {warehouse, district, misc};

    // resume test code

    // check that the middle "Customer" was returned
    assert ((C_ID + 1) == (resultsX[2].fetchRow(0).getLong("c_id")));
    assert ("".equals(resultsX[2].fetchRow(0).getString("c_data")));

    // Verify that both warehouse, district and customer were updated
    // correctly
    // VoltTable[] allTables = client.callProcedure("SelectAll");
    voltQueueSQL(getWarehouses);
    warehouses = voltExecuteSQL()[0];
    try {
      System.out.println("WAREHOUSE POST: " + warehouses.toString());
    } catch (Exception e) {
      e.printStackTrace();
    }

    assert (1 == warehouses.getRowCount());
    double amt1 = initialYTD + paymentAmount;
    double amt2 = warehouses.fetchRow(0).getDouble("W_YTD");

    assert (amt1 == amt2);

    voltQueueSQL(getDistricts);
    VoltTable districts = voltExecuteSQL()[0];
    assert (1 == districts.getRowCount());
    assert ((initialYTD + paymentAmount) == districts.fetchRow(0).getDouble("D_YTD"));

    voltQueueSQL(getCustomers);
    VoltTable customersX = voltExecuteSQL()[0];
    assert (4 == customersX.getRowCount());
    assert ((C_ID + 1) == customersX.fetchRow(1).getLong("C_ID"));
    assert ((initialBalance - paymentAmount) == customersX.fetchRow(1).getDouble("C_BALANCE"));
    assert ((initialYTD + paymentAmount) == customersX.fetchRow(1).getDouble("C_YTD_PAYMENT"));
    assert (2 == customersX.fetchRow(1).getLong("C_PAYMENT_CNT"));

    return null;
  }
コード例 #3
0
  public VoltTable[] processPayment(
      short w_id,
      byte d_id,
      short c_w_id,
      byte c_d_id,
      int c_id,
      double h_amount,
      VoltTableRow customer,
      TimestampType timestamp) {

    // customer info
    final byte[] c_first = customer.getStringAsBytes(C_FIRST_IDX);
    final byte[] c_middle = customer.getStringAsBytes(C_MIDDLE_IDX);
    final byte[] c_last = customer.getStringAsBytes(C_LAST_IDX);
    final byte[] c_street_1 = customer.getStringAsBytes(C_STREET_1_IDX);
    final byte[] c_street_2 = customer.getStringAsBytes(C_STREET_2_IDX);
    final byte[] c_city = customer.getStringAsBytes(C_CITY_IDX);
    final byte[] c_state = customer.getStringAsBytes(C_STATE_IDX);
    final byte[] c_zip = customer.getStringAsBytes(C_ZIP_IDX);
    final byte[] c_phone = customer.getStringAsBytes(C_PHONE_IDX);
    final TimestampType c_since = customer.getTimestampAsTimestamp(C_SINCE_IDX);
    final byte[] c_credit = customer.getStringAsBytes(C_CREDIT_IDX);
    final double c_credit_lim = customer.getDouble(C_CREDIT_LIM_IDX);
    final double c_discount = customer.getDouble(C_DISCOUNT_IDX);
    final double c_balance = customer.getDouble(C_BALANCE_IDX) - h_amount;
    final double c_ytd_payment = customer.getDouble(C_YTD_PAYMENT_IDX) + h_amount;
    final int c_payment_cnt = (int) customer.getLong(C_PAYMENT_CNT_IDX) + 1;
    byte[] c_data;
    if (Arrays.equals(c_credit, Constants.BAD_CREDIT_BYTES)) {
      c_data = customer.getStringAsBytes(C_DATA_IDX);
      byte[] newData =
          (c_id + " " + c_d_id + " " + c_w_id + " " + d_id + " " + w_id + " " + h_amount + "|")
              .getBytes();

      int newLength = newData.length + c_data.length;
      if (newLength > Constants.MAX_C_DATA) {
        newLength = Constants.MAX_C_DATA;
      }
      ByteBuilder builder = new ByteBuilder(newLength);

      int minLength = newLength;
      if (newData.length < minLength) minLength = newData.length;
      builder.append(newData, 0, minLength);

      int remaining = newLength - minLength;
      builder.append(c_data, 0, remaining);
      c_data = builder.array();
      voltQueueSQL(
          updateBCCustomer, c_balance, c_ytd_payment, c_payment_cnt, c_data, c_w_id, c_d_id, c_id);
    } else {
      c_data = new byte[0];
      voltQueueSQL(updateGCCustomer, c_balance, c_ytd_payment, c_payment_cnt, c_w_id, c_d_id, c_id);
    }
    voltExecuteSQL();

    // TPC-C 2.5.3.3: Must display the following fields:
    // W_ID, D_ID, C_ID, C_D_ID, C_W_ID, W_STREET_1, W_STREET_2, W_CITY, W_STATE, W_ZIP,
    // D_STREET_1, D_STREET_2, D_CITY, D_STATE, D_ZIP, C_FIRST, C_MIDDLE, C_LAST, C_STREET_1,
    // C_STREET_2, C_CITY, C_STATE, C_ZIP, C_PHONE, C_SINCE, C_CREDIT, C_CREDIT_LIM,
    // C_DISCOUNT, C_BALANCE, the first 200 characters of C_DATA (only if C_CREDIT = "BC"),
    // H_AMOUNT, and H_DATE.

    // Return the entire warehouse and district tuples. The client provided:
    // w_id, d_id, c_d_id, c_w_id, h_amount, h_data.
    // Build a table for the rest
    final VoltTable misc = misc_template.clone(1024);
    misc.addRow(
        c_id,
        c_first,
        c_middle,
        c_last,
        c_street_1,
        c_street_2,
        c_city,
        c_state,
        c_zip,
        c_phone,
        c_since,
        c_credit,
        c_credit_lim,
        c_discount,
        c_balance,
        c_data);
    return new VoltTable[] {misc};
  }
コード例 #4
0
ファイル: delivery.java プロジェクト: eoneil1942/tpc-bc
  public VoltTable run(short w_id, int o_carrier_id, TimestampType timestamp)
      throws VoltAbortException {
    for (long d_id = 1; d_id <= Constants.DISTRICTS_PER_WAREHOUSE; ++d_id) {
      voltQueueSQL(getNewOrder, d_id, w_id);
    }
    final VoltTable[] neworderresults = voltExecuteSQL();
    assert neworderresults.length == Constants.DISTRICTS_PER_WAREHOUSE;
    final Long[] no_o_ids = new Long[Constants.DISTRICTS_PER_WAREHOUSE];
    int valid_neworders = 0;
    int[] result_offsets = new int[Constants.DISTRICTS_PER_WAREHOUSE];
    for (long d_id = 1; d_id <= Constants.DISTRICTS_PER_WAREHOUSE; ++d_id) {
      final VoltTable newOrder = neworderresults[(int) d_id - 1];

      if (newOrder.getRowCount() == 0) {
        // No orders for this district: skip it. Note: This must be reported if > 1%
        result_offsets[(int) d_id - 1] = -1;
        continue;
      }
      assert newOrder.getRowCount() == 1;

      result_offsets[(int) d_id - 1] = valid_neworders * 2;
      ++valid_neworders;
      final Long no_o_id = newOrder.asScalarLong();
      no_o_ids[(int) d_id - 1] = no_o_id;
      voltQueueSQL(getCId, no_o_id, d_id, w_id);
      voltQueueSQL(sumOLAmount, no_o_id, d_id, w_id);
    }
    final VoltTable[] otherresults = voltExecuteSQL();
    assert otherresults.length == valid_neworders * 2;

    for (long d_id = 1; d_id <= Constants.DISTRICTS_PER_WAREHOUSE; ++d_id) {
      final VoltTable newOrder = neworderresults[(int) d_id - 1];

      if (newOrder.getRowCount() == 0) {
        // No orders for this district: skip it. Note: This must be reported if > 1%
        continue;
      }
      assert newOrder.getRowCount() == 1;

      final Long no_o_id = newOrder.asScalarLong();
      no_o_ids[(int) d_id - 1] = no_o_id;
      voltQueueSQL(deleteNewOrder, d_id, w_id, no_o_id);
      voltQueueSQL(updateOrders, o_carrier_id, no_o_id, d_id, w_id);
      voltQueueSQL(updateOrderLine, timestamp, no_o_id, d_id, w_id);
    }
    voltExecuteSQL();

    // these must be logged in the "result file" according to TPC-C 2.7.2.2 (page 39)
    // We remove the queued time, completed time, w_id, and o_carrier_id: the client can figure
    // them out
    final VoltTable result = result_template.clone(1024);
    for (long d_id = 1; d_id <= Constants.DISTRICTS_PER_WAREHOUSE; ++d_id) {
      int resultoffset = result_offsets[(int) d_id - 1];

      if (resultoffset < 0) {
        continue;
      }
      assert otherresults[resultoffset + 0].getRowCount() == 1;
      assert otherresults[resultoffset + 1].getRowCount() == 1;
      final long c_id = (otherresults[resultoffset + 0].asScalarLong());
      final VoltTableRow row = otherresults[resultoffset + 1].fetchRow(0);
      final double ol_total = row.getDouble(0);
      final boolean ol_total_wasnull = row.wasNull();

      // If there are no order lines, SUM returns null. There should always be order lines.
      if (ol_total_wasnull) {
        throw new VoltAbortException(
            "ol_total is NULL: there are no order lines. This should not happen");
      }
      assert ol_total > 0.0;

      voltQueueSQL(updateCustomer, ol_total, c_id, d_id, w_id);

      final Long no_o_id = no_o_ids[(int) d_id - 1];
      result.addRow(d_id, no_o_id);
    }
    voltExecuteSQL();

    return result;
  }