JPS6220580B2 - - Google Patents

Description

TECHNICAL FIELD OF THE INVENTION The present invention relates to a test control method for a totalizer system, and more particularly to a totalizer test control method that uses a terminal data generator to support generation of terminal data for testing.

Technical Background First, an overview of the totalizer system will be explained.

FIG. 1 shows the basic configuration of an example of a totalizer system. In the figure, 1- _p , 1- _o are terminal UIM, 2 is totalizer control unit TCU, 3
indicates the master CPU, and 4 indicates the slave CPU. The master CPU and slave CPU operate in a dual data processing method.

To explain the operation and sales process, data entered by the operator at the terminal is sent to the TCU as a ticket issuance request. The TCU receives ticket issue request data through polling and creates operator data in a certain format based on it. The operator data is then transmitted to both the master and slave CPUs via a parallel transmission adapter (not shown). Both CPUs update the file after checking the operator data against the operational data.

The file update process is a process of adding the current vote count A to the vote count B up to the previous day to obtain the cumulative total up to this time (A+C). Both CPUs create response data and send it to the TCU. The response data includes the check result OK and update data A, B,
(A+B) included.

The TCU calculates and compares the response data from both CPUs. If there are no abnormalities, create response data, send it to UIM, and issue ticketing instructions.

FIG. 2 shows an example of a data format transferred within the totalizer system. Figure a is
This is an example of the format of ticketing request data sent from UIM to TCU. For example, the event data for venue, year, race, and date have three combinations in total, and the number of races is
12 types, 3 types: consecutive wins, single wins, and multiple wins.
Horses/group numbers take on values such as 36 types for consecutive wins and 28 types for single wins, resulting in a huge number of combinations overall.

FIG. 2b is an example of the format of operator data sent from the TCU to the CPU. header part
SEQ is a serial number, which encodes the race order information such as place, year, race, day, race number, etc. in the data format of a above, and DEV is
The UIM device number is shown, and the data section shows processing request types such as sales and refunds, voting information, etc.

In such a conventional totalizer system, when performing a comprehensive test after system installation, one type of counter business data is set for each of the many terminal UIMs, and the data is actually read from the terminals.
The method used was to send the data to the CPU and test various functions of the system. One terminal has one voting information at a time As mentioned in Figure 2, only one of the many combinations of race, horse/group number can be set, so to set all types of information, 12 races,
92 ways for horses/groups (20 ways for multi-horses)
This would require 1004 terminals (240 in the case of multi-device), which would be almost impossible. Further, regarding refunds, only winning tickets prepared in advance can be generated as data for refunds.

OBJECT AND CONFIGURATION OF THE INVENTION In order to solve the above-mentioned conventional problems, an object of the present invention is to provide a pseudo data generation mechanism in the system and to minimize the number of terminals required to generate test data. .

As a configuration for that purpose, the present invention provides a totalizer system including a terminal, a totalizer control device, and a central processing unit, in which a terminal data generator is provided in the central processing unit, and the terminal data generator is configured to handle sales or refunds from the terminal. The serial number in the operator data sent from the totalizer control device to the central processing unit in response to a processing request is converted into the required test data, and the central processing unit uses the converted test data to process sales or refunds. It is characterized by testing the system.

Embodiment of the Invention FIG. 3 is a block diagram of an embodiment of the present invention. In the figure, 7a to 7d are terminals and device numbers.
Compatible with UIM ₁ to UIM ₄ . 8 is a totalizer control unit TCU, 9 is a master CPU, 10 is a slave CPU, 11 is a terminal data generator,
12 is a conversion table, 13 is a data check section,
13a is the operational data file, which stores all information regarding races from the past to the present.
14 is a file update processing section; 14a is a voting information file that manages the cumulative number of votes for each UIM; and 15 is a response data creation section.

In this example, a field as shown in FIG. 2a,
Test data is internally generated that expands race characteristic data of year, race, day, race number, type, and horse/group number in almost all combinations. For example, release
In other words, in the case of the ticketing process test, the changes by formula are
Changes in race numbers and horse/group numbers are created using UIM and generated in the terminal data generator 11. Therefore, UIM ₁ is assigned only win-win type processing, and UIM _{2 is} assigned
Assign multiple win type processing to UIM 3, and consecutive win type processing to UIM ₃ . On the other hand, as mentioned above, the terminal data generator 11 is responsible for generating data on race numbers and horse/group numbers at the time of sale, but at the time of refund processing,
Assign UIM ₄ and terminal data generator 11
Any place, time, day, race from the last 4 events.
Responsible for generating data for number, type, horse/group number.

The terminal data generator uses the serial number SEQ in the operator data sent from the TCU as a parameter and generates data according to a preset conversion table 12. The number of registrations for the race, etc.
Set according to the contents of the operational data file 13a. Operators of terminals UIM ₁ to UIM ₃ must use SEQ
All you have to do is change the appropriate setting data so that the value changes. In this way, the SEQ during testing is completely different from the function during actual processing, and is used as a parameter means for indirectly controlling the terminal data generator 11.

FIG. 4 shows the data format in the system of FIG. 3 for each processing level. UIM
Release or refund data entered from
The TCU converts it into operator data including the serial number SEQ shown in FIG. 2b. In operator data,
It is sent to the CPU and first converts the SEQ into test data such as race number, horse/group number, etc. The CPU uses this conversion data to identify other functions such as release, refund, etc.
In combination with data such as the number of votes, processes such as checks and file updates for sales or refunds are executed, response data based on the above conversion data is created and sent back to UIM, and UIM issues tickets and refunds are output. let

FIG. 5 is a flow diagram showing the data conversion process of the terminal data generator 11. First, we will determine whether it is a release or a refund, and then we will collect the data.
After converting to an ISO code or BIN code (binary number), in the case of a sale, convert the race number and horse/group number, and in the case of a refund, past refund data (stored in the operational data file 13a) ) to field,
Decide on the year, race, and day, then race number, type, horse/
The groups are determined sequentially. These conversion data are
BIN-ISO converted and output.

Effects of the Invention According to the present invention, for example, the release test terminal 3
Various types of sales/refund data can be generated by simply using a small number of terminals, such as one machine or one refund test terminal. Test processing, which used to take the effort and time of many people, can now be easily and quickly performed by a small number of people using the terminals in the computer room of the Totalizator system.

[Brief explanation of the drawing]

Figure 1 is a schematic configuration diagram of an example of a conventional totalizer system, Figure 2 is a diagram of its data format configuration, Figure 3 is a system configuration diagram in an embodiment of the present invention, and Figure 4 is its data flow. FIG. 5 is a processing flow diagram of the terminal data generator. In the figure, 7a to 7d are terminals used for testing,
8 is TCU, 9 is master CPU, 10 is slave
CPU, 11 is terminal data generator, 12 is conversion table, 13 is data check section, 13a
14 is an operational data file, 14 is a file update processing section, 14a is a voting information file, and 15 is a response data creation section.

Claims (1)

[Claims] 1 In a totalizer system consisting of a terminal, a totalizer control device, and a central processing unit,
A terminal data generator is provided in the central processing unit, and the terminal data generator converts the serial number in the operator data sent from the totalizer control device to the central processing unit into required test data in response to a release or refund processing request from the terminal. Convert to
A test control method for a totalizer, characterized in that the central processing unit uses the converted test data to process sales or refunds and to test the system.