JPH0540710A - Data processor - Google Patents

Abstract

PURPOSE:To shorten a processing time for data transmission and to transmit error information occurring while data is transmitted to a starting terminal. CONSTITUTION:When transmission data from a transmitting side terminal is received (step A1 and A2), a next terminal is retrieved based on a terminal connection chart (step A4), data transmission is required to the next terminal (step A7) and whether transmission to the next terminal is possible or not is decided (step A8). In the case that communication is impossible, the state is considered to be an error and an 'NG' code is written in an error information table corresponding to a terminal making the error (step A4). Then, a next terminal to which transmission is possible is retrieved (step A7 and A8) and transmission data including the error information table is transmitted to the next terminal.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data processing device such as an electronic cash register and a POS register.

[0002]

2. Description of the Related Art Conventionally, in a large store such as a supermarket, a distributed file system composed of a plurality of terminals has been used. In this distributed file system, data transmission is performed using the broadcasting function. With the broadcasting function, when the file data of a certain terminal is changed, the changed contents are transmitted from that terminal (called the startup terminal) to each of the other terminals existing in the system at almost the same timing as the change. , To maintain the integrity of the system.

[0003]

However, in the conventional broadcasting function, since the activation terminal transmits the changed contents to each terminal, the processing time becomes long in proportion to the number of terminals constituting the system. There was a flaw. To reduce the processing time,
It may be possible to relay information from one terminal to the adjacent terminal, but this method has a drawback that error information cannot be transmitted to the activation terminal when an error occurs at the time of transmitting information. ..

An object of the present invention is to reduce the processing time required for data transmission and to transmit error information generated during data transmission to a start terminal.

[0005]

The means of the present invention are as follows. The connection state storage means 1 (see the functional block diagram of FIG. 1, the same applies hereinafter) stores the connection order of a plurality of data processing devices. The first transmission means 2 transmits the input specific data for setting in the connection state storage means 1 in a corresponding file of another predetermined data processing device. The second transmitting means 3 transmits the setting data and the error data to another predetermined next data processing device when the data setting is not made on the other data processing device side.

[0006]

The operation of the means of the present invention is as follows. The input specific data is transmitted by the first transmission means 2 for setting in a corresponding file of another data processing device based on the connection order of the connection state storage means 1 which is predetermined,
When data is not set on the side of the other data processing device, the second transmission means 3 transmits the setting data and the error data to the next other data processing device which is predetermined. Therefore, the processing time required for data transmission can be shortened and error information generated during data transmission can be transmitted to the activation terminal.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment will be described below with reference to FIGS. It should be noted that this embodiment is applied to an electronic cash register. In this case, the distributed file system has an electronic cash register as a terminal and is composed of a plurality of electronic cash registers.

FIG. 2 is a block diagram showing a circuit configuration of the electronic cash register. In the figure, a key input unit 11 is a numeric keypad 1 for inputting numerical data such as "0" to "9".
1a and a function key 11b for specifying various functions
And "Z (settlement)""X(check)""OFF""REG(register)""P
Mode switch 11c to specify each mode such as (setting)
It has and. When a key is operated by the key input unit 11, a key input signal corresponding to the key operation is input to the CPU 13 via the input control unit 12.

The CPU 13 executes various processes such as a numeral process, a registration process and an error process according to the inputted key input signal. These various processes are executed based on a control program stored in the ROM 14 in advance. Also, CPU1
3 includes a RAM in addition to the input control unit 12 and the ROM 14.
15, a display drive unit 17, a print control unit 19, a drawer 20,
And the transmission control unit 21 is connected.

The RAM 15 is for writing / reading data under the control of the CPU 13, and has an error information table 15a, a terminal connection table 15b, and its own idNo.
The register 15c, the transmission buffer 15d, and the other storage unit 15e are provided.

The display unit 16 is composed of, for example, a CRT display device, and displays a deposit amount, a deposit amount, etc. based on display data output from the CPU 13 via the display drive unit 17. The printing unit 18 issues a receipt, a journal, an error report, etc. based on the print data output from the CPU 13 via the print control unit 19. The drawer 20 stores various kinds of cash and is opened under the control of the CPU 13. The transmission control unit 21 controls data transmission to another electronic cash register in the system.

FIG. 3 is a diagram showing the structure of transmission data transmitted from the transmission side to the reception side during the execution of broadcasting. In this case, the identification number id of the sending terminal is set to "1", and the identification number i of the receiving terminal i
d is set to "2". The transmission data includes a start terminal (starting terminal) idNo., A file No., a record No., setting data, and an error information table. The error information table has records for the number of terminals constituting the system. Each record has an area corresponding to the terminal idNo. For storing the execution result of broadcasting.

Next, the operation of the above embodiment will be described. 4 and 5 are diagrams for explaining the broadcasting operation in a system including five terminals (terminals 1 to 5). FIG. 4 is a diagram showing an operation when the broadcasting is normally completed. FIG. 5 is a diagram showing an operation when the broadcasting at the terminal 3 is NG. FIG. 6 is a diagram showing an example of the terminal connection table 15b.

First, the example shown in FIG. 4 will be described. In this case, broadcasting is performed in the order based on the terminal connection table 15b of FIG. That is, the start terminal is the terminal 1, and the terminal 1 transmits the transmission data to the terminal 2. As a result, the terminal 2 executes the data receiving process shown in FIG.

In step A1, the transmission data sent from the transmitting terminal is received under the control of the transmission control unit 21. In the following step A2, this transmission data is written in the transmission buffer 15d. In step A3, the processing result of broadcasting is written in the error information table of the transmission data. That is, only when the result of the reception process of step A1 or the result of the transmission determination process of step A8 is an error, the "NG" code is written in the error information table of the transmission data corresponding to the terminal in error. In step A4, the terminal connection table 15b is searched to specify the next terminal, that is, the terminal 3. In the following step A5, it is determined whether the idNo. Of the next terminal is equal to the idNo. Of the start terminal, that is, whether or not the data has been transmitted to all terminals. When the data has been transmitted to all the terminals, YES is determined in step A5, and the process proceeds to step A6, in which an end processing request is transmitted to the start terminal.

In this case, since the next terminal 3 is not the start terminal, NO is determined in step A5 and the process proceeds to step A7. In step A7, a data transmission request is issued to the terminal 3. In the following step A8, it is determined whether or not transmission is possible to the next terminal 3. If the transmission is possible, the process proceeds to step A9, and if the transmission is not possible, the process returns to step A3.

If transmission is possible, the process proceeds from step A8 to step A9. At step A9, the transmission data is transmitted to the next terminal 3 and the processing of FIG. 7 is terminated.

Thereafter, as described above, the transmission data is transmitted from the terminal 3 to the terminal 4, and further the transmission data is transmitted from the terminal 4 to the terminal 5. Then, when the data reception process is executed in the terminal 5, it is determined as YES in step A5 and the process proceeds to step A6, in which the transmission data is transmitted from the terminal 5 to the terminal 1 which is the start terminal together with the end process request signal. It As a result, the terminal 1 executes the termination process shown in FIG.

In step B1, the termination processing request signal and the transmission data are received, and in step B2, the error information table of the transmission data is searched. Continued Step B3
Then, it is determined whether or not there is an "NG" code in the error information table. If YES in step B3, the process proceeds to step B4, and if NO in step B3, the process in FIG. 8 ends. In this case, the broadcasting was completed successfully,
The "NG" code is not stored, the determination is NO, and the process of FIG. 8 is terminated.

Next, the example shown in FIG. 5 will be described. As in the example of FIG. 4, the starting terminal for broadcasting is terminal 1. Then, the terminal 1 transmits the transmission data to the terminal 2, and the terminal 2 executes the data receiving process as described above.

In step A1, the transmission data is received, and the process proceeds to step A2 to write the transmission data in the transmission buffer 15d. In step A3, the processing result of broadcasting is written in the error information table of the transmission data. In this case, since the processing result is normal, nothing is written. At step A4, the terminal connection table 15b is searched to specify the next terminal 3. In step A5, the terminal idNo. Is the start terminal idN.
It is determined whether it is equal to o. In this case, since the next terminal 3 is not the start terminal, step A5
Is determined to be NO and the process proceeds to step A7. Step A7
In step 1, the next terminal 3 is requested to send data. In the following step A8, it is determined whether or not transmission is possible to the next terminal 3. In this case, as shown in FIG. 5, when the transmission to the next terminal 3 is impossible, an error occurs in the next terminal 3 and the process returns to step A3. At step A3, the "NG" code is written in the error information table of the transmission data corresponding to the terminal 3 in error.

In the next step A4, the terminal connection table 1
5b is searched and the next terminal 4 is designated. Step A
At 5, it is determined whether the terminal idNo. Is equal to the start terminal idNo. in this case,
Since the next terminal 4 is not the start terminal, it is judged NO in step A5 and the process proceeds to step A7. In step A7, a data transmission request is issued to the terminal 4. In the following step A8, it is determined whether transmission is possible to the next terminal 4.

In this case, since transmission to the next terminal 4 is possible, the process proceeds from step A8 to step A9. In step A9, the transmission data is transmitted to the next terminal 4 and the process of FIG. 7 is terminated.

Thereafter, as in the above, the transmission data is transmitted from the terminal 4 to the terminal 5. Then, when the data receiving process is executed in the terminal 5, it is judged as YES in step A5 and the process proceeds to step A6, and the transmission data is transmitted to the terminal 1 which is the start terminal together with the end process request signal. Similarly to the above, the terminal 1 executes termination processing.

In this case, transmission NG for the terminal 3
Thus, the "NG" code is written in the error information table. Therefore, YES is determined in step B3 and the process proceeds to step B4. At step B4, as shown in FIG. 5, an error report indicating an error of the terminal 3 is issued, and the processing of FIG. 8 ends.

[0026]

According to the present invention, since the error information is provided in the transmission data in broadcasting, the error information can be surely transmitted. Therefore, it is possible to correctly set the data of the terminal in error, and it is possible to obtain accurate file data.

[Brief description of drawings]

FIG. 1 is a functional block diagram of the present invention.

FIG. 2 is a block diagram showing a circuit configuration of an electronic cash register.

FIG. 3 is a diagram showing a structure of transmission data.

FIG. 4 is a diagram illustrating the operation of broadcasting.

FIG. 5 is a diagram for explaining the operation of broadcasting.

FIG. 6 is a diagram showing an example of a terminal connection table.

FIG. 7 is a flowchart showing an operation of a data reception process.

FIG. 8 is a flowchart showing an operation of end processing.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Connection state storage means 2 ... 1st transmission means 3 ... 2nd transmission means 11 ... Key input part 12 ... Input control part 13 ... CPU 14 ... ROM 15 ... RAM 16 ... Display part 17 ... Display control part 18 ... Printing unit 19 ... Printing control unit 20 ... Drawer 21 ... Transmission control unit

Claims (1)

[Claims] 1. A data processing device in which data processing devices having files are connected to each other, and a connection state storage means for storing a connection order of a plurality of data processing devices,
First transmission means for transmitting the input specific data to set in the corresponding file of another data processing device predetermined in the connection state storage means, and no data setting is made on the other data processing device side In this case, the data processing device is provided with a second transmission means for transmitting the setting data and the error data to another predetermined next data processing device.