JPS582929A - Controlling system for form data output mode - Google Patents

Abstract

PURPOSE:To make the operation efficient, by providing a switch by which the first mode, where one-line components of data out of read data of a form are written in one sector of a recording medium, and the second mode, where plural- line components of dara are written in one sector, are selected. CONSTITUTION:A control sheet group where a program for the second mode where plural-line components of data on a form are written in one sector of a floppy disc 16 is loaded to an optical character reader OCR14. Each time one- line components of data on a form 18 are read, the OCR14 discriminates whether a switch SW is turned on or off; and if the SW is turned on, the first mode is discriminated to write one-line components of data into one sector, and the space of the sector is stuffed with 0. If the SW is turned off, the second mode is discriminated to write plural-line components of data, which can be written in one sector, in one sector, and the space of the sector is stuffed with 0. Thus, it is unnecessary to define virtual fields on the control sheet, and software selects first and second modes by turning on and off the selecting SW merely, and the output mode is controlled efficiently.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides form data t-Kotori 9 Sono! This article relates to a method for controlling the output format of ttS for outputting to a brass medium.

When the optical character reader (OCR) K reads the form data t- and writes the read output to a recording medium, usually a 70% disk, the data is written to the floppy disk. The form data that is read out one line at a time is written to the sector, which is the storage area unit of the floppy disk, at a rate of one line of data per one sector.
If there is any remaining part in the sector, there is a method in which it is treated as a virtual field, and a method in which data tS of multiple digits to be filled into the lid is inserted into i-. The method of (2) has the advantage of being able to effectively use the storage area of 70 pieces, but in cases where formatting is required, it is extremely difficult to do so because the data in each line is tightly packed.
．． , the control is easier in the case of ■ for data for one row of sectors. In other words, (both formats 9 and 0 have their advantages and disadvantages, and it is desirable to be able to switch to either format as needed.) Conventionally, in order to perform this switching, programs had to be created for format ① and ``format ①''. I was trying to switch between them and use them.However, this is not the case with the program [
This includes troublesome problems such as the need to load the data to the city/LOCR. The present invention aims to improve the above points and improves the form data. Job 9, write the 9 data of the face to the recording medium, write the data of 1 set of 9 accounts of the armpit recording medium in all format, or write the data of 1 line of book 111h to 1 sector of the scissors. In the method for controlling the form data output format in a device that outputs data in either of the two formats, the first or second format is applied to the skeleton device. When the second output format [selecting a switch] is selected, the system selects the first output format, the camera takes in data to fill multiple lines of forms as much as it can fit into one sector, and fills in the sector remaining gs. When writing the form data and planter code to the storage medium by arranging blank codes to fill in the data, and when the scissors switch is in the state indicating the second output format, there will be no remaining sector in the 1-line separation 9 data of the form. The planter code that sets the part is attached to the form data and blank code to the recording medium, each line of the form! This will be explained in detail with reference to the drawings, which is characterized by convolution for each field.

j1g1 Figure explains the conventional output format to floppy 4
In the figure, 10 is a group of control sheets written by two people for the format of the form (■), which outputs data for plurality of forms to one sector, and 12 is a group of control sheets written by two people (2), which outputs data for one line of the form to one sector.
This is a group of control sheets in which programs for the format are written. A desired one of these is inserted into the OCR 14 and read, and the read output data, including all nine programs, is stored in the B disk 16. This book JllIIIR1
70P disk 161-OCR14 memory (not shown) in which Reformer and Topro/Tsum are stored
(indicated by PL), insert form 1B' into 11100R14, and write the data of the form without line.
Optically remove the cracks. The read output is written to the floppy disk 20 (which has already been loaded, so it may be the same as the floppy disk 16, or any other true floppy disk), but the writing format is the same as the floppy disk 20, which has already been loaded. It is specified by the read form read 97 output. In other words, if control code 10 is used, the output format is ■, and the output to floppy 20 is 72.
is written as shown. If the control sheet 12 was used before, the output format is ``■'', and the data is written to the floppy disk 20 as shown in 24. One character's worth of data is written in one sector storage area, leaving a blank space shown with diagonal lines, and the remaining part is designated as a temporary 11 field (die) to make it appear as if there is data. A blank code, for example 'o'l, is written in the diagonally lined margin. In the case of format ■, multiple hundredths of data is written to each sector storage area, and the data is too small to accommodate one line of data! ! & Fill the memory area with blank codes.

Part 2 figure is real f! At- This is a diagram to explain 0 In the present invention, the control sheet 10 in Figure 1, that is, for type ○, is used, and a switch 8W is installed in the OCR, and output formats ■ and ■ are selected by turning it on and off. . control sheet 10
Four for reading the form written in 9! 0 of the cut program
Loading to CR14 is the same as that shown in FIG. 1, and after this program loading, it is inserted into form 18tOC1iL.

0CR14 reads whether the switch is on or off every time one line of data in the form 18 is read, and if it is on, outputs the format ■, writes one line of data to one sector, fills the rest with @0'', and turns it off again. If so, use the output format ■, write as many lines of data as can be written into one sector, and fill the rest with ``''0#. With this method, there is no need to define virtual fields on the control sheet as in the conventional method, and the software simply selects the output format by turning it on and off.

(2) can be selected, and output format control can be performed efficiently and with good workability.

It is convenient to perform the above control using software, but what is the equipment when performing this control using hardware? is shown in Section 51. 50 is the reading loss part of 0CR14, this lI!
yjI7Lp division's 1-line report 9 data D
The images are sequentially stored in the scan buffer S2. Also**
For multi-5G, the line end signal L is output after reading one line.
CED I output, which is sent to extraction s34. Control of extraction ll54 @54@ is 2-input signal L NND
When it comes, the data management system in 7752 is scanned, and 541
Fill it in. The scanning buffer 32 has a storage capacity capable of storing data for one line of a form, for example, 256 characters, and the reading unit 50 also writes codes indicating the following characters, margins, unusable parts, etc. Only the character data of these is input into the register 54a, and at the same time as this write-out character data is extracted, the byte callan 154b performs counting and indicates the number of characters input into the register 54aKki. The count value of the byte counter 54b is compared with the count value of the register 3B in the arithmetic circuit s6. death·
The control section 48 first inputs the number of characters for one line, 2561-glyse, in this example, to the register 3B, and subtracts the needle mark value of the counter 34b from this pleat value. For example, the highest order of the difference value is “0”
'', the gate Gl*am opens, and the contents of the 4-arithmetic circuit 563 and the above difference t9 are loaded into the register 38 and also sent to the data monitoring circuit 401 of the counter 54b. Character data is input from the register 54m only for numerical values, and this is sent to the transfer section 40.

Next, OCR enters OK to read data on the second line of the form, similarly extracts character data to register 34&, and returns to counter 54b.
Counting the number of extracted characters by K, register 68? A count value is subtracted from the content (this is the preset number of songs and the number of characters for a line) in the counter 54. If this result is positive, gate GI.

Gl opens, and the contents of the arithmetic circuit 56 (Grise, Tomin-1,
The number of characters for two lines) is transferred to the register 58, and the character data in the register 34 is transferred (11i40).

Sending to is performed. OCR continues reading the third line we
The same operation is performed here.

OCR is I on the 4th line! When step 9 is performed, subtraction circuit 5
If the result of the subtraction of 6 is negative, the most significant number of the numerical value of the subtraction result is "1", so (goo) Gse false is closed. Oragu) After passing through G4, Mukuro “1” is Andogu)
Enter GiK, contents of register 5B (number of presets - 1
, 2, number of characters for S lines) Kahekisa zero x @oo' monitoring circuit 4
Enter 0bK. x@00” generator 42 in the wrinkle circuit 401s
is connected and sends @0'' to the transfer 1140@ according to the number in register 38.

When this "0# supply is received, Transfer @ 40 Bei transfers all the character data sent so far to the disk control SSO and K (ST is the transfer control start signal),
A signal is sent to control s48 to set the contents of register 38 to 256 in the first few examples.

make it work. The 70 floppy write control for the 4 lines of read data is thus started in the same way as that for the first line above, and the data is written to the floppy in the format ■.
This is done as shown below.

The above is a case where the output format selection switch is turned off, but when it is turned on, the one-line data extraction section 340 and the control section 5
4e performs the above-mentioned control when receiving the 2nd output signal LEND, and also sends out a set signal 87Vt. Then, when the OCR reads the data on the first line of the form, there is nothing, and the arithmetic circuit 36
Then, a subtraction of (256 - number of characters per line of irises) is performed, and this result is positive, so Gt and Gs are released, but at the same time, Se.

Set by signal 8T,
．． After an appropriate delay by the delay circuit 44, the output of @1" from the gate 46 passes through the OR gate Gat and enters the AND gate G3, which opens the gate. Then, the count value of the counter 541 is input to the data monitoring circuit 40m, and the count value of the counter 541 is input to the register 54. , and sends it to the transfer unit 40 @ (sequentially, the number in the register 3B (256-1st ``0'' is input for the number of line characters), and the space for one sector is filled with wrinkles@0'' and the first line character data.The transfer unit 40@ transfers these character data and °0# The data is transferred to the floppy control @SO, and the register 58' is preset again.The OCR then enters the second line reading reference 9, and the same process is repeated, and the output format 〇 is shown in Figure 1 to the floppy. Writing as shown in 24 is performed (however, the shaded area is also written as "0" and is a mourning event).

As explained above, according to Honjitsu INK, it is simply sui, chit.
You can select the owss output format to floppy just by turning it on and off, and there is no need to define virtual fields.
It is extremely effective.

[Brief explanation of the drawing]

Fig. 1 is a diagram explaining the conventional output format selection procedure, Fig. 2 is a detailed explanatory diagram of the present invention, and Fig. 3 is a diagram showing the present invention in a hardware image. .20
24 is a storage medium, 24 is a storage in the first format, 22 is a storage in the irises 2 format, and SW is a switch. Applicant Fujitsu Ltd. Representative Patent Attorney Minoru Aoyagi Figure 1 ^Jc-r O)l

Claims (1)

[Claims] A first format or one sector in which data for a plurality of lines of data is packed into one sector of the record data 'rim job 9 and the read data is stored in the recording medium. Write the data for Book III rows! In the control method of the form data output format in a device that outputs in any of the I2 formats, the device Km jl 1 m is a switch for selecting the second output format, and the mosquito switch indicates the first output format. ll
When recording t, take in as many lines of read data as can be packed into one sector, enrich it by the sector SaW, and write the form data and blank code to the recording medium by arranging the code tubes. The form showing the output format of 1IK-m
ix, the rest of the data on the gun data for one line of the form emJ
A data output format selection method characterized by writing side-by-side form data and a blank code to a recording medium every time each line of a form is read.