DE3046972A1 - DOT PATTERN CONTROL DEVICE - Google Patents

Description

description

The invention relates to a dot pattern control device for graphic display devices and printers.

If the on a screen of a known graphic display device When the information displayed is read, it is common to read the information in the form of single characters or letters by reading character encodings or in the form of dot units by the an- or switched off state of the points is read. With such reading devices, however, it is impossible to simultaneously read consecutive characters. It is also impossible to create a point pattern from a number of points for example, to read a drawing so that analysis of such a drawing cannot be obtained. if furthermore a character which is not stored in a character generator on the screen of a graphic display device is to be displayed, up to now this character was or was generated with a graphic function of the display the points of the character are individually designated by coupling programmed data. Both cases are considerable Labor and many saves required.

The invention is intended to alleviate or eliminate the above-described difficulties in known devices and thus a dot pattern control device is to be created which allows a number of of dot patterns in the form of individual characters or letters from a screen, thus enabling the analysis of a graphic Enable display of displayed information, and also to read continuous characters, i.e. a typeface.

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In particular, the invention is intended to provide a dot pattern control device can be created that allows a plurality of given dot patterns as individual characters or to pre-enter letters in a memory device and in which the desired dot patterns as individual Characters or letters can be read from the memory device for display or printing, so that it is possible to display or print out characters, letters, symbols, drawings, etc. very easy to obtain and with a very simple structure.

For this purpose, the dot pattern control device according to the invention comprises an output memory for storing display data or print data in the form of dot patterns, each with individual characters or letters, means for specifying the addresses of the output memory, means for reading out the dot patterns as individual characters or letters from the spaces the addresses designated by the specifying means and a main memory for storing the dot patterns, which are read out by the reading device.

In the control device according to the invention with the above described structure, dot patterns can be read from a screen at least as individual characters or letters, so that it is possible to easily analyze a graphic display or similar display from displayed information and a displayed typeface can also be read. It is also possible, if you want Preset dot patterns in a memory with direct access and, if necessary, the desired dot patterns read out for display on the screen or for printout, making a desired modification or change display or printout is possible.

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A particularly preferred idea of the invention is to use dot patterns as individual characters or letters from a Read screen and save desired dot patterns in direct access memory so that they can be used as a individual characters or letters can be read out for display on a cathode ray display tube or for printing can. Characters, letters and drawings can thus be read without difficulty and easily displayed or printed out will.

In the following, preferred embodiments of the invention are described in more detail with reference to the accompanying drawings:

Fig. 1 shows the structure of the circuit in an embodiment of the invention for a cathode ray tube display.

2 shows the internal register structure of a central data processing unit.

Fig. 3 shows the internal structure of a direct access memory, with an example of the type of storage the data is shown.

Fig. 4 shows the internal structure of a video memory with direct access.

Fig. 5A show in flow charts the point pattern output

and 5B ...

verarbextung.

Fig. 6 is a flowchart showing the dot pattern input processing .

An exemplary embodiment is given below with reference to the accompanying drawing of the invention for a cathode ray tube display device.

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In Fig. 1, a central data processing unit 1 is shown, which controls the operation of the entire cathode ray tube display device and via a clock pulse signal is operated by a clock generator 2. The central data processing unit 1 contains arithmetic circuits and memories necessary for control. Fig. 2 shows various registers which form the memories of the central data processing unit 1, namely the registers A, B, C, T, F, and V. The use of these registers will be described later. In Fig. 1 there is also an address buffer 3 and a control buffer 4 are shown. These buffers 3 and 4 each temporarily store address data and control data from the central data processing unit 1 and place this data on the address decoder 6 on a permanent memory ROM7, to a direct access memory RAM8, to a Cathode ray tube controller 9, to a video memory with direct access 10 and to an input / output controller 11, which will be described later. A data buffer 5 is provided for briefly storing numerical data at the time of their transmission between the central data processing unit 1 and circuits 7 to 11. The from the central data processing unit 1 via the Address buffers 3 at the address decoder 6 serve as chip selection data for the circuits 7 to 11. When this data has been decrypted in the address decoder 6, the appropriate circuit is selected. In permanent storage 7 are in addition to a control program for controlling the whole Systems Patterns for characters, letters, numbers, symbols, etc., which are generally displayed on the screen of a cathode ray tube display device can be displayed, stored permanently, for example, as respective 7x5 point matrices. When new data is to be displayed on the screen, the character patterns for the desired data to be displayed are used and information from the read-only memory 7 in accordance with the address specification from the central data processing unit 1 read out and written into the video memory 10 with direct access. In memory 8 with direct access data and programs are stored. There can be ciuch characters

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and letters, which are not stored in the permanent memory 7, from a keyboard 12 into the memory 8 with direct Access pre-entered and, if necessary, for display can be read out on the screen. A pattern table for storing the dot patterns in the memory 8 with direct Access is formed from the 5000th and the following addresses, as shown in FIG. Data for a Bytes can be stored at any address. Each character stored in the memory 8 with direct access exists from a point pattern based on 8x8 point matrices. 3 shows the storage of a dot pattern for the symbol O. As shown in Fig. 3, the dot pattern for symbol Q from data 11111111, which are stored at the 5000th and 5007th addresses, and formed from the data 10000001, which are stored at the 5001st to 50006th address are stored. In this way, the desired dot pattern can be stored in the memory δ with direct access be enrolled. The dot patterns preset in the direct access memory 8 can, if necessary can be read out for display on the cathode ray tube screen. When reading a point pattern or multiple point patterns processing is carried out as shown in the flowchart in FIGS. 5A and 5B and described later. Via the data processing it is not only possible to create a point pattern can be read out from the memory 8 with direct access from just a single character, but can also be simultaneously several successive character dot patterns can be read out from the memory with direct access to the display. It is further possible, the logical OR, AND or exclusive OR the dot pattern data read out from the direct access memory and the data stored in the relevant area or areas of the cathode ray tube screen and the resulting dot pattern data on that area or on them Display areas. It is of course also possible to participate

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the data displayed on the CRT display tube and instead the pure read-out dot pattern data to display.

The dot patterns read out from the direct access memory 8 in accordance with the instruction of the user or the Character patterns that are stored in the read-only memory 7 in accordance with the command from the central data processing unit 1 are read out on the video memory 10 with transmitted direct access and written into this memory 10. At this point the video memory is used 10 with direct access the address specification via Given address data from the central data processing unit 1 via the address buffer 3 and a multiplexer 13 are present. To display the dot pattern data that written in the video memory 10 with direct access and / or character pattern data from the read-only memory 7 on the CRT screen, the video memory 10 with direct access made a periodic To perform repetition controlled by the controller 9 for the cathode ray tube. The controller 9 for the cathode ray tube in particular, generates known horizontal and vertical sync signals, a clock signal, and address data. The address data are via the multiplexer 3 on the video memory 10 with direct access, the clock signal is present a parallel serial converter 14 and the sync signals are applied to the cathode ray tube display unit 15. The Dot pattern data read out from the video memory 10 with direct access and / or the character data from the Read-only memories 7 which are parallel data are thus converted into serial data by the parallel serial converter on the CRT display unit 15 for display.

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According to the invention, on the screen of the cathode ray tube display unit 15 data displayed in the manner described above, i.e., the dot patterns and the character patterns read as individual characters from the screen and transferred to the memory 8 with direct access to to be stored in it. In this case, a dot pattern reading program is executed in accordance with a specific command performed by the user as shown in the flow chart of Fig. 6 and described later. During this Data processing or during this program, the data displayed on the screen are each one as a point pattern individual characters are handled and processed and can simultaneously connect several point patterns to one another Characters can be read easily. The dot patterns that are read from the screen and stored in memory 8 with direct access can also be written as individual characters in the central data processing unit 1 can be processed, so that the analysis of a graphic display or a typeface on the screen can be easily carried out can be obtained.

The address data generated by the cathode ray tube controller 9 is also applied to a key scan timing signal Key control 16. The individual keys, which are arranged in a matrix arrangement on the keyboard 12, are thus scanned in accordance with the address data which are present via the key controller 16 at the time of the key scanning, wherein a detector signal which reflects the actuated or not actuated state of the individual keys and as a result of the Sampling is obtained via the key control 16 and the Control 9 for the cathode ray tube on the central data processing unit 1 lies and is processed there. The input / output controller 11 provides a control unit for Control of the data transmission between an external unit 17, for example a printer, and the central data processing unit 1 represents.

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Fig. 4 schematically shows the internal structure of the video memory 10 with direct access. As shown in FIG is, the direct access video memory 10 has a grid structure of 16 character lines of which each consists of 32 character spaces. The respective position addresses 0 to 511 are given to the individual character spaces. Each character space, which is precisely designated by a corresponding position address, has a dot matrix form 8 points χ 8 lines. According to the invention, each characters displayed on the screen can be treated as a dot pattern of a single character. The structure of the grid or the screen of the cathode ray tube display unit 15 corresponds one-to-one to the grid structure of the video memory 10 with direct access. The direct access video memory 10 can be of any desired design Relationship to memory 8 with direct access.

The operation of the embodiment of the invention described above is illustrated below. First describes the operation in the case where a character, symbol or the like that is not in the permanent memory 7 is stored, predetermined in the memory 8 with direct access as a dot pattern of a single character will. When a dot pattern of a symbol, for example the symbol O, at the 5000th to 5007th address of the memory 8 is stored with direct access in the manner shown in FIG. 3, becomes a program

AS = 11111111 + 10000001 + 10000001 + ... + 11111111

connected. Similarly, the data for at the 5008th and the following addresses of the memory 8 with Direct access to save point patterns byte for byte in each row one after the other. During the arrival

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At the end of the program described above, address data, Control data and numerical data each with a specific content from the central data processing unit 1 is generated and applied to the address buffer 3, the control buffer 4 and the data buffer. This has the consequence that the data are written into the memory 8 with direct access byte by byte one after the other, with the Chip selection according to the output signal of the address decoder, according to the write command from the output of the Control buffer 4 and takes place in accordance with the address specification, which is based on the output signals of the address buffer 3 and the data buffer 5 is effected.

The following describes the operation in the case where the dot pattern such as the symbol Q is on the 5000th to 5007th address in memory 8 with direct access to an area of the cathode ray tube display, for example with the position 32, is displayed at the data, for example the letter A for any preceding Ad had been displayed. This working process is described below with the aid of the flow chart of FIG. In this case, the given data is available while the position symbol at position address 32 is displayed on the screen becomes what is done according to the program that is given as

G OUT AS (F, N) (1)

where F denotes one of the data 0, 1 and 2. F = O indicates that the data for a dot pattern is from memory 8 with direct Can be viewed directly. F = 1 indicates that the data previously displayed on the screen and the Data pattern from memory 8 with direct access, i.e. the point pattern both displayed in the form of their OR link will. F = 2 indicates that from the previous data on the screen and from the data from memory 8 with direct Access, i.e. from the point pattern the common points in Form of the AND link of this data are displayed. In of equation (1), N is the number of characters, i.e., the

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Point patterns that are to be read from the memory 8 with direct access.

If, in the present case, the character D is to be read from the memory with direct access in order to display it in the area of the position address 32, then N "= 1. Likewise, F = 1, since it is to be displayed via an OR display. The data F = 1 are written into the F register in Fig. 2 in the central data processing unit 1. Under the control of the central data processing unit 1, the data processing according to Fig. 5 is started and the first program step Sj is executed position address multiplied 32 by 8, to obtain a video pointer 256, which is stored in the V-register in Fig. 2 in the central data processing unit 1. These video pointer provides the address data for the video memory 10 with direct access. in a program step S ₂ are then the programmed data N = 1 is placed in the C register in FIG. 2 and in a program step S ₃ the data 1 in the C register are also transferred 8 is multiplied to get the data 8, which in turn is stored in the C register. In a following program step S ₄ , the 5000th address, which is the first address in the pattern table, is located as input data at the T register in FIG labeled with direct access. In a program step Sr it is then checked whether N = 0. In the present case, N = 1, so that the data processing goes to a program step S ₆ in which the data 11111111 at the 5000th address of the pattern table are read out according to the information provided by the content of the table reference address and to the A register in FIG are transmitted in the central data processing unit 1 in order to be stored there. In the following program step S ₇ , the data

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~ ¹³ "30A6972

N = 8 in the C register 1 is deducted and the result 7 ■ is written back into the C register. The content of the data F in the central data processing unit 1 is then checked in a program step Sg. In the present case, F = 1, so that the program goes to program _{step S 9} , in which the data at the address of the memory 10 with direct access, which is indicated by the video pointer address 256, is read out and transferred to the B register in. Fig. 2 are transmitted to be stored there. In the following program step S ₁ Q, the data in the A register and the data in the B register are linked according to the logical OR function and the result is stored again in the A register. In the subsequent program step S ₁₁ , the result specified above, which is stored in the Α register, is written to a location in the video memory 10 with direct access, the address of which is identified by the video pointer address 256. The video pointer address 1 is then added in program _{step S 12} and the table pointer address is also added in a program _{step S 13} 1. As a result, the video pointer address 257 is stored in the V register and the table pointer address 5001 is stored in the T register. In the following program step S-. a check is carried out to determine whether the content of the table reference address has been updated by an amount that corresponds to one character. Since the result of this check in this program step is negative at this point in time, the data processing returns to program step S ₅ . During the above-described operation, data obtained as a result of logically ORing the data 11111111 at the 5000th address of the direct access memory 8 constituting the dot patterns and the data in the first line of the area defined by the video pointer address 256 is designated, ie the area of the position address 32 , on one. Inscribed space of the video memory 10 with direct access.

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identified by video pointer address 256.

After the execution of the program _{step S-, the program step S 6 is} executed in which the data 10000001 at the 5001st address of the memory 8 are read out with direct access and stored in the Α register. Then the program _{steps S 7} to S _{13 are} executed, whereby the data, which as a result of the logical OR operation of the data of the 5001st address of the memory 8 with direct access and the data on the second line of the area with the position address 32 in the memory 10 can be obtained with direct access in the second row of the memory location of the memory 10 with direct access, which is designated by the position address 32, ie by the video pointer address 257. After program step S ₁₄ , the program returns to program step Sr.

If the OR data of the data at the 5002nd to 5007th address in the memory 8 with direct access on the one hand and the corresponding data in the lines that are stored at the addresses of the video memory 10 with direct access, which are indicated by the reference addresses 258 to 283 are designated, on the other hand, are then calculated and written to the memory locations that are designated by the video pointer addresses 258 to 263 by the program steps S ₅ to S ₁ -. are repeated, it is determined in the next program _{step S 14} that the processing on the above symbol Q indicated by the table pointer has ended. The program then goes to a step S ₁₅ , in which it is checked whether N = 0, ie whether the data processing has ended with regard to all characters. Since in this case N = O after program _{step S 7 is} repeated 8 times, the entire program ends. In this way, the data for the symbol Q residing in memory 8 with direct access

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are stored in an area with the position address 32 on the CRT display unit 15 with the letter A, which was previously displayed on this area alone. The resulting OR data, namely, a dot pattern Q is redisplayed in other words.

If the AND data from the data in the memory 8 with direct access and from the data in the video memory 10 with direct access are to be displayed on the screen of the cathode ray tube display unit 15 in this exemplary embodiment, F = 2 instead of F = 1 in the program according to equation (1 ). In this case, after the program step S ₁ g, which is the same as the program step S _g in the case of the display of the OR data, the two data are linked according to the logical AND function in a program step S. ^ so that only the common points are displayed in the dot pattern of the above-mentioned symbol Q ^{and the} letter A in the area of the position address 32. If N = O and the program of equation (1) is present, a program step S ₁₈ is also carried out after program step S 1. In program step S ₁₈ the data 0 are written into the Α register. In this case, no data is read out from the pattern table in the direct access memory 8, so that the display remains unchanged in the case of the OR data display and disappears in the case of the AND data display. Furthermore, if F = O and the program of equation (1) is present, step S-. executed after program step S ". In this case, as in known CRT display devices, the dot pattern, ie the symbol Q from the pattern table, is written in an area with the position address 32 in the video memory 10 with direct access, so that the letter A, which was previously written with the position address 32 of the CRT display, is deleted and the Q icon is displayed instead.

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If N = 2 or greater and the program of the equation

(1) is applied, a dot pattern is read out at the 5008th and the following addresses, so that data over processing according to the flowchart of Fig. 5 can be obtained in a similar manner at each area having the position address 32 and the following position addresses on the CRT display 15 are displayed. By choosing N = 2 or greater, several consecutive Dot patterns are simultaneously read out from the memory 8 with direct access in order to use them as OR data or as AND data on the cathode ray tube display 15.

The following describes the operation for the case that data on the screen of the cathode ray tube display 15 are read and transferred to the memory 8 with direct access in order to store them there. In this case the given data will be according to a program

G IN AS (X, N) (2)

linked, where X is the position address of the video memory 10 with direct access and N is the number of times to be read out Sign designated. If a dot pattern, such as the symbol Q, located in the area of position address 32 is displayed, transferred to the pattern table of the 5000th and following addresses in memory 8 with direct access is, when executing the program according to equation

(2) X = 32 and N = 1 set.

When the program sequence begins, which is shown by the flowchart in FIG. 6, the data X are at the A register in the program step S _{? 1} and the data X are multiplied by 8 in order to obtain data 256, which in a program step S _? "Can be saved in the Α register. Subsequently, in a program step S _23, the data N are in the B register, the data N being multiplied by 8 in order to obtain the data 8 which are stored in the B register in a program

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step Sy. get saved. In the following program step

5 ₂₅ , the 5000th address, which is the first address of the pattern table, is stored as the pattern hint address 500 in the T register. Then in one program step

5 ₂₆ reads out the data 11111111 from the address of the memory 10 with direct access, which is indicated by the data 256 in the Α register, and this data is transferred to the A register to be stored there. In a program _{step S 37} , the data in the A register 1 is added to obtain data 257 which are written into the Α register. Then, in a program _{step S 28,} the data 11111111 are read out in the C register and written to a location in the memory 8 with direct access, the address of which is indicated by the table _{reference address 500 in the T register, while in a program step S 29} the table reference address 1 is added 'to get a reference address 5001. In the subsequent program step S-> Q, the data in the B register 1 is added to obtain the data 7, which is rewritten into the B register. In a program step S ^ _{1, it is then} checked whether the data in the B register are equal to 0, ie whether the reading of the symbol Q has been completed. At this time, the response of this review is negative, the program returns to the program step S _26th If the program _{steps S 36} to S ₃₁ are repeated 7 times in succession, the dot pattern for the symbol Q, which is displayed in the area of the position address 32 on the cathode ray tube display 15, is completely written to the 5000th to 5007th address of the memory 8 with direct access .

When several consecutive dates on areas at the same time the position addresses that follow the position address are read out and these addresses are transferred to the 5008. and the following addresses of the memory 8 are transmitted with direct access, N = 2 or greater for the

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Linking the data according to the program according to the equation (2) set. The data, i.e. the image information that read out in the manner described above and written into the memory 8 with direct access, can be processed in the central data processing unit 1 for the purpose of various analyzes.

Although the embodiment described above was related to a cathode ray tube display device, FIG the training according to the invention also in various other data output systems, for example applicable to printers.

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L e r s e i t e

Claims (2)

PATENT CLAIMS 1 J dot pattern control device, characterized by an output memory (10) in which display data or print data are stored in the form of dot patterns of individual characters, a device (9) for designating the addresses of the output memory (10), a device for reading out the dot pattern in Form of individual characters of spaces with addresses designated by the means (9) for designating the addresses _; and a main memory (8) for storing the 130039/0934 Dot patterns read out by the reading device
will. ^ 2. Dot pattern control device, characterized by a memory device in which the dot patterns of individual characters are stored, a device for reading out the dot pattern stored in the memory device as individual characters and a device for displaying or printing the through the
Reading device read out dot pattern. 130039/0934