JPS6019355A - Document forming device - Google Patents

Abstract

PURPOSE:To apply editing again by providing a pattern input section reading a pattern data in the range fitted with a mark and preparing in advance weighted information corresponding to shrinking and magnification of the pattern so as to insert the pattern shrinked or magnified in matching with the lateral width of an input designation frame with the priority over sentence input, thereby shifting forward/backward the sentence when duplication or space is produced. CONSTITUTION:The desired pattern data read and cut by a pattern input section 4 is converted directly at a shrinking and magnification conversion processing section 5 in response to the shrinked or magnified rate inputted in advance (ratio of pattern width described on a document or an input designation frame width secured in advance to a pattern width to be cut from other sheet), and the converted data is stored in a pattern data memory 6. The operator moves the desired pattern displayed on a display device 11 to the desired position of the document. That is, the document 1 in Fig. I is obtained. Then a character is inputted from a character input keyboard 7, and the inputted character is stored in a document data memory 9 via a document forming processing section 8.

Description

[Detailed Description of the Invention] Technical Field of the Invention The present invention relates to a document creation device, in particular, when cutting out a part of a figure from a figure published in a separate sheet and inserting it into an input designated frame in a document, The present invention relates to a graphic input device (IffT) that reduces or enlarges a graphic while cutting it out, and converts a portion of the graphic to be cut to the horizontal width of an input designated frame in a document.

03) Background and problems of the technology In the past, when trying to make a document creation device capable of processing graphics, it was necessary to record the shape to be inserted in advance using a graphics input device and store the data for the entire shape in memory. Then display this on the display device, specify the necessary part and extract it, and document l-8! - Cut the image into the desired position in the screen, and follow the instructions to create and input sentences in the space provided.

However, if the figure to be inserted is not immediately at hand, there is no need to wait for the sentence creation input.

Also, if you do not like the waiting state, you will have to leave a rough space for the figure to be inserted, and then create and input the sentence.In this case, when inserting the figure with If the shape protrudes from the specified frame,
There were drawbacks such as the graphics to be inserted being smaller than the size n-, which caused the document to become unbalanced.

When posting figures in a document in the manner described above, it may be necessary to memorize an entire page of figures, or it may require a large memory capacity.In addition, unnecessary figures may be stored in memory. In order to prevent this, there is a method of marking or coloring the paper on which the figure is drawn to indicate the reading range, and inputting a part of the figure based on the detection of this mark or color and storing it in memory. Q: However, in this case as well, you first store it in memory, then display it on the display device, and while looking at the figures displayed on the display device, consider the overall layout and arrange it, and then use the memory for creating sentence 1. 0 If it is necessary to reduce or enlarge the figure stored in the memory, it is reduced or enlarged at this stage and transferred to the document creation memory. This requires a two-step process of setting the image in advance and then scaling it down to the desired size, which has the drawback of taking too much time.

C) Object and structure of the invention The present invention aims to solve the above-mentioned drawbacks.
Detects marks (including color marks) that indicate the range of the figure to be read, and fits the cut figure within the specified input frame width on one page displayed on the display device (
In addition to reducing or enlarging the figure memory capacity by reducing or enlarging it so that the horizontal width matches the width, if sentences have already been input into the document, the text is prioritized and adjusted to the width of the input specified frame. To provide a document creation device which shifts a sentence by shifting it forward or backward, re-editing it, and shifting characters when an overlapping or blank figure is generated by inserting a small or enlarged figure.

Therefore, the document creation device of the present invention is equipped with a character input device and a graphic input device, and in the document creation device H, which creates a document containing a mixture of characters and graphics, a part of the graphics can be extracted from the graphics shown in Appendix-C1. It detects the marks made for cutting, reads out the graphic data in the range where the marks are located, and looks down at the graphic input section, and also prepares information in advance for the size and size corresponding to the scaling factor of the shape. Then, the size is adjusted to fit the width of the specified frame in the document based on the information, and the figure reduction/enlargement processing unit performs enlargement processing to edit and enlarge the figure data in order to insert the cut out figure. The drawing below Q is characterized in that it is equipped with a graphic input device that performs a graphical conversion process to reduce or enlarge a graphic within a marked range or enclosure to be cut out from the graphic into a specified frame in a document. I will explain while referring to it.

0 Embodiment of the Invention Figure 1 (1) or ■ is an editing process for character input when a part of a figure is cut out from a figure on a separate sheet and a figure that is reduced or enlarged to fit the designated input frame width of the document is inserted preferentially. FIG. 2 is an explanatory diagram illustrating the configuration of an embodiment of the document creation device according to the present invention, and FIG. 3 is an explanatory diagram illustrating the configuration of an embodiment of the document creation device according to the present invention, and FIG. An example of the structure of the figure input section and the reduction/enlargement conversion processing section until it is stored. FIG. 4 is an explanatory diagram explaining how to make the figure data smaller and smaller when it is reduced. FIG. Figure 6 is an explanatory diagram explaining the reduction processing process, Figure 7 is a time chart for the reduction operation,
Figure 8 shows an example of weighted data in the case of enlargement, Figure 9 is an explanatory diagram explaining the enlargement processing process, Figure 10 is a time chart of the enlargement operation, and Figure 11 shows the figure. Each represents enlarged graphic data stored in the data memory.

In Figure 1, the figure (1) is a J-piece cut out from the attached paper.
This shows a desired figure that has been shrunk or enlarged to an excessive size in consideration of the paper space of document 1, and then placed in the position of the document 1 marked with a mark, for example. The range represented by C is the graphic human frame 2, that is, the desired figure cut out from the separate sheet is reduced or enlarged to the size of the graphic human frame 2, and is transferred to the position of the graphic human frame 2 in the document 1.

-t, the text is entered in the margin, and a document containing a mixture of characters and graphics is created. FIG. 6(6) shows an example in which an input designation frame 3 into which a figure is inserted is secured in advance in the document 1, and a sentence is input thereon. 010 of the same figure is the same figure (
When a figure to be inserted later in the document 1 in 2) is inserted into the input specifying frame 3 with a thickness a that matches the width of the input specifying frame 3, the vertical scale of the input specifying frame 3 is This is an example of a sentence where the incorrect letter A extends to the line where it is crossed, and the characters that overlap with the inserted figure are shifted to the next line and the sentence is not edited. Figure gV) shows a document in which a completely white area appears and the balance becomes unbalanced compared to the case of figure f, and the text is re-edited by shifting the characters to the line in the blank area.

The process of reducing or enlarging the blank figure cut out from the attached sheet to the specified size of tar or the size of the input designation frame 3 of the document secured in advance, and the process of reducing or enlarging the unused figure cut out from the attached paper to the size of the input designation frame 3 of the document that has been reserved in advance
When reducing or enlarging the image and inserting a ζ figure, unless there is overlap with characters or a blank space, processing must be performed to shift the characters and rearrange the sentence.

The above processing is performed by an embodiment of the document creation apparatus according to the present invention shown in FIG. 2, which will be described next.

In FIG. 2, 4 is a graphic input section, 5 is a reduction/enlargement conversion processing section, 6 is a graphic data memory, 7 is a human character keyboard, 8 is a document creation processing section, 9 is a document data memory,
10 represents a display control unit, and 11 represents a display device.

A mark for reading a desired figure among the figures described on the attached sheet is attached in advance to the range to be cut out, and the figure is read by the figure input section 4. The data of the desired figure cut out by the figure human power section 4 is calculated using the pre-input reduction or enlargement magnification (the width of the figure when reprinting it in a document or the designated input frame width secured in advance in the document and the attached sheet). The reduction/enlargement conversion processing unit 5 directly converts the data according to the width of the figure to be cut out, and the converted data is stored in the figure data memory 6 (this series of direct reduction/enlargement processing will be explained later). (Details will be explained) 0 The data stored in the graphic data memory 6 is read out by the display control section 10 and displayed on the display device 11. The operator moves the desired figure displayed on the display device 11 to the desired position V (IQ) of the sentence 1. In other words, the document 1 shown in FIG. 1(1) is obtained.

Thereafter, characters are input from the character input keyboard 7, and the input characters are stored in the sentence-714 data memory 9 via the document creation processing section 8. At this time, the character data stored in the document data memory 9 is stored at the address excluding the L@ where the figure of the previous flL IJl ya is displayed on the display device 11. Based on this, I cut out a part of the figure from the figure published in the attached sheet, made it to the desired size, and then made iM-1 white as desired for Bunkami 1.

A document containing a mixture of figures and characters arranged in ls4. is displayed on the display device 11, and ls4. IPrinted with a printer, etc. not shown.

In addition, if you do not have a figure to be reproduced at hand, reserve an input designation frame 3 for the figure to be inserted later in the document 1 in advance, etc., and enter characters except for the part of the input designation frame 3. Use the keyboard board 7 to write the sentences as shown in Figure 1 σO Sentence 1
Store it in the data memory 9. After that, the figures to be reproduced are taken by the figure manpower section 4, and the letter board 7 is used.
According to the width of input designation frame 3 specified by the input from (this specified position can be specified as the digit position), that is, the front W
The graphic data read by the graphic input section 4 is directly converted in the reduction/enlargement conversion processing section 5 according to the 2A/2A/2A/2A/small or enlargement magnification, and the converted data is stored in the graphic data memory 6 in the same manner as described above. Tsubuisplay fljtl N )
When the data stored in the figure data memory 6 is scattered by fil 10 and displayed on the display device vertically 11, the figure to be inserted at the position of the input designation frame 3 previously set in the document 1 is , the width will inevitably match, but the calculations will be incorrect in the direction beyond input designation frame 3, and when AM is done with the character that was input earlier, a white part will occur, and the character that was input earlier will be displayed. 11 letters and figures
If \-tν is selected, the overlapping character parts are shifted to the next line in the document creation processing unit 8 and are
Processing is performed, and the document data memory 9 is stored in Figure d41 (II
I) Bunsei data is rewritten as shown. In addition, if a white area occurs between the previously input character and the figure inserted in the input designation frame 3, the document creation processing unit 8 1...J, the character is shifted forward, and 'iIf editing processing is performed, and the father 11
As shown in FIG. 1 (IV) in the data memory 9, the 'f4 data is also rearranged.

Next, using Figure 3, cut out a part of the C1 shape published in the attached sheet, and directly obtain the data of the small or enlarged figure in Figure C2 to explain how to obtain the data.
11' is an image sensor, 12 is a lens, 13 is a sheet of paper (9 is the one on which the dark figure is printed, 14 is an image sensor circuit, and 14 is an image sensor) 11' generates a start pulse and a clock signal in order to continuously output signals in the transverse direction; 15 is a counter that receives the address (number of bits) of the signal output from the image sensor 11; 16 is an amplifier, and 17 is an analog-to-9-digital converter that converts the signal output from the image sensor 11' into a binary number 1g of white and black. Paper 1 on which the 18 mark detection circuit and the Fj + desired figure to be cut out is printed.
3 detects the mark written in, 19 is a shift/
Ii? of the ℃ mark detection circuit 18 in the register? +, a register in which a sufficient number of scans of valley binary data to detect a mark indicating the range to be taken is stored while being constantly shifted, and when the mark detection circuit 18 detects a mark in The address of the image sensor 11 at that time is set, and 21 is 1 small size for enlargement.
111ili which controls the entire device for reducing and enlarging the output signal from the image sensor 11';
2 is the figure that should be read because there is an output circuit for increasing the re-width.
When the range is scanned, a reading width signal (iDI-IE) is issued, and 23 is conversion data it or vi, and 4! each is conversion data for enlarging and reducing. 24 is an address counter that accesses the ROM 23Y, 25 is a conversion gate that gates the output from the ROM 23 based on the data 1L)O from the register 19, and a control circuit to be described later. 2
6 performs the conversion of 1 in combination with the vertical weight data stored in memory, 26 is a ttflJ control circuit that controls each part based on the reduction/enlargement ratio, 27 is a clock generation circuit, and 28 is a This represents a selection circuit that selects data to be sent to the graphic data memory.

In addition, 29 is a Jlh large/reduction processing unit, 30 is an addition 42 circuit which falsifies the final nail data that calculates the average density at the time of reduction, and 31 is a register that inputs the addition result. 32 is a comparison circuit; 33 is a register that provides a threshold value as a reference for comparison by the comparison circuit 32; 34 is a selection circuit; 35 is a memory for storing one line of the result of enlarging the reduced book; 36 is address 1 counter, 3
7 represents a register, and 38 represents a selection circuit which provides input to the adder circuit 30, respectively.

For example, 1/1/8 with reference to Figures 4 to 7 below.
In other words, the case where the reduction ratio is selected to be 1/1.8 will be conceptually explained.

Now suppose that there is a figure (binarized) 39 as shown in FIG. 4 (1), and each mesh 39-11, 39-12
．． . . , 39-21 . . . exist, and when reducing the figure to 1/1.8, the area reduced to 1/1.8 for the figure 39 is shown in Fig. 4. (II) Dotted line area 40-11.40-12.・・・・・・、4
0-21. Consider a state in which ...... are superimposed.

In the case of the embodiment, the area ratio at which one mesh 39-i) effectively works on one dotted line region 4O-IJ is given by weights raJ, r2J, rlJ, and roJ. For example, the mesh 39-11 shown in the figure is given a weight of "3", and the product 3×0° with the content "0" of the mesh 39-11 is the logic rIJ, rOJ for the dotted line area 4O-ii. Accumulate for judgment. In this result, one dotted line area 4O
When the cumulative p value corresponding to -IJ is equal to or greater than the value "4", if a logic "1" is given to the area 4O-IJ, the result is a reduced figure 41 as shown in FIG. 4 (IT). The enlargement/reduction processing section 29 shown in FIG. 3 may be considered to perform the above-mentioned processing.
The mesh 39-34 has a weight of “1” and the mesh 39-34 has a weight of “1”.
35 has a weight of "3", and meshes 39-36 have a weight of "1".
'' minutes, mesh 39-44 weighs 10-1 minutes, mesh 39-45 weighs ``21 minutes, mesh 39-4
Based on the fact that 6 is "0" in the east, it is accumulated in the form of upper Ml-1, and the value is greater than "4", so it is logical "1" as shown in FIG. 4 (IIT). It is said that

When the reduction ratio is calculated and determined at the enlargement/reduction side (n'll Ml (21), the threshold value "4" for the comparison circuit 32 is
” is set in register 33. Mat2ROΔ12
The access address for 3 is address-counter 2
Set to 4. Since the address corresponding to the mark detection position is set in the register 20, when the scanning address, that is, the contents of the address counter 15 indicates the value of the register 20, the reading width signal output circuit 22 outputs the signal 1D.
The address counter 24 is activated by setting RE to H level, and the address counter 24 is read from the ROM 23 to the address counter 39.
= ij The data corresponding to the reduction ratio is read out in a form corresponding to Figure 4 (1) Shown mesh 39-11.39-12
．． 39-13. It is read out in response to...
Vertical position 39-1J at, 39-z 't
, 39-3J position, . . . may be considered to be given.

The shift register 19 outputs the graphic data positive DO with the scanned data, and the weight data corresponding to 1oo=x is supplied to the addition rl: circuit 30. The J sweetness data supplied to the input terminal A of the adder circuit 30 is composed of horizontal M data (data string shown in FIG. 5) and vertical weight data (5th In other words, the adder circuit 30 adds the values of the input terminals A and B and sets them in the register 31. When the value supplied to the terminal A is "3", the weight data corresponding to the other mesh is added to the internal value of the register 31 and set in the register 31 again. , when adding weight data corresponding to the mesh in the horizontal direction, the division is finished by adding the weight data corresponding to the mesh in question, but when further adding the weight data corresponding to the mesh in the vertical direction (the division in the vertical direction When the data is "3"), it passes through the selection circuit 34 and is transferred to the 1st line input circuit 35.

FIG. 4 (6) The threshold value "4" stored in the register 33 and the contents of the register 31 (accumulation result) in the result of the accumulation corresponding to one dotted line area 4O-4J shown in the figure.
are compared by the comparator circuit 32, and the cumulative n-result is the value 1.
-4f or more, logic [1] is output and selection circuit 2
8 and is supplied to the graphic data memory. The addition J-1 processing in the adder circuit 30 is actually executed in two phases, and FIGS. 6 and 7 are different from those shown in FIG.
1) A time φ chart corresponding to processing when the illustrated figure 39 is multiplied by 1/1.8 is shown.

Next, we will conceptually explain the case of enlarging the figure 39 as shown in FIG. , the access address for ROIVI 23 is set in address counter 24. Then, when the signal 1oRz is applied in the same way as in the case of reduction, the enlargement rate 1 is read from the ROM 23 in response to the mesh 39-i'.
The enlarged weight data corresponding to .degree.8 is read out as shown in FIG. In this data, the same mesh content is adopted twice at the position with the value 1-1, one time at the position with the value 10J, and three times at the position with the value 12. .

Data lDO from the shift register 19 is sent to the selection circuit 28
At this time, the strobe signal 1DSTRB is sent to the control circuit 26 based on the stop data (Fig. 8) VL from the ROM 2S.
When all data are outputted from the ROM 23 and simultaneously written to the one-line memory 35, it is based on the data set in the control circuit 26 at the beginning of each scan, that is, the vertical data from the ROM 23. The data for one scan is repeated two or three times as enlarged data (selection circuit 2
8) to the graphic data memory.

FIGS. 9 and 10 show time charts representing Mr. B on whom the above enlargement process is performed.

In the case shown in FIG. 9, a time number chart mainly corresponding to horizontal enlargement processing is shown, and in FIG. 10, a time chart corresponding to vertical enlargement processing is shown. FIG. 11 shows the figure 39 shown in FIG. 4(1) in the horizontal and vertical directions, respectively, corresponding to the data shown in FIG.
．． It represents an enlarged figure multiplied by 8. The * mark in the diagram indicates one location that was used twice.

(g) As described in detail, according to the present invention, it is possible to reproduce figures and create nine sentences.

Furthermore, even if the text is created by predicting the placement position of the figure and removing blank spaces, the text is automatically corrected even if the blank spaces are not correct.

In other words, the horizontal direction is matched by the enlargement/reduction ratio, and the vertical direction is as shown in Figure 1 (III) (IV).
matched by the process described in 1 in connection with
In addition, it is possible to sequentially import only necessary parts of graphic information during scanning.

[Brief explanation of the drawing]

Figure 1 (1) or IV) explains the editing process for character input when a part of a figure is cut out from a figure on a separate sheet and a figure that has been reduced or enlarged to fit the designated input frame width of the document is inserted preferentially. Figure 3 is an explanatory diagram showing the construction of an embodiment of the large needle making device according to the present invention, and Figure 3 is the diagram of figure 2 shown in Figure 2.
Figure 4 shows the actual flow of the graphic input section and the small enlargement conversion processing section until the graphic data is reduced or enlarged and stored in the graphic data memory from li to the graphic data memory. The explanation that explains how to do this is 1, Figure 5 is an example of the skewer 1'' data in the case of reduction, Figure 6 is an explanatory diagram that explains the fine processing N\i, and Figure 7 is A time chart for the reduction operation, Fig. 8 is an example of the data for enlargement, Fig. 9 is an explanatory diagram explaining the enlargement processing process, and Fig. 10 is the enlargement operation. Time in
Chart, Figure 11 is Figure 11? Each represents enlarged graphic data stored in the data memory. In the figure, 1 is a document, 2 is a figure input frame, 3 & yo input specification frame,
4 is a figure input section, 5 is a reduction/enlargement processing section, 6 is a figure data memory, 7 is a character input keyboard board, 8 is a plaster creation process, 11 is a document data memory, 9 is a document data memory, and 10 is a The display control unit 11 represents a display device. Patent applicant Fujitsu Ltd. Representative Patent Attorney Mori 1) Hiroshi (1 other person) 1st Flash (I) (] [1 (II) (ff) Figure 2 [-39-21i [

Claims (2)

[Claims] (1) In a document creation device that is equipped with a character input device and a graphic input device and that creates a document containing a mixture of characters and graphics, marks attached to cut out a part of the shape from the shape shown in the attached sheet. It is equipped with a figure input section that detects the figure data and reads the figure data in the range to which this mark is attached, and also prepares information in advance for weighting corresponding to the reduction/enlargement magnification of the figure, and the weighting is performed based on the information. A figure reduction/enlargement processing unit is provided which performs a process of reducing or enlarging the figure data in order to insert the cut figure according to the width of a specified frame in the document, A document creation device characterized by being equipped with a graphic input device that performs graphic conversion processing to reduce or enlarge a graphic into a designated frame in a document. (2) In a document creation device that is equipped with a character input device and a graphic input device and that creates a document containing a mixture of characters and graphics, the mark attached to cut out a part of the shape from the shape shown in the attached sheet. A figure input section is provided for detecting the figure and reading out the figure data in the marked range, and information is prepared in advance for weighting corresponding to the reduction/enlargement magnification of the figure, and the weighting is performed based on the information. 11 next to the specified frame in the document
a figure reduction/enlargement processing unit that performs a process of reducing or enlarging the figure data in order to insert the cut figure in accordance with y,−,; It is equipped with a graphic input device that performs graphic conversion processing of reduction/enlargement in the designated frame within the document, and also has 111 incisions in the pre-secured input designated frame in the document. When inserting a scaled figure of two figures, if the figure protrudes vertically from the input specified frame, one of the protruding figures
If the duplicate characters for 11 minutes are shifted backwards and a blank space is created due to a lack of figures in the vertical direction from the input specified frame,
The character input device is equipped with a document creation processing unit that shifts the characters previously input into the blank mlS and reedits the document, and shifts the characters according to the vertical excess or deficiency of the figure inserted in the specified input frame. A document creation device 0 characterized in that it creates a document by performing