JP2547799B2 - Document processing method - Google Patents

Description

Description: TECHNICAL FIELD The present invention appropriately displays information accompanying movement of specific element information.
It relates to a document processing method that can be controlled.

[Conventional technology]

In the conventional tabulation method of a document processing apparatus, by moving a ruled line, a cell (a rectangular area surrounded by the ruled line) that is an area for inputting and displaying characters is displayed in the cell when the cell is no longer a cell. The characters that were used were no longer displayed.

This will be described with reference to FIG. C1 in FIG. 2A is a cell surrounded by horizontal ruled lines H1 and H2 and vertical ruled lines V1 and V2.
The characters in the cell are retained by the horizontal ruled line at the top left edge of the cell.

In FIG. 2 (a), the character T1 is held by H1.

For example, when the vertical ruled line V1 in FIG. 2 (a) is moved to V1 'as shown in FIG. 2 (b), the cell C1 in FIG. 2 (a) is no longer a cell and the characters are not displayed. However, H1 ′
Keeps the letter T1. However, the above method has a drawback that some data is invisible to the operator, that is, not used.

〔Purpose〕

In view of the above points, an object of the present invention is to store text information to be displayed in a cell in correspondence with specific segment information,
With the movement of the specific segment information, whether or not the specific segment information to be moved constitutes a new cell, the text information to be displayed in the cell corresponding to the specific segment information, An object of the present invention is to provide a document processing method capable of controlling whether to display in the new cell.

〔Example〕

Hereinafter, the present invention will be described in detail with reference to the drawings. In addition,
The document referred to in the present invention is a generic term including sentences (including tables), figures, images and the like. Further, as long as the functions of the present invention are executed, whether it is a single device or a system composed of a plurality of devices, it is a system in which processing is performed via a network such as a LAN. Needless to say, the present invention is also applied. It should be noted that the document processing of the present invention originally has a basic idea of electronically performing a process in which a person draws on a desk with a pen or the like, and all the terms such as “draw a line”, “move” ... This is due to electronic processing.

[System Block Diagram] FIG. 1 is a system block diagram of a document processing apparatus according to an embodiment of the present invention. 1 is a CRT unit used in the raster scan display method, 2 is a video RAM (VRAM) that stores display pattern information for one screen, 3 is a display control that controls writing of pattern information to VRAM2 and reading to CRT1 It is a department. 4 is a microprocessor (MPU), which is the main control of this device. Reference numeral 5 is a main memory having an area for storing a control program and document data as shown in a flow chart described later. The MPU 4 is connected with a keyboard 8 for inputting character data and the like, and a pointing device (hereinafter referred to as PD) 9 for designating a position on a CRT and inputting and editing data such as graphics. A hard disk device 6 stores a document file, programs and character fonts as shown in a flow chart to be described later.
A printer 10 for outputting the created document has a double-sided output unit and the like. Reference numeral 11 is an image scanner for reading image data such as an image, and 12 is a floppy disk device for storing a document file. Each of these component blocks is connected by an I / O bus 7.

[Document Editing Screen] The document editing device having the above-described configuration displays characters on the CRT1 according to the typesetting rules, the arrangement of the characters and the print type, and is responsive using the keyboard 8 and P.D9. The document editing method can be performed on an arbitrary area on the screen or an area surrounded by a frame. 3-1
The figure shows an example of a document edit screen. Reference numeral 20 is a cursor operated by a PD, and 21 is a paper window in which a print format is displayed on the screen. As shown in Fig. 3-2, the character 5
Data of 0, figure 51, image 52, and form 53 can be input. Priorities are determined for each of them, and the form, the image, the figure, and the character are superimposed and displayed in this order. The table set described below is considered to be equivalent to the above characters. Reference numeral 22 in FIG. 3-1 is a user menu for displaying a kana-kanji window for inputting characters and a function selecting function key. Reference numeral 23 is a status line for displaying keyboard input modes and messages for the operator. 24 is an area (hereinafter referred to as a frame) that is opened on the paper, and data of characters (subsets) or tables and graphic images can be entered in the frame, and like the paper, they are displayed in an overlapping order according to each priority. To be done.

[Word Processing Editing] Next, each editing function will be described. Word processor editing,
It is possible to input and edit characters on a sheet or frame.
Characters are input using functions such as Roman-Kana conversion and Kana-Kanji conversion. A format is assigned to each paper, and the paper size, the position of the printing plate which is an area for inputting and editing a document in the paper, the number of columns, the number of lines in a column, the character size for this line, the typeface (clear Morning, Koshikoku, etc.), page numbers (page numbers), columns (headings of margins), etc. are defined. Characters are assembled and displayed or printed according to this format. In addition, the editing function can be used to partially change the font size, typeface, character modification such as underline, emphasis mark, ruby, superscript, and subscript, centering, right justification, left justification, and even justification. Furthermore, it also has a search and replace function for searching a character string and replacing it with another character string. It also has a floating frame editing function for moving, inputting, and deleting characters, moving following the characters, opening the floating frame, changing the size, and deleting.

[Figure editing] Next, figure editing is to input figures such as straight lines, circles, rectangles, and ellipses, change face types and line types, move figures, copy, delete, transform, rotate, enlarge, reduce, etc. It is composed of layers of multiple layers, and each layer can be displayed and edited independently, and it has a multiple layer structure that allows multiple layers to be displayed in an overlapping manner.

[Image editing] Image editing is to input images from Imagescanner,
It has functions of rotating, reversing, moving, copying, erasing image data, editing by one dot unit, dot unit editing, and trimming for cutting out image data partially.

[Fixed frame editing] Next, unlike fixed frames, fixed frame editing opens a frame at a fixed position on the paper, and opens a frame that does not depend on the movement of characters.
It has functions such as size change, move, and delete.

[Table Processing] Next, the table processing, which is the core of the present invention, will be described.
The table set can be edited in a frame that does not contain a sub-set. The functions can be roughly divided into two: ruled line editing for drawing, moving and deleting ruled lines, and character editing for entering characters, modifying underlines, ruby, etc. The purpose of ruled line editing is to draw a ruled line to create a table and create a rectangular area called a cell surrounded by the ruled lines. Characters can be entered in this cell. The purpose of character editing is to input characters into cells created by ruled line editing. By using these two editing functions, a good quality and complicated table can be created quickly and easily.

[Table Set Data Table Layout] FIG. 4 is a diagram showing an example of the layout of the table set data table, which is a part of the document data in the hard disk, and includes a control table ruled line table, a text table, and a cell (see FIG. 5-2). It is composed of an attribute table. The control table is for managing the entire table data table. The stat stores a number indicating the table data format. The measr stores control information for conversion from the internal storage coordinate unit to the CRT or printer coordinate unit. Next, the offset and count of each of the slanted line, horizontal line, vertical line, text, and cell attribute are stored. The offset is data indicating the starting point address of the table area of the diagonal line, horizontal line, vertical line of the ruled line table, the text data table, and the cell attribute table. The count indicates the number of each record of slanted line, horizontal line, vertical line, text, and attribute.The number of slanted line records is n1, the number of horizontal line records is n2, the number of vertical line records is n3, and the number of text records is n4.
There are n5 cell attribute records. With these offsets
You can grasp the area of ruled line table, text table, and attribute table by count.

[FIG. 4 Ruled Line Table] The ruled line table is a collection of information on diagonal lines, horizontal lines, and vertical lines. POS (x, y) stores the start position of each line. The line style stores information indicating the line type of each line such as a solid line and a one-dot chain line. The line width stores information on the thickness of each line. The flag stores the lock information of each ruled line. In round, the information of rounding the corner of the intersection of the horizontal line and the vertical line is stored. The length of the horizontal line record and vertical line record stores information on the length of each line.
The diagonal w-length and h-length store information on the horizontal and vertical lengths, respectively. The text offset of the horizontal line record stores the offset indicating where in the text table the text data corresponding to the cell formed by the horizontal line is stored. If the text is not included, a value of -1 is stored. According to the start position information indicated by POS (x, y), each record of the ruled line table is arranged in a diagonal line, a horizontal line in ascending order of x coordinate value, and a vertical line in ascending order of y coordinate value. It should be noted that the ruled line may be referred to as a segment forming a cell.

[Fig. 4 Text Table] The text table is composed of variable length text records. Attribute offset is where in the cell attribute table the attributes of the text, such as the direction of writing (vertical writing / horizontal writing), the size of characters, the character alignment such as left, right, centering, line spacing, character spacing, etc. are stored. Is an offset indicating. The number of characters of text data is stored in text count. Text data is an array of character codes text cou
It consists of nt 2-byte codes. Flags such as cell display status are set. There is one text record in each cell having a character or an attribute, and there is always one attribute record for this text record. However, the same attribute is assigned to texts having exactly the same attribute.

[FIG. 4 Cell Attribute Table] The cell attribute table is composed of variable-length cell attribute records. Attrsiz stores the number of bytes in the size of one cell attribute. flg stores a flag indicating whether it is used or not. mesh stores the filling pattern number of the cell. The kum-f stores a flag indicating vertical writing mode or horizontal writing mode, a character spacing or character pitch designation, and a line spacing or line pitch designation. aldp is
It stores information on the top, bottom, left, and right character alignment, the rotation angle of the rotation display, and the display method (white space, overwriting, etc.). The font stores information on the typeface (Akira, Koshiko, etc.). Character size is stored in ps. lnsp.c
In hsp, line pitch or line spacing, character pitch or character spacing value is stored according to kum-f. The left and right margin values are stored in lrmgn and udmgn.

The operator uses the division and continuous ruled lines to be described later,
As will be described later, the ruled lines can be graphically drawn as shown in FIG. 10, but internally the vertical and horizontal ruled lines are divided and stored at the intersections as shown in FIG. 5-1. Since it is stored in this way, when drawing a table it is done graphically and edited for each cell (only the left side of one cell is erased etc.)
When doing, it becomes possible to do for each element. or,
The text data of each cell is held by a horizontal ruled line (upper left ruled line in FIG. 5-2) among the ruled lines forming each cell (FIG. 5-2).

[Divided Ruled Lines] A method of drawing a plurality of parallel ruled lines at equal intervals will be described with reference to FIGS. 6 to 8. FIG. 6 shows the control flow chart. First, when the user designates the division rule with the keyboard or PD, the division number input window of FIG. 7 is displayed. In step 1 in FIG. 6, the number of parallel ruled lines (divided ruled lines) (division number) is input from the keyboard. FIG. 7 shows that the number of divisions is input as 10. In step 2, the reference line (FIG. 7), which is the reference of the division ruled line, is determined. To do this, move the cursor 20 by PD on the already drawn ruled line and press the PD button once (1 click below) or draw the ruled line (at the starting point of the ruled line).
The reference line is determined by pressing the PD button, moving the cursor to the end point while pressing and releasing the button).
Next, in step 3, move the cursor to any position and
When the button is pressed, the distance between the reference line and the cursor position (if the reference line is a horizontal ruled line, the difference in y-coordinate, if it is a vertical ruled line, the difference in x-coordinate) is calculated, and this distance is divided by the number of divisions. The distance (L1 in Fig. 8-1 (a)) is calculated. In addition,
It is a horizontal ruled line in FIG. 8-1. Next, the distance obtained in step 3 in step 4 is approximated to an integer multiple of the grid interval so that all the divided ruled lines are aligned with the grid 100. The approximation is Done by Since the division is performed by rounding down after the decimal point, the value to be obtained is obtained as an integral multiple of the grid interval (L2 in FIG. 8-1 (b)). Next, in step 5 of FIG. 6, as many divided ruled lines as the number of divisions are displayed at the divided ruled line intervals obtained in step 4 (FIG. 8-2, 42). Above Fig. 6
Repeat step 3 and subsequent steps until the PD button is released. The operator moves the cursor while pressing the PD button until the ruled line interval becomes appropriate. Accordingly, a plurality of evenly-spaced ruled lines are displayed in real time. When the PD button is released, the ruled line interval is determined, and the record of the divided ruled line is registered.

[Continuous Ruled Line] Next, a means for continuously drawing a ruled line parallel to an arbitrary position will be described. It is started by instructing continuous marking with the keyboard or PD. The control flow chart for continuous marking is shown in Fig. 9-1. First, in step 1, the reference line is determined. This is determined by moving the cursor on the ruled line already drawn by the PD and clicking 1 or drawing the ruled line (Fig. 9-2, Fig. 41). next
In step 2, move the cursor 20 to the position where you want to draw a ruled line parallel to the reference line, and click 1 click. In steps 4 to 7, if the reference line is a vertical ruled line, the x coordinate of the reference line is the most, and if it is a horizontal ruled line, the y coordinate is the most clicked position. Register the record that has been replaced with the coordinates of the nearest grid (Fig. 10). From step 2 onwards, parallel lines can be continuously drawn by repeating 1 click.

[Erase of Ruled Lines] The movement of text data by eliminating ruled lines will be described.

First, FIG. 11 (a) is a control flow chart relating to erasure of horizontal ruled lines. Check if the horizontal ruled line to be erased in step 1 has text (whether the text offset of the horizontal line record in Fig. 4 is not -1) (if it is -1), delete the horizontal ruled line record (st
ep5). If you have text, check whether it is a cell above the horizontal ruled line in step 2 or st if it is not a cell.
The text data is erased in ep4, and the ruled line data is erased in step 5 (in the case of H3 in FIG. 12-1 (b)). If the upper cell is a cell (such as when erasing H1 in 12-1 (a)), treat the cells C1 and C2 as being combined by erasing the ruled line, and in step 3, copy the H1 text data to the top. It is combined with the text data held by H2 which is the text data of the cell, and the result as shown in the left figure of FIG. 12-1 (a) is obtained.
It should be noted that the text composition referred to in the present invention is performed based on the attribute of the cell to be composed by aldp or the like in the cell attribute table of FIG. In other words, if there is one "centering" attribute of cell C1 in Fig. 12-1 (a), the attribute of the cell that can be created by deleting H1 is also "centering".
Then, the synthetic text "Aoi" is centered. This is the same for other text composition.

Rearrangement of character strings in the table set, that is, character composition will be described with reference to FIGS. 12-2 to 12-3. 12th
-2 is a figure which showed only the text table of FIG. First, as shown in (a), there is a text to be composed (12th-
In the example of FIG. 1 (a), the text record held by H2) is extracted as shown in FIG. 12-2 (b), and the text table after the extracted text record is packed forward as shown in (c). At this time, the text offset of the horizontal ruled line that holds this packed text record is shifted, so the text offsets of the records in the horizontal ruled line table are checked in order, and the text offset of the ruled line record that has a text offset larger than the offset of the text to be composed Text of all horizontal ruled lines is reduced by reducing the size of the destination text.
offset is corrected. Next, the merged destination text that has been extracted is inserted at the end of the text table, and the position inserted in the text offset of the destination horizontal ruled line record is stored. Similarly, the composition source text is moved after the composition destination text in the same manner as in (e). Figure 12-3 (a)
Is a text record of each of the composition destination and composition source moved to the end of the text table. Next, take the header part (110 in Fig. 12-3 (a)) of the composition source text record, and squeeze the parts after it, as shown in Fig. 12-3 (b), and set the text count of the composition destination text record. Add the text count of the original text record to. Further, the composition is completed by setting the text offset of the composition source horizontal ruled line record to -1.

Next, FIG. 11B is a control flow chart when the vertical ruled lines are erased. It is checked whether the vertical ruled line erased in step 1 is the ruled line forming the left side of the cell. If not, in step 4, erase the ruled line record and end.
If it is a ruled line that constitutes the left side (for example, V1 in FIG. 12-1 (b)), check whether the upper left horizontal ruled line H3 of the cell (C3 in FIG. 12-1 (b)) has text. Yes (step2). If you do not have it, go to step 4. If you do, check whether the left side of the vertical ruled line is a cell (step 3). If it is not a cell, go to step 4, if it is a cell (for example, when V3 in FIG. 12-1 (c) is erased), step 4
Combine with the text in the cell on the right with (composite the H5 text into the H4 text).

[Movement of ruled line] (Movement of horizontal ruled line) The movement of the horizontal ruled line will be described. FIG. 13 shows the control flow chart. First, check whether the ruled line moved in step 1 has text data (whether the text offset of the horizontal ruled line record in FIG. 4 is not -1), and if not (if -1), move as it is. . If you have text, check in step 2 whether it is a cell above the horizontal ruled line. If it is not a cell, the text data will be moved along with the ruled line.
14 Moved H9 in Figure (c) to H9 'position. H9 'had text, but since it is no longer a cell, the text is not displayed (Fig. 14 (c) right). If top is a cell step
In 3 check whether the result of moving the ruled line constitutes a cell. If the destination is a cell (No.
(When H8 in FIG. 14B is moved to H8 ', the destination is cell 9') The text data moves with the ruled line. If the destination is not a cell (Fig. 14 (a) H6 is moved to H6 '), the text data of the ruled line is combined with the texter data of the upper cell in step 4 (the text of H6 is combined with H7). ). Regarding this synthesis, see Fig. 12-2 and Fig. 12-3.
This is similar to the description in the figure.

(Movement of horizontal ruled line) Next, the movement of the vertical ruled line will be described. FIG. 15 shows the control flow chart. First, in step 1, check whether the moving ruled line constitutes the left side of the cell. If No, move the ruled line in step 7 and end. If Yes, in step 2, check whether the upper left horizontal ruled line of the cell (H15 when trying to move V5 in Fig. 16 (c)) has text. If No, go to step 7. If you have it, check in step 3 whether the left side of the moving ruled line is a cell. If it is not a cell, go to step 7 (V5 in Fig. 16 (c))
Is moved to V5 ', the text of H15 is not displayed because it is not a cell. ), If it is a cell, proceed to step 4 and determine whether the destination is a cell. If it is a cell, proceed to step 1 and combine the text of the upper left horizontal ruled line of the source cell with the upper left horizontal ruled line of the destination cell (combining the text of H13 in Figure 16 (b) with the text of H13 '). ). If it is not a cell (V3 in Fig. 16 (a) is moved to V3 '), move the text of the upper left horizontal ruled line (H11) of the reduced cell. Move the upper left horizontal ruled line of the cell (C6) to the left of the ruled line ( H10) text (H10 'ruled line text).

[Cell Erasing] Next, a method of erasing ruled lines in cell units without destroying cells adjacent to cells to be erased will be described. First,
Instruct to erase the cell with the keyboard or PD. Next, if there is one cell to be erased, the cell is clicked by PD (FIG. 17 (a)). If there is more than one, press the PD button as shown in FIG. 17 (b), move the cursor while pressing and specify the range, and release the button. In this case P.
All cells that touch a rectangle (shown by the dotted line in Fig. 17) formed by two points, the position where the D button is pressed down and the position where it is released, are the target of cell erasing and are displayed in reverse video. When the cell to be erased is designated, first, the horizontal ruled line records in the ruled line table of FIG. 4 are processed in sequence like the control flow chart shown in FIG. First, in step 1, it is checked whether the cell under the ruled line is a cell. In other words, check whether this ruled line constitutes the upper side of the cell. If a cell
In step 2, check whether the cell is inverted (is the target of cell erase). If it is inverted, it is checked in step 3 whether or not the upper side of the ruled line is a cell (whether or not the lower side of the cell is formed). If it is a cell, in step 4, it is checked whether or not the cell is inverted. If it is inverted, the text of the ruled line is offse in step 5.
Erases the text record indicated by t and erases the ruled line record. If the upper cell is not inverted at step 4, if there is the next ruled line at step 8, then step 1
Repeat from If there is no next ruled line, the process ends. Also, step
If it is not a cell in 3, the text record and ruled line record are deleted in step 5. If the cell under the ruled line is not a cell in step 1 or the cell underneath is not inverted in step 2, it is checked in step 6 whether or not the cell above the ruled line is a cell. If it is not a cell, the process moves to the next ruled line in step 8. Also, if the top of the ruled line is a cell,
In step 7, check whether the upper cell is inverted. If it is reversed, the ruled line and the text record are deleted, and if it is not reversed, the process moves to the next ruled line.

Next, the same processing is performed on the vertical ruled lines. However, in the case of vertical ruled lines, the same processing can be performed by checking the right side of the place where the bottom of the ruled line is checked in steps 1 and 2, and the left side of the place where the top of the ruled line is checked in steps 3, 4, 6, and 7. . Further, since the vertical ruled line has no text, the text record is not deleted in step 5.

It is good to do the above for all horizontal ruled lines and vertical ruled lines.It is possible to erase all ruled lines that compose the sides of cells that do not have adjacent cells and ruled lines at the boundaries between inverted cells. The cells can be erased without compromising the cells adjacent to the cell to be erased.

As described above, the present invention has the following effects.

By providing a means for drawing a plurality of parallel and evenly spaced ruled lines and a means for continuously drawing parallel ruled lines at arbitrary positions,
Achieved quick operation with less operation as the operator wanted.

When deleting or moving ruled lines, by deciding the character composition destination in consideration of the lower left and right relationship of the cell that is the area for entering characters, it is possible to prevent the generation of unnecessary character data that does not belong to any ruled line. The document file area has been saved.

As is clear from the above description, according to the present embodiment, when the ruled line forming the cell is moved, the character data in the cell can be rearranged in another cell.

[Effect] As described in detail above, according to the present invention, text information to be displayed in a cell is stored in correspondence with specific element information, and the text information is moved as the specific element information moves. Depending on whether or not the specific segment information constituting a new cell is controlled, whether to display the text information to be displayed in the cell corresponding to the specific segment information in the new cell is controlled. It has become possible to provide a document processing method that can do this.

[Brief description of drawings]

FIG. 1 is a system block diagram of an apparatus to which the present invention is applied, FIG. 2 is an explanatory diagram of a conventional technique, FIG. 3-1 is an explanatory diagram of a document edit screen, and FIG. 3-2 is a character, figure, image, form. 4 is an explanatory view of a table data table, FIG. 5-1 is a view showing the state of intersections of ruled lines, and FIG. 5-2 is an explanation of how to store text data in cells. Fig. 6, Fig. 6 is a control flow chart of divided ruled lines, Fig. 7 is an explanatory view of a display screen when divided ruled lines are drawn, Fig. 8-1 is an explanatory diagram of calculation of divided ruled lines, and Fig. 8-2. Is a diagram showing a display example of the result of division scoring, FIG. 9-1 is a control flow chart of continuous scoring, and FIG. 9-2 is an explanatory view of a display screen when performing continuous scoring, Figure is an explanatory diagram of the process of performing continuous ruled lines, Fig. 11 is a control flow chart for ruled line deletion, and Fig. 12-1 is a display for ruled line deletion. Fig. 12-2 is an explanatory diagram of character rearrangement in a table set, Fig. 12-3 is an explanatory diagram of a text table, Fig. 13 is a control flow chart for moving ruled lines, and Fig. 14 is horizontal ruled lines. Fig. 15 is a control flow chart for vertical ruled line movement, Fig. 16 is an explanatory diagram for vertical ruled line movement, Fig. 17 is an explanatory diagram for cell erasing, and Fig. 18 is a control flowchart for cell erasing. 4 …… MPU 3 …… Display control unit 5 …… Main memory

Claims (1)

(57) [Claims] 1. A storage means for storing text information to be displayed in the cell in correspondence with a plurality of pieces of element information forming a cell and one piece of specific piece information among the pieces of piece information. A document processing method capable of displaying the segment information and the text information on a display screen of a display unit, wherein when the movement of the specific segment information is instructed on the display screen of the display unit, the identification With the movement of the segment information, the original cell that the specific segment information was configured to retain the cell, the specific segment information that is moved is determined by the determination means to form a new cell In this case, the text information is stored in the new cell and displayed on the display screen of the display means, and the specific element information is configured with the movement of the specific element information on the storage means. The original cell that was If the specific segment information to be moved does not form a new cell, the text information is placed in the original cell and displayed on the display screen of the display means. Document processing method