JP3715431B2 - Typesetting method, typesetting device, and recording medium recording a program for executing the processing - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a typesetting technique for determining the arrangement of a plurality of character strings within a predetermined frame, and more particularly to a typesetting technique suitable for use in a flyer typesetting for creating a printed matter such as a leaflet.
[0002]
[Prior art]
Conventionally, typesetting processing for printed matter such as leaflets has been performed using a computer system. In the case of flyer composition, a plurality of composition forms called “value composition” are performed, and at that time, a frame (value composition frame) for performing each value composition is set. In each value composition frame, a plurality of character strings such as a product name, a description of the product, and a price are arranged.
[0003]
In the conventional typesetting technology related to such a flyer typesetting, character-printing data representing a plurality of character strings to be arranged in the value composition frame, layout information defining the layout of each character string in the value composition frame, From the style information that defines the style of each character string, etc., the composition information that integrates each information is generated, and the composition processing is performed based on the generated composition information, so that the position of each character string in the value composition frame is determined. Obtained location information to represent.
[0004]
[Problems to be solved by the invention]
However, the conventional typesetting technology as described above has the following problems when trying to correct the character string itself, the character string layout and style, etc. after value setting is performed once by the typesetting process. .
[0005]
That is, for example, even if the character string after value setting is displayed on the screen, the original character data, layout information, and style information stored in the computer are accessed to correct each information. It was necessary to make necessary corrections to each piece of information after switching to the display screen. Furthermore, it is necessary to generate the formatting information again from the corrected information, and to perform the formatting processing based on the generated formatting information. Even a slight correction takes a lot of trouble. There was a problem.
[0006]
The present invention has been made to solve the above-described problems in the prior art, and provides a technique that can easily perform corrections related to character strings after typesetting as compared with the prior art. Objective.
[0007]
[Means for solving the problems and their functions and effects]
  In order to achieve at least a part of the above object, the composition method of the present invention is a composition method for determining the arrangement of a plurality of character strings within a predetermined frame,
  (A) character-printing data representing a plurality of character strings to be arranged in the frame, layout information defining a layout of each character string in the frame, and style information defining a style of each character string A process of generating typesetting information by integrating each information;
  (B) determining the position of each character string in the frame based on the generated typesetting information, and obtaining position information representing each position;
  (C) displaying each character string arranged at a determined position in the frame on the screen;
  With
  (D) correcting the character string itself displayed on the screen, the style of the character string or the layout of the character string on the screen according to a correction instruction;
  (E) changing the contents of the composition information according to the correction result;
  (F) re-determining the position of each character string in the frame based on the changed typesetting information, and updating the content of the position information;
  Further equipped,
The step (d)
(D-1) a step of moving a character string to be corrected in order to correct the layout of the character string on the screen;
(D-2) A step of selecting an area closest to an area where the correction target character string to be moved is present from among individual areas where each character string other than the correction target character string exists on the screen. When,
(D-3) A step of highlighting and displaying the side closest to the region where the correction target character string exists among the sides surrounding the selected region on the screen;
WithThis is the gist.
[0008]
  The typesetting apparatus of the present invention is a typesetting apparatus for determining the arrangement of a plurality of character strings within a predetermined frame,
  First storage means for storing character data representing a plurality of character strings to be arranged in the frame;
  Second storage means for storing layout information defining a layout of each character string in the frame;
  Third storage means for storing style information defining the style of each character string;
  Typesetting information generating means for generating typesetting information in which each information is integrated from the stored typesetting data, the layout information and the style information;
  Based on the generated typesetting information, typesetting processing means for determining the position of each character string in the frame and obtaining position information representing each position;
  Display means for displaying each character string arranged at a determined position in the frame on the screen;
  Correction means for correcting the character string itself displayed on the screen, the character string style or the character string layout on the screen in accordance with an external correction instruction;
  With
The correction means moves the character string to be corrected on the screen to correct the layout of the character string, and from among the individual areas where each character string other than the correction target character string exists. The region closest to the region where the correction target character string to be moved exists is selected, and among the sides surrounding the selected region, the side closest to the region where the correction target character string exists is highlighted and displayed. And
  The typesetting information generating means changes the content of the typesetting information according to the correction result when correction is made by the correction means,
  The gist of the typesetting processing means is to determine again the position of each character string in the frame based on the changed typesetting information and update the contents of the position information.
[0009]
As described above, in the typesetting method or typesetting apparatus of the present invention, when the character string displayed on the screen is corrected when the character string after the typesetting is corrected, the correction is made according to the correction result. The contents of the composition information are changed, and the position of each character string in the frame is determined again based on the composition information after the change, and the contents of the position information are updated. In the present invention, the position information may be included in the typesetting information.
[0010]
  Therefore, according to the typesetting method or typesetting apparatus of the present invention, when correction related to the character string after typesetting is performed, the correction is made after returning to the original typesetting data, layout information, and style information. There is no need to generate formatting information again, and only the character string displayed on the screen is corrected, and the position information to be finally obtained is automatically updated. Can be reduced.
In addition, since the step (d) includes the steps as described above, when the correction target character string is moved to correct the layout of the character string, the area where the correction target character string exists can touch. Since the side of the area where other character strings exist is highlighted, it is easy for the user to position the character string layout, and the usability of the user can be improved.
[0011]
The composition method according to the present invention may further include (g) a step of reflecting the correction result on the character setting data, layout information, or style information based on the changed composition information. .
[0012]
As described above, when a correction related to a character string is performed on the screen, the uniformity of the information can be maintained by reflecting the correction result on the character collection data, layout information, or style information.
[0017]
  The recording medium of the present invention is a computer-readable recording medium that records a computer program for determining the arrangement of a plurality of character strings within a predetermined frame,
  Each piece of information includes character-printing data representing a plurality of character strings to be arranged in the frame, layout information that defines the layout of each character string in the frame, and style information that defines the style of each character string. A function to generate typesetting information that integrates
  A function of determining the position of each character string in the frame based on the generated typesetting information and obtaining position information representing each position;
  A function of displaying each character string arranged at a determined position in the frame on the screen;
    The character string itself displayed on the screen, the style of the character string or the layout of the character string is corrected on the screen according to a correction instruction.At the same time, in order to correct the layout of the character string on the screen, the character string to be corrected is moved, and the character string other than the correction target character string is moved from within each individual area. The region closest to the region where the correction target character string exists is selected, and among the sides surrounding the selected region, the side closest to the region where the correction target character string exists is highlighted and displayed.Function and
  A function of changing the content of the composition information according to the correction result;
  Based on the changed typesetting information, the function of re-determining the position of each character string in the frame and updating the content of the position information;
  The gist is that a computer program for realizing the above is recorded on a computer.
[0018]
When a computer program recorded on such a recording medium is executed by a computer, the same effects and effects as those of the composition method and composition apparatus of the present invention described above are obtained, and correction when correction relating to a character string is performed Can be greatly reduced.
[0019]
Other aspects of the invention
The present invention can also adopt other aspects as described below. That is, it is an aspect as a computer program supply apparatus for supplying a computer program for causing a computer to realize the above functions via a communication line.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described based on examples. FIG. 1 is a block diagram showing a typesetting apparatus as a first embodiment of the present invention.
[0021]
This typesetting apparatus is constituted by a computer system as shown in FIG. That is, the computer system includes a CPU 110 and a bus line 250. The bus line 250 stores a main memory 120 for storing a computer program executed by the CPU 110, and a value group data memory 130. The character-setting data memory 140, the product style information memory 150, the product layout information memory 160, and the product typesetting information memory 170 are connected. Note that these memories do not need to be configured as separate memories, but may be configured as one or more memories.
[0022]
In addition, a keyboard 190 and a mouse 200 are connected to the bus line 250 as input devices, a color CRT 220 is connected as an output device, a magnetic disk device 180 as an external storage device, and a communication device as a communication device. A network card 240 connected to the network 245 is connected.
[0023]
The CPU 110 functions as a product composition information generation unit 111, a product composition processing unit 112, and a display control unit 113 as described later by executing a computer program stored in the main memory 120.
[0024]
In this embodiment, the computer program (that is, the application program) is provided in a form recorded on a CD-ROM 235 that is a recording medium, and is read by the CD-ROM drive device 230 connected to the bus line 250. Is captured in the computer system. The captured computer program is transferred to the magnetic disk device 180, and then transferred to the main memory 120 when the computer system is activated.
[0025]
As described above, in this embodiment, it is described that the CD-ROM is used as a “recording medium” for recording the computer program in a computer-readable manner, but in addition, a flexible disk, a magneto-optical disk, an IC card, a ROM Various types of computer-readable media such as cartridges, punched cards, printed matter on which codes such as bar codes are printed, computer internal storage devices (memory such as RAM and ROM), and external storage devices can be used.
[0026]
In addition to providing the computer program in a form recorded in such a recording medium, the computer program accesses a program server (not shown) that supplies the computer program via the network 245, and the network card 240 is accessed from the program server. May be incorporated into the computer system.
[0027]
A part of the computer program may be constituted by an operating system program.
[0028]
Furthermore, in this embodiment, the product composition information generation unit 111, the product composition processing unit 112, and the display control unit 113 are realized by software, but these may be realized by hardware.
[0029]
On the other hand, in FIG. 1, the value frame data memory 130 stores value frame data for setting a plurality of value frame. FIG. 2 is an explanatory diagram illustrating an example of value frame data stored in the value frame data memory 130 of FIG. 1, and FIG. 3 is an explanatory diagram illustrating an example of a screen displayed on the color CRT 220 of FIG. is there.
[0030]
As shown in FIG. 2, the value group data 131 includes the number of value group frames to be set and the coordinate data of the lower left point and upper right point of each value group frame.
[0031]
The value composition frame data 131 is created when a user draws a value composition frame using the mouse 200. That is, as shown in FIG. 3, in the typesetting result display screen A displayed on the screen of the color CRT 220, the lower left point P of the value setting frame W1 is placed on one leaflet C to be typeset.₁And upper right point P₂Is designated using the mouse 200 to draw one value composition frame W1. For the other value composition frames W2, W3,..., A value composition frame having the same size as the value composition frame W1 is set as a flyer by setting the required number of value composition frames (number of rows and columns) with the keyboard 190 or the like. You may make it draw on C automatically. In this way, when each value frame is drawn, value frame data 131 is sequentially generated and stored in the value frame data memory 130 accordingly.
[0032]
Next, the character-setting data memory 140 stores character-setting data representing a plurality of character strings to be arranged in each value composition frame. Since the leaflet C described above is a leaflet that displays the name, price, etc. of the product, the content of the character string to be placed in each value composition frame is the product name, price, description of the product, and the like.
[0033]
FIG. 4 is an explanatory diagram showing an example of the character data stored in the character data memory 140 of FIG. As shown in FIG. 4, the character collection data 141 is composed of text data, and a plurality of character string groups are delimited by return codes. Each character string group delimited by this return code is a set of character strings to be arranged in each value composition frame, and one character string group (character string group for one line in FIG. 4) is one. It corresponds to the value composition frame.
[0034]
In addition, a product number is assigned to the beginning of each character string group in order to distinguish the character string group, and a plurality of character strings to be arranged in each value composition frame are arranged after the product number. Yes. Each character string is delimited by a delimiter code. As the delimiter code, a tab code and a space code are usually used. Of course, other codes can be used as long as they can be used to delimit character strings. This delimiter code indicates the delimiters of the items, such as the first item, the second item,... In order from the top, and each character string is arranged to correspond to any item. Yes. Depending on the item, there may be no corresponding character string. In the case of the present embodiment, the items are eight items from the first item to the eighth item, as shown in FIG.
[0035]
For example, in FIG. 4, taking the second character string group as an example, the product number is “1002”, the first item corresponds to the character string “Australia”, and the second item Corresponds to the character string “Aussie beef”. Note that no corresponding character string is described in the fifth item or the eighth item.
[0036]
The character data 141 as described above is characterized when the user inputs using the keyboard 190 and is stored in the character data memory 140.
[0037]
Next, the product style information memory 150 stores product style information that defines the style of each character string. FIG. 5 is an explanatory diagram showing an example of product style information stored in the product style information memory 150 of FIG. As shown in FIG. 5, the product style information 151 includes a product style name for specifying the style information, and a font and a character size of each character string for each item. Of these, items are drawn only up to the third item in FIG. 5, but correspond to FIG. 4, and as described above, items exist from the first item to the eighth item.
[0038]
In the example shown in FIG. 5, the product style name is “food”, and the style of the character string corresponding to the first item is defined as “Gothic” as the font and “10Q” as the character size. “Q” is a unit of 4Q = 1 mm.
[0039]
The product style information 151 as described above is stored in the product style information memory 150 when the user inputs it using the keyboard 190 or the mouse 200.
[0040]
The product layout information memory 160 stores product layout information that defines the layout of each character string in the value composition frame. FIG. 6 is an explanatory diagram showing an example of product layout information stored in the product layout information memory 160 of FIG. As shown in FIG. 6, the product layout information 161 includes a product layout name for specifying the layout information, a relative position of each character string for each item, and connection selection. Among these items, only the third item is depicted in FIG. 6, but corresponds to FIG. 4, and as described above, the first item to the eighth item exist.
[0041]
Here, the relative position of the character string will be described. FIG. 7 is an explanatory diagram showing the arrangement division of each character string in the value composition frame. The value composition frame is divided as shown in FIG. 7 according to the composition direction. In the case of the horizontal assembly, as shown in FIG. 7A, it is divided into “upper part”, “middle part”, “price part”, and “lower part”. ), It is divided into “right part”, “middle part”, “price part”, and “left part”. Normally, it is set to the horizontal type, but it may be set to the vertical type according to the contents of the typesetting. Since the value grouping frame is divided in this way, each character string arranged in the value grouping frame is arranged so as to belong to one of the above-mentioned divisions.
[0042]
Therefore, the relative position of the character string defined by the product layout information 161 indicates to which of the above-mentioned sections it belongs. In the product layout information 161, there is no distinction between the horizontal assembly and the vertical assembly, and even when the vertical layout is set, the “right” is “upper” and the “left” is “lower”. ".
[0043]
Further, the connection selection of the character string defined by the product layout information 161 specifies whether or not to connect the character string after the character string of the previous line when placing the character string in the value composition frame. To do.
[0044]
In the example of FIG. 6, the product style name is “upper set”, the layout of the character string corresponding to the first item is defined as “relative position” “upper row” and connection selection “not done”.
[0045]
The product layout information 161 as described above is stored in the product layout information memory 160 when the user inputs it using the keyboard 190 or the mouse 200.
[0046]
It should be noted that the above value group data, character data, product style information, and product layout information are loaded in advance and stored in the magnetic disk device 180 and stored in the corresponding memory. Anyway.
[0047]
Now, the processing procedure of the typesetting method performed by the typesetting apparatus of FIG. 1 will be described. FIG. 8 is a flowchart showing the processing procedure of the typesetting method executed by the typesetting apparatus of FIG.
[0048]
When the processing shown in FIG. 8 is started, first, the product composition information generation unit 111 in the CPU 110 shown in FIG. 1 uses the above-described character-printed data 141, product style information 151, and product layout information 161, and this information. Then, product composition information as described later is generated (step S110).
[0049]
Specifically, first, on the typesetting result display screen A displayed on the screen of the color CRT 220 as shown in FIG. 3, the user sequentially selects a value composition frame to be formatted using the mouse 200 or the like. Thereafter, when a predetermined instruction is given, the display control unit 113 of the CPU 110 displays the appearance / arrangement position setting screen B by window display. FIG. 9 is an explanatory diagram showing an example of the appearance / arrangement position setting screen B of FIG.
[0050]
The user uses the keyboard 190 and the mouse 200 to display a desired lettering data file name in the lettering data field 501 and a desired character name in the product style field 502 on the appearance / arrangement position setting screen B shown in FIG. Enter the product style name and the desired product layout name in the product layout field 503. At this time, a text interval for defining the interval between characters at the time of formatting is input in the text interval column 504, and a desired combination direction is input in the column 505 of the combination direction.
[0051]
In the case of the example in FIG. 9, “super” is input as the file name of the typographic data, “food” is input as the product style name, and “upper set” is input as the product layout name. Further, “4Q” is input as the text interval, and “Yoko” is input as the group direction.
[0052]
As a result, the product composition information generation unit 111 sets the character set data corresponding to the file name “super” (ie, the character set shown in FIG. 4) from the plurality of character set data stored in the character set data memory 140. Data), and the product style information corresponding to the product style name “food” (ie, the product style information shown in FIG. 5) is read from the plurality of product style information stored in the product style information memory 150. The product layout information (product layout information shown in FIG. 6) corresponding to the product layout name “upper set” is read from the plurality of product layout information stored in the product layout information memory 160. Then, product composition information obtained by integrating these pieces of information is generated from these three pieces of information and stored in the product composition information memory 170.
[0053]
FIG. 10 is an explanatory diagram showing an example of product composition information stored in the product composition information memory 170 of FIG. As shown in FIG. 10, the product composition information 171 includes a header at the beginning and items that follow thereafter, each time it corresponds to a value composition frame. Of these, the items are drawn only up to the third item in FIG. 10, but correspond to FIG. 4, and as described above, there exist the first item to the eighth item. Therefore, for example, if two value composition frames are selected by the user on the composition result display screen A in FIG. 3, the product composition information 171 can include two combinations composed of a header and eight items.
[0054]
As shown in FIG. 10, the header includes the typographic data name, the text interval, the product number. , The direction of the set, and the lower left point, upper right point, upper row, middle row, price, and lower row alignment information are described. The header shown in FIG. 10 corresponds to the first value composition frame (for example, value composition frame W1 in FIG. 3) among the value composition frames selected by the user.
[0055]
Of these, the file name (super), the value (4Q), the direction (horizontal), etc. previously input by the user are described in the columns of the character-printed data name, text interval, and group direction.
[0056]
Since the header corresponds to the first value composition frame, the product No. In the column, the product number (1001) for the first character string group in the typographic data 141 shown in FIG. 4 is described. In the lower left point and upper right point columns, the coordinates of the lower left point and upper right point of the first value frame (ie, value frame W1) (P₁, P₂) Is described. These coordinates are obtained from the value frame data stored in the value frame data memory 130.
[0057]
The upper, middle, price, and lower alignment columns specify the arrangement of each character string in each category when the character string is inserted in each category in the value group frame shown in FIG. . Specifically, “upper left” representing upper left alignment, “even” representing uniform alignment, “center” representing center alignment, and “lower left” representing lower left alignment are described. For these data, character alignment data stored in advance in a character alignment data memory (not shown) is used.
[0058]
Next, in each item following the header, information on an item counter, relative position, connection selection, character-printed character string, typeface, character size, lower left point and upper right point is described. Among these, the item counter column describes the initial number of each item, and of course, the first item is “1”, the second item is “2”,.
[0059]
Next, in the relative position and connection selection columns, as already described in FIG. 6, to which category the character string belongs in the value set frame and whether the character string is connected after the character string in the previous line Whether or not is described. These pieces of information are obtained from the product layout information 161 shown in FIG. 6 read from the product layout information memory 160. Each item in FIG. 10 includes information described in the corresponding item in FIG. It is written as it is.
[0060]
Subsequently, the character string to be arranged is described in the column of the character-printed character string. These character strings are obtained from the character data 141 shown in FIG. 4 read from the character data memory 140. In FIG. 10, each character string in the first character string group in FIG. It is described to correspond to.
[0061]
Next, the typeface and character size of the character string to be arranged are described in the typeface and character size column, as already described with reference to FIG. These pieces of information are obtained from the product style information 151 shown in FIG. 5 read from the product style information memory 150. Each item in FIG. 10 includes information described in the corresponding item in FIG. It is written as it is.
[0062]
Finally, in the column of the lower left point and upper right point, the position of the character string in the value composition frame is described as the coordinates of the lower left point and upper right point of the rectangular area where the character string exists. Since the actual position of each character string in the value composition frame is not specified unless the product composition process (step S120 in FIG. 8) described later is completed, in the step S110, the lower left point and upper right point columns are displayed. Nothing is described for each item. The coordinates of the lower left point and the upper right point may be coordinates based on the value frame, or may be coordinates based on the leaflet C.
[0063]
When the product composition information 171 shown in FIG. 10 is generated in this way, the display control unit 113 of the CPU 110 displays the generated product composition information 171 on the appearance / arrangement position setting screen B displayed on the screen of the color CRT 220. As shown in FIG. 9, the contents are divided into an upper part, a middle part, a price, and a lower part, and the contents of the typeface, character size, and connection selection are displayed in addition to the character-printed character string. Further, the display control unit 113 displays a relative position diagram 507 on the right side of the appearance / arrangement position setting screen B based on the information on the group direction input by the user.
[0064]
The user looks at the contents displayed in this manner, and if the character string, style, or layout is as intended, the user presses the start button 506 on the appearance / arrangement position setting screen B using the mouse 200 or the like. click. Then, the product composition processing unit 112 in the CPU 110 executes product composition processing, determines the position of each character string in the previously selected value composition frame based on the generated product composition information 171, Information on the position of each character string in the frame is obtained (step S120). Specifically, the product composition processing unit 112 sequentially arranges each character string with respect to the value composition frame according to the content of the product composition information 171, determines the actual position of each character string, and determines each character string. The coordinates of the lower left point and upper right point of the rectangular area in which are present are obtained and described in the lower left point and upper right point columns of each item of the product composition information 171.
[0065]
FIG. 11 is an explanatory diagram showing an example of product composition information after the product composition processing is completed. As shown in FIG. 11, by the processing in step S121, the lower left point and upper right point of each item in the product composition information 171 have the coordinates of the lower left point and upper right point of the rectangular area where each character string exists. It has been described. As described above, since the character string corresponding to the fifth item and the eighth item is not described in the typographic data shown in FIG. 4, the product composition information 171 also includes the first character as shown in FIG. 11. In the 5th item and the 8th item, no character string is described in the column of the character collection character string. In addition, since there is no character string in this way, no coordinates are described in the lower left point and upper right point columns.
[0066]
Note that the user looks at the display contents of the appearance / arrangement position setting screen B, and if the character string, style, and layout are not as intended, before the product typesetting process (that is, the start button 506 is pressed). Before clicking, it is also possible to correct the above-described contents using the keyboard 190 and the mouse 200 on the appearance / arrangement position setting screen B.
[0067]
After the product typesetting process is executed in this way, the display control unit 113 of the CPU 110 next, based on the product typesetting information 171 in which the information on the lower left point and the upper right point (that is, position information) of each character string is described. Then, on the typesetting result display screen A in the color CRT 220, each of the typeset character strings is displayed in the selected value grouping frame (step S130).
[0068]
FIG. 12 is an explanatory diagram showing, in an enlarged manner, the value composition frame W1 on the composition result display screen A displayed on the screen of the color CRT 220 of FIG. By the process of step S130, as shown in FIG. 12, for example, in the value set frame W1, the character strings “American”, “Kansas Beef”, and “Loose” are displayed in the upper part, and “100 g The character string of “win”, the character string of “158 yen” in the price part, and the character string of “limited to the first 100 people” in the lower part according to the contents of the product composition information 171 shown in FIG. Displayed in the layout and style. In FIG. 12, a rectangular area surrounded by a broken line is a rectangular area where the above-described character string exists, and the coordinates of the lower left point and upper right point of this rectangular area are the lower left point of each item in the product composition information 171. And the coordinates of the upper right point. As for the coordinates of the lower left point and the upper right point, as shown in FIG. 12, the horizontal direction with respect to the screen is the x-axis coordinate, and the vertical direction with respect to the screen is the y coordinate.
[0069]
Thus, when the formatting result is displayed on the formatting result display screen A, the user looks at the display content and confirms whether the character string, the style, and the layout are as intended. If the character string itself or the character string style and layout need to be corrected, the user uses the keyboard 190, the mouse 200, or the like on the typesetting result display screen A. After selecting a value set frame that needs correction, a necessary correction instruction is issued for the character string in the selected value set frame. The display control unit 113 corrects the character string in the value composition frame on the screen according to the correction instruction (steps S140 and S150). Specifically, the display control unit 113 changes a display content of the color CRT 220 based on a user instruction content input from the keyboard 190, the mouse 200, or the like, so that a desired value on the typesetting result display screen A is obtained. In the frame, the character string itself and the character string style and layout are modified.
[0070]
As described above, when a necessary correction is made in the desired value composition frame on the composition result display screen A, the product composition information generation unit 111 stores it in the product composition information memory 170 according to the modification result. The content of the part corresponding to the value composition frame in the product composition information 171 that has been changed is changed (step S160).
[0071]
Next, the product composition processing unit 112 determines again the position of each character string in the value composition frame based on the changed product composition information 171, and after correcting the lower left point and upper right point of each character string Are obtained, and the contents of the lower left point and upper right point columns of the corresponding item in the product composition information 171 are updated (step S170).
[0072]
Note that the processing in steps S160 and S170 is automatically executed when the correction on the screen in step S150 is confirmed.
[0073]
Thereafter, also in other value composition frames on the composition result display screen A, the same processing is repeated when it is necessary to modify the character string itself and the layout and style of the character string. When necessary correction is completed in all the value composition frames that have undergone the composition process, the series of processes is terminated. Data such as the product composition information 171 thus obtained is used for flyer printing.
[0074]
Then, with respect to a series of correction processes from step S150 to step S180, when correcting the character string itself, when correcting the layout by moving the character string, when correcting the layout by adding the character string, respectively Will be described more specifically.
[0075]
FIG. 13 is an explanatory diagram for explaining a method of correcting the character string itself on the screen, and FIG. 14 is an explanatory diagram showing the contents of change of the product composition information by the correction of the character string itself.
[0076]
For example, when correcting the character string itself in the value composition frame W1 in the composition result display screen A displayed on the color CRT 220 screen, the user first selects the character string to be corrected using the mouse 200. To do. Then, as shown in FIG. 13A, the display control unit 113 displays a cursor 601 for character input at the portion of the selected character string (character string “Kansas beef” in FIG. 13). . Next, the user uses the keyboard 190 to input a character to be added. Then, as shown in FIG. 13B, the display control unit 113 sequentially inserts the input characters (characters “high-grade” in FIG. 13) at the position of the cursor 601 and after the character string. The other character string (character string “Loose” in FIG. 13) connected to is moved to the right by the amount of the inserted character. When the character string is moved to the right as described above and the character string overflows from the value set frame W1, the character string is transformed into a long body so as to fit in the value set frame W1. Also good.
[0077]
Thus, when the correction on the screen is performed, the process of step S160 is executed, and the product composition information generation unit 111 changes the content of the column of the corresponding item in the product composition information 171 to the correction result. Change according to. In this example, the character string “Kansas beef” of the second item shown in FIG. 11 is changed to “Kansas premium beef” as shown in FIG.
[0078]
Further, as shown in FIGS. 13A and 13B, the character string (“Kansas beef”) is modified, and the character string and the character string after that (“Loose”) are moved. Therefore, the positions of the lower left point and upper right point of these character strings have also changed. Therefore, when the process of step S170 is executed, the product composition processing unit 112 sets the upper right-point column of the second item to “Pb” in the product composition information 171 as shown in FIGS.₂To Pb₂'' And update the lower left column of the third item to "Pc₁To “Pc”₁‘’ ’And“ Pc ”₂To “Pc”₂'', Respectively.
[0079]
When the character string itself is corrected, the above processing is specifically performed. Next, FIG. 15 is an explanatory diagram for explaining a method of correcting a layout by moving a character string on the screen.
[0080]
For example, in the value composition frame W1 on the composition result display screen A, when the character string is moved and the layout is modified, the user first uses the mouse 200 to modify the character string to be modified as shown in FIG. (“Loose”). Then, the display control unit 113 sequentially compares the coordinates of the mouse cursor 701 with the coordinates of the lower left point and upper right point of each item in the product composition information 171, and the mouse cursor in the rectangular area where the character string exists. The rectangular area 702 where the position 701 is located is specified, and the side 703 surrounding the rectangular area 702 is highlighted and displayed. This makes it easier for the user to visually recognize the selected character string (“Loose”).
[0081]
Subsequently, when the user moves the mouse 200, the display control unit 113 moves (drags) the selected character string (“loose”) on the screen. At this time, the display control unit 113 receives the amount of movement of the mouse cursor (in other words, the amount of movement of the selected character string) according to the signal from the mouse 200, and sets the coordinates of the lower left point and upper right point of the rectangular area 702 described above. By adding the position information, the position information of the moving character string (that is, the coordinates of the lower left point and the upper right point of the area where the moving character string exists) is obtained. Then, the display control unit 113 sequentially compares the position information of the moving character string with the coordinates of the lower left point and upper right point of each item in the product composition information 171, and the difference between the x coordinates or the y coordinate By finding an item having the smallest difference, a rectangular area closest to the rectangular area where the character string being moved exists among the rectangular areas where other character strings exist is specified. For example, in FIG. 15, when the selected character string (“loose”) is moved as indicated by an arrow G, the rectangular area where the character string after the movement exists is 704, and the rectangular area closest to the rectangular area 704 is , A rectangular area 705 in which the character string “per 100 g” exists.
[0082]
As described above, when the display control unit 113 specifies the rectangular area closest to the rectangular area where the character string being moved exists, the display control unit 113 specifies the identification based on the minimum x-coordinate difference or the y-coordinate difference. Among the sides surrounding the rectangular region, the side closest to the rectangular region where the character string being moved exists is specified, and the specified side is highlighted. For example, in FIG. 15, the upper right point Pc of the rectangular area 704 where the character string “loose” after movement exists.₂The y coordinate of ″ and the lower left point Pd of the rectangular area 705 where the character string “per 100 g” exists.₁Since the difference from the y-coordinate is minimum, the lower side 706 of the rectangular area 705 where the character string “per 100 g” exists is highlighted and displayed.
[0083]
FIG. 16 is an explanatory diagram showing a state in which the sides of a rectangular area where adjacent character strings exist are highlighted when the character string is moved. As shown in FIGS. 16A to 16D, when a character string (“Loose”) is moved, a rectangular area 710 where the character string (“Loose”) exists becomes another character string (“ When approaching the rectangular area 705 where “per 100 g” is present, among the sides surrounding the rectangular area 705, the side closest to the rectangular area 710 is highlighted. For example, in the case of FIG. 16A, since the upper side 707 is the side closest to the rectangular area 710, the upper side 707 is highlighted. Also, the right side 708 is highlighted in the case of FIG. 16B, the lower side 706 is highlighted in the case of FIG. 16C, and the left side 709 is highlighted in the case of FIG. 16D.
[0084]
In this way, the sides of the rectangular area 705 where other character strings ("per 100 g") that can be touched by the rectangular area 710 where the moving character string ("Loose") exists are highlighted. Therefore, it becomes easy for the user to position the layout of the character string being moved, and the usability for the user can be improved.
[0085]
When the character string selected using the mouse 200 is moved to a desired position, the display control unit 113 cancels the selection of the character string and selects it when the user releases the button of the mouse 200. Determine the final position of the moved string.
[0086]
FIG. 17 is an explanatory diagram showing changes in the product composition information due to the layout correction caused by the movement of the character string. As described above, when the final position of the moved character string is determined, the process of step S160 is executed, and the product composition information generation unit 111 stores the relative position of the corresponding item in the product composition information 171. Change the contents and the contents of the connection selection column according to the correction result. Further, in the product composition information 171, the position of the corresponding item in the product composition information 171 is changed according to the correction result.
[0087]
In the case of the above example, the relative position “upper” of the third item shown in FIG. 11 is changed to “middle”, and the connection selection “Yes” is changed to “No”. Then, the third item and the fourth item shown in FIG. 11 are switched as shown in FIG. 17, and the third item becomes a new fourth item, and the fourth item becomes a new third item.
[0088]
Note that the change of the position of the corresponding item in the product composition information 171 and the content of the connection selection are performed as follows. That is, when the final position of the moved character string is determined, as shown in FIG. 15, the rectangular area 704 where the character string ("Loose") exists is replaced with other character strings ("per 100 g"). It is in contact with the existing rectangular area 705. At this time, of the sides of the rectangular region 705, the side 706 in contact with the rectangular region 704 coincides with the highlighted side immediately before the final position is determined. Accordingly, the position of the corresponding item is changed or the content of the connection selection is changed based on the highlighted side.
[0089]
Specifically, when the upper side 707 of the rectangular area 705 is highlighted as shown in FIG. 16A immediately before the final position is determined, the moved character string in the product composition information 171. The item corresponding to “Loose” is positioned immediately before the item corresponding to the highlighted character string “per 100 g”, and the connection selection column of the item corresponding to the character string “Loose” is set to “No”. To do.
[0090]
In addition, when the right side 708 of the rectangular area 705 is highlighted as shown in FIG. 16B, the item corresponding to the moved character string “loose” is highlighted in the product composition information 171. It is positioned immediately after the item corresponding to the character string “per 100 g”, and the connection selection column of the item corresponding to the character string “per 100 g” is set to “Yes”.
[0091]
In addition, when the lower side 706 of the rectangular area 705 is highlighted as shown in FIG. 16C, the item corresponding to the moved character string “Loose” is highlighted in the product composition information 171. It is positioned immediately after the item corresponding to the character string “per 100 g”, and the connection selection column of the item corresponding to the character string “per 100 g” is set to “not”.
[0092]
Furthermore, when the left side 709 of the rectangular area 705 is highlighted as shown in FIG. 16D, the item corresponding to the moved character string “Loose” is highlighted in the product composition information 171. It is positioned immediately before the item corresponding to the character string “per 100 g”, and the connection selection column of the item corresponding to the character string “Loose” is set to “Yes”.
[0093]
Subsequently, when the process of step S170 is executed, the position of the lower left point and the upper right point of the character string changes as shown in FIG. 15 due to the movement of the character string ("Loose"). As illustrated in FIG. 17, the processing unit 112 sets the lower left column of the fourth item corresponding to the character string “loose” in the product composition information 171 to “Pc”.₁To “Pc”₁‘’ ’And“ Pc ”₂To “Pc”₂"" ", Respectively.
[0094]
As described above, the layout is corrected due to the movement of the character string.
[0095]
Next, FIG. 18 is an explanatory diagram for explaining a method of correcting a layout by adding a character string on the screen, and FIG. 19 is a change in product composition information by correcting the layout resulting from the addition of the character string. It is explanatory drawing which shows.
[0096]
For example, in the value composition frame W1 on the composition result display screen A, a character string is added to correct the layout as follows. First, the user uses the mouse 200 to move the mouse cursor to a position where a new character string is to be added in the value composition frame W1, and at that position, for example, by clicking the right button of the mouse 200, “open menu”. Give instructions. In response to this instruction, the display control unit 113 displays a pop-up menu at that position. Therefore, when the user selects the “add character string” instruction from the pop-up menu, the display control unit 113 is for inputting a character at a position where the mouse cursor is located as shown in FIG. A cursor 601 is displayed. When the user inputs a character string to be added using the keyboard 190, the display control unit 113 displays the input character string (in FIG. 18B) at the position of the cursor 601 as shown in FIG. (Character string "sale price"). In this way, a character string can be added at a desired position on the screen.
[0097]
When the character string is added on the screen in this way, the process of step S160 is executed, and the product composition information generation unit 111 selects any character from the items in the product composition information 171 in the column of the character collection character string. Search for items for which no column is described. For example, in the example of the product composition information 171 shown in FIG. 11, since the fifth item and the eighth item correspond to the item, the fifth item which is the earliest item is selected. Then, the product composition information generation unit 111 describes the added character string in the column of the selected character string of the fifth item. In the case of this example, as shown in FIG. 19, “sale price” is described in the column of the character collection character string of the fifth item.
[0098]
Depending on the position where the character string is added, not only the added character string is described in the character-printed character string column but also the relative position and the contents of the connection selection column may be changed.
[0099]
Subsequently, when the process of step S170 is executed, the product composition processing unit 112 performs product composition information 171 as shown in FIG. 19 based on the position of the added character string shown in FIG. In the lower left column of the fifth item in₁"In the upper right column and" Pe "₂"Is newly described.
[0100]
As described above, in a series of correction processing from step S150 to step S180, correction of the character string itself, correction of the layout caused by movement of the character string, and correction of the layout caused by addition of the character string are performed. Can be done.
[0101]
In addition, for example, correction of the character string style can be performed as follows, for example. That is, in the value composition frame on the composition result display screen A, the user selects a character string whose style is to be corrected using the mouse 200 or the like, and then clicks the right button of the mouse 200 or the like to indicate “open menu”. The display control unit 113 displays a pop-up menu with options such as “typeface correction” and “character size correction” for correcting the character string style. Therefore, when the user selects, for example, “typeface correction” from the pop-up menu, the display control unit 113 further displays a plurality of typeface types. When the user designates a desired typeface from among them, the display control unit 113 changes the typeface of the previously selected character string to the designated typeface. Thereafter, the product composition information generation unit 111 changes the contents of the typeface column (the character size column when the character size is modified) of the corresponding item in the product composition information 171 according to the correction result. The product composition processing unit 112 again determines the position of each character string in the value composition frame based on the changed product composition information 171, and corrects the position of the character string (that is, the character string) by correcting the character string style. When the position of the lower left point or upper right point of the rectangular area where the column exists changes, the contents of the lower left point or upper right point column of the corresponding item in the product composition information 171 are updated accordingly.
[0102]
As described above, in the present embodiment, when a character string after composition (value composition) is corrected, the character string itself is corrected, or the character string layout or style is corrected. If correction related to the character string is performed on the composition result display screen A displayed on the screen of the CRT 220, the contents of the product composition information 171 are changed according to the correction result, and each character string to be finally obtained is changed. Since the position information (that is, the contents of the lower left point and upper right point columns of each item in the product composition information 171) is also automatically updated, the original character data, product layout information, and product style information are restored. Therefore, it is not necessary to generate the formatting information again after the correction, and the labor of correction can be greatly reduced.
[0103]
Next, a second embodiment of the present invention will be described. In the first embodiment described above, when the correction relating to the character string is performed on the screen, only the contents of the product composition information 171 are changed, and the original typographic data 141, the product style information 151, and the product are changed. The contents of the layout information 161 were not changed. However, when using typographical data, etc. for other purposes, if the content of the product typesetting information has been changed but the original typographical data, etc. has not changed, the information consistency May not be maintained, which may cause inconvenience.
[0104]
Therefore, in the present embodiment, when the content of the product composition information 171 is changed, the content of the original typographic data is also changed to reflect the correction result.
[0105]
The configuration of the typesetting apparatus of this embodiment is substantially the same as the configuration shown in FIG. However, the CPU 110 also functions as a correction result reflecting unit in order to perform the above processing.
[0106]
Now, the processing procedure of the typesetting method performed by the typesetting apparatus of the present embodiment will be described. FIG. 20 is a flowchart showing the processing procedure of the typesetting method executed in the second embodiment of the present invention. In FIG. 20, the processing from step S210 to S270 is the same as the processing from step S110 to S170 shown in FIG.
[0107]
In step S280, the correction result reflection unit of the CPU 110 reflects the correction result in step S250 on the character setting data 141 stored in the character setting data memory 140 based on the product composition information 171 changed in step S260. (Step S280).
[0108]
Specifically, the correction result reflecting unit extracts the contents of the character string column from the items in the product composition information 171 in the numerical order of the item counter column, and stores them in the character data memory 140. Overwrite the printed character data 141.
[0109]
FIG. 21 is an explanatory diagram for explaining a state in which the correction result is reflected in the character collection data. In FIG. 21, (a) shows the contents of the original character-set data similar to that shown in FIG. 4, and (b) shows the correction result when the character string itself described in FIGS. 13 and 14 is corrected. The contents of the reflected character data are shown, and (c) shows the contents of the character data reflecting the correction results when the character strings described with reference to FIGS. 18 and 19 are added.
[0110]
When the character string itself is corrected, the character string of the character data 141 is changed in accordance with the change of the character string of the second item in the product composition information 171 shown in FIG. 14 to “Kansas luxury beef”. In the content, as shown in FIG. 21B, the character string corresponding to the second item is changed to “Kansas luxury beef”, and the correction result is reflected.
[0111]
In addition, when a character string is added, the “sale price” is newly added to the column of the fifth character setting character string in the product composition information 171 shown in FIG. In the content of the character data 141, as shown in FIG. 21 (c), a character string “sale price” is newly inserted in the fifth item, and the correction result is reflected also in this case.
[0112]
When the layout is corrected by moving the character string, even if the contents of the product composition information 171 are changed, the contents of the character-setting data are not substantially changed. That is, when the layout is modified by moving the character string, the contents of the product composition information 171 are changed as shown in FIG. 17, but at this time, even if the position of the item in the product composition information 171 is changed. The contents of the item counter column are not changed. For example, in FIG. 17, the item that was the third item is changed to the fourth item, and the item that was the fourth item is changed to the third item, but the contents of the item counter column are changed. Absent. Therefore, as described above, when the correction result reflecting unit takes out the contents of the character-printed character string column in the numerical order of the item counter column and overwrites the character-printed data 141, the position of the item in the product composition information 171 Even if is changed, the order of the extracted character strings remains the same as the order of the character strings in the original character data, so that the content of the character data is not substantially changed by overwriting. In this way, when the character string is moved and the layout is modified, the contents of the character data are not changed (specifically, the arrangement order of the character strings is not changed). This is because the character data may be inconvenient when used for other purposes.
[0113]
The present invention is not limited to the above-described examples and embodiments, and can be implemented in various modes without departing from the scope of the invention.
[0114]
For example, in each of the embodiments described above, information on the position of each character string in the value composition frame (that is, the coordinates of the lower left point and upper right point of the rectangular area where the character string exists) is included in the product composition information 171. Although it was incorporated, the position information and the product composition information may be handled separately.
[0115]
Further, in the second embodiment described above, the correction result is reflected only in the typographic data 141, but may be reflected in the product style information 151 and the product layout information 161.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a typesetting apparatus as a first embodiment of the present invention.
FIG. 2 is an explanatory diagram showing an example of value frame data stored in the value frame data memory 130 of FIG. 1;
FIG. 3 is an explanatory diagram showing an example of a screen displayed on the color CRT 220 of FIG. 1;
4 is an explanatory diagram showing an example of character setting data stored in a character setting data memory 140 of FIG. 1; FIG.
5 is an explanatory diagram showing an example of product style information stored in a product style information memory 150 of FIG. 1. FIG.
6 is an explanatory diagram showing an example of product layout information stored in a product layout information memory 160 of FIG. 1. FIG.
FIG. 7 is an explanatory diagram showing an arrangement division of each character string in a value composition frame.
FIG. 8 is a flowchart showing a processing procedure of a typesetting method executed by the typesetting apparatus of FIG. 1;
FIG. 9 is an explanatory diagram showing an example of the appearance / arrangement position setting screen B of FIG. 3;
10 is an explanatory diagram showing an example of product composition information stored in the product composition information memory 170 of FIG. 1. FIG.
FIG. 11 is an explanatory diagram illustrating an example of product composition information after the product composition processing is completed.
12 is an explanatory diagram showing an enlarged value composition frame W1 on the composition result display screen A displayed on the screen of the color CRT 220 of FIG. 1. FIG.
FIG. 13 is an explanatory diagram for explaining a method of correcting a character string itself on the screen.
FIG. 14 is an explanatory diagram showing changes in the product composition information by correcting the character string itself.
FIG. 15 is an explanatory diagram for explaining a method of correcting a layout by moving a character string on a screen.
FIG. 16 is an explanatory diagram showing a state in which a side of a rectangular area where adjacent character strings exist when a character string is moved is highlighted.
FIG. 17 is an explanatory diagram showing changes in product composition information due to layout correction caused by movement of a character string.
FIG. 18 is an explanatory diagram for explaining a method of correcting a layout by adding a character string on the screen.
FIG. 19 is an explanatory diagram showing changes in product composition information due to a layout modification caused by the addition of a character string.
FIG. 20 is a flowchart showing a processing procedure of a typesetting method executed in the second embodiment of the present invention.
FIG. 21 is an explanatory diagram for explaining a state in which the correction result is reflected in the character collection data.
[Explanation of symbols]
110 ... CPU
111 ... Product composition information generation unit
112 ... Product typesetting processor
113 ... Display control unit
120 ... main memory
130: Value frame data memory
131 ... Value frame data
140 ... Typographic data memory
141 ... typographic data
150 ... Product style information memory
151 ... Product style information
160 ... Product layout information memory
161 ... Product layout information
170: Product composition information memory
171 ... Product composition information
180 ... Magnetic disk drive
190 ... Keyboard
200 ... Mouse
220 ... Color CRT
230 ... CD-ROM drive device
235 ... CD-ROM
240 ... Network card
245 ... Network
250 ... Bus line

Claims (4)

A typesetting method for determining the arrangement of a plurality of character strings within a predetermined frame,
(A) character-printing data representing a plurality of character strings to be arranged in the frame, layout information defining a layout of each character string in the frame, and style information defining a style of each character string A process of generating typesetting information by integrating each information;
(B) determining the position of each character string in the frame based on the generated typesetting information, and obtaining position information representing each position;
(C) displaying each character string arranged at a determined position in the frame on the screen;
With
(D) correcting the character string itself displayed on the screen, the style of the character string or the layout of the character string on the screen according to a correction instruction;
(E) changing the contents of the composition information according to the correction result;
(F) re-determining the position of each character string in the frame based on the changed typesetting information, and updating the content of the position information;
Further comprising a,
The step (d)
(D-1) a step of moving a character string to be corrected in order to correct the layout of the character string on the screen;
(D-2) A step of selecting an area closest to an area where the correction target character string to be moved is present from among individual areas where each character string other than the correction target character string exists on the screen. When,
(D-3) A step of highlighting and displaying the side closest to the region where the correction target character string exists among the sides surrounding the selected region on the screen;
A typesetting method comprising: In the typesetting method according to claim 1,
(G) A typesetting method further comprising a step of reflecting the correction result in the typesetting data, layout information, or style information based on the changed typesetting information. A typesetting device for determining the arrangement of a plurality of character strings within a predetermined frame,
First storage means for storing character data representing a plurality of character strings to be arranged in the frame;
Second storage means for storing layout information defining a layout of each character string in the frame;
Third storage means for storing style information defining the style of each character string;
Typesetting information generating means for generating typesetting information in which each information is integrated from the stored typesetting data, the layout information and the style information;
Based on the generated typesetting information, typesetting processing means for determining the position of each character string in the frame and obtaining position information representing each position;
Display means for displaying each character string arranged at a determined position in the frame on the screen;
Correction means for correcting the character string itself displayed on the screen, the character string style or the character string layout on the screen in accordance with an external correction instruction;
With
The correction means moves the character string to be corrected on the screen to correct the layout of the character string, and from among the individual areas where each character string other than the correction target character string exists. The region closest to the region where the correction target character string to be moved exists is selected, and among the sides surrounding the selected region, the side closest to the region where the correction target character string exists is highlighted and displayed. And
The typesetting information generating means changes the content of the typesetting information according to the correction result when correction is made by the correction means,
The typesetting apparatus determines the position of each character string in the frame again based on the changed typesetting information, and updates the contents of the position information. A computer-readable recording medium recording a computer program for determining the arrangement of a plurality of character strings within a predetermined frame,
Each piece of information includes character-printing data representing a plurality of character strings to be arranged in the frame, layout information that defines the layout of each character string in the frame, and style information that defines the style of each character string. A function to generate typesetting information that integrates
A function of determining the position of each character string in the frame based on the generated typesetting information and obtaining position information representing each position;
A function of displaying each character string arranged at a determined position in the frame on the screen;
In order to correct the character string displayed on the screen itself, the character string style or the layout of the character string on the screen according to a correction instruction , and to correct the layout of the character string on the screen, Move the character string to be corrected, and select an area closest to the area where the correction target character string to be moved exists from among the individual areas where each character string other than the correction target character string exists A function of highlighting and displaying the side closest to the region where the correction target character string exists among the sides surrounding the selected region ;
A function of changing the content of the composition information according to the correction result;
Based on the changed typesetting information, the function of re-determining the position of each character string in the frame and updating the content of the position information;
A recording medium on which a computer program for causing a computer to be realized is recorded.

Images