JP3701338B2 - Color separation processing method and form design system - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a method for assigning a color attribute to a figure such as a primitive, text, an image, and other graphic elements. In particular, a color separation processing method for assigning a color attribute to original data (data consisting of graphic data, text data, image data, etc.), which is the original data of plate making data in the printing industry, and forms to which the color separation processing method is applied. Concerning the design system.
[0002]
[Prior art]
The primitive is, for example, a basic part of a design such as a figure such as a rectangle, a circle, a straight line, a background pattern, a pattern, a mark, a symbol, a character string, and the like, and the design is performed by combining these primitives. The primitive does not necessarily have a simple content, and the type is not limited. Any primitive that is frequently used can be a primitive.
A design using primitives is basically based on two processes: a process of specifying a primitive and a process of processing a specified primitive. There is a layout in the processing that is frequently performed in normal times, but many other processes are performed. One example is color separation processing in which a color attribute is assigned to a graphic element of a primitive that is laid out and the color attribute is given.
[0003]
Meanwhile, in the printing industry, plate making data, which is data for creating a printing plate used in a printing process, is created in the plate making process. This prepress data is created through an intermediate design stage, and there is block copy data with no color attribute added as intermediate stage design data. When the composition data is created, the hard copy is created, and based on the hard copy, detailed instructions such as customer check and color coding are received.
In the conventional color separation processing, color attributes are given to such block data, and for example, Y (Yellow), M (Magenta), C (Cyan), and K (Black) for multicolor printing. Color separation is a process for obtaining color plate data.
[0004]
[Problems to be solved by the invention]
However, in such a conventional color separation process, a color attribute must be assigned to each graphic element of graphic data, text data, image data, etc., and the number of graphic elements is 1000. This is not uncommon, and the workload is high. Of course, there is often a case in which a single graphic element in the block data is divided into a plurality of colors in the color data.
FIG. 11 is a diagram showing a comparison between the conventional method and the method of the present invention in the case of color-dividing one graphic element. As shown in FIG. 11, in the conventional method, first, a graphic element is divided into units for color separation, and color attributes are assigned to each of the obtained graphic elements. Do.
However, the process of dividing the figure elements into the number of colors to be divided is the process of giving the division instruction and executing the division process, and it requires almost the same work as redoing all the designs. Heavy work load.
SUMMARY OF THE INVENTION An object of the present invention is to provide a color separation processing method and a form design system that can greatly improve the work load of color separation.
[0005]
[Means for Solving the Problems]
The above object is achieved by the present invention described below. That is, according to the present invention, the main version setting for generating the color attribute designation data by designating the color attribute in the initial state for each type of graphic element constituting the design data by setting the color code and the halftone of the color separation in the color table A color separation processing method having a processing step, wherein the master version setting processing step specifies color attributes for ruled lines by setting a color code and halftone percentage of color separation in a color table. Specifying the color attribute for the ruled graphic color generation process, and specifying the color attribute for the network graphic by setting the color code and half% of the color separation in the color table to generate color attribute color specification data A color separation processing method comprising: a processing process; and a text color attribute specifying process for specifying color attributes for text and generating color attribute specifying data.
[0006]
The present invention is also a color separation processing method having an area color designation process for designating a color attribute for a graphic element included in a designated area and generating color attribute designation data, wherein the specified area includes the color separation processing method. In the case where there are a part including a graphic element and a part not including the graphic element, the area color specifying process includes a data dividing process for dividing the graphic element into a part included in the specified area and a part not included in the specified area. And an area color attribute change process for generating color attribute designation data by changing color attributes for a portion included in the designated area by setting a color code and a halftone of color separation in a color table ; And a color separation processing method.
[0007]
The present invention is also a color separation processing method having an individual color designation process for designating a color attribute for a designated graphic element and generating color attribute designation data, wherein the individual color designation process is performed with a designated graphic. Individual color attribute change process to change the color attribute specification data by specifying the color attribute for the element, and display the color attribute for the specified graphic element in the color attribute specification window and refer to it. The color attribute reference data is changed by setting the color code and halftone percentage of the color attribute in the color table for the specified graphic element and the color attribute reference change process in which the color attribute specification data is changed. A color attribute data setting process for changing the color separation, and a color separation processing method that is a process selected from any one of the processes.
[0008]
Further, the present invention provides a master version setting process for generating color attribute designation data by designating color attributes in an initial state for each type of graphic element constituting design data by setting a color code and halftone percentage of color separation in a color table A color specification process for generating color attribute specification data by specifying a color attribute for a graphic element included in the specified area by setting a color code and a halftone in the color table. A color separation processing method comprising: an individual color designation process for generating color attribute designation data by designating a color attribute for a given graphic element by setting a color code and halftone percentage of color separation in a color table .
[0009]
The present invention is also a form design system having color separation processing means, wherein the color separation processing means includes a master plate setting processing means, an area color designation processing means, and an individual color designation processing means. The main version setting processing means designates the color attribute of the initial state for each type of graphic element constituting the design data by setting the color code and halftone of the color separation in the color table, and generates color attribute designation data. The area color designation processing means designates a color attribute for a graphic element included in the designated area by setting a color code and halftone percentage of color separation in a color table, and generates color attribute designation data. specifying processing means for generating a color attribute specified data specified by setting the dot% and partial color color code in the color table the color attribute to the graphic element is specified, paper sheet design cis Beam, it is.
[0010]
[Action]
According to the color separation processing method of the present invention, the color of the initial state is specified for each type of graphic element constituting the design data by the master version setting process, and color attribute specification data is generated. Further, the master version setting process includes a ruled pattern color attribute specifying process, a network pattern color attribute specifying process, and a text color attribute specifying process.
The color attribute is specified for the ruled graphic by the ruled graphic color attribute specification process, and color attribute specification data is generated.
The color attribute is specified for the network graphic by the network graphic color attribute specification process, and color attribute specification data is generated.
In the text color attribute designation process, a color attribute is designated for the text and color attribute designation data is generated.
[0011]
Further, according to the color separation processing method of the present invention, the color attribute is designated for the graphic element included in the area designated by the area color designation process, and the color attribute designation data is generated. Further, the area color designation process includes a data division process and an area color attribute change process, and when the designated area includes a part including a graphic element and a part not included,
The graphic element is divided into the part included in the area specified by the data division process and the part not included,
The color attribute is changed for the portion included in the area specified by the area color attribute changing process, and color attribute specifying data is generated.
[0012]
Further, according to the color separation processing method of the present invention, color attribute designation data in which a color attribute is designated for a graphic element designated by an individual color designation process is generated. Furthermore, the individual color designation process is a process in which one of an individual color attribute change process, a color attribute reference change process, and a color attribute data setting process is selected.
The color attribute is specified for the graphic element specified by the individual color specification process, the color attribute specification data is changed,
The color attribute is displayed in the color attribute designation window and referenced for the graphic element designated by the color attribute reference change process, the color attribute is newly designated, and the color attribute designation data is changed.
The color attribute specified by the color attribute data setting process is changed by setting color table data for the graphic element, and the color attribute specifying data is changed.
[0013]
Further, according to the color separation processing method of the present invention, the color of the initial state is specified for each type of graphic element constituting the design data by the master version setting process, and color attribute specification data is generated,
Color attribute specification data with color attributes specified for the graphic elements included in the area specified by the area color specification process is generated,
A color attribute is specified for the graphic element specified by the individual color specifying process, and color attribute specifying data is generated.
Thus, the work can be efficiently performed by designating the color attribute by the hierarchical structure of the entire design data, region, and individual.
[0014]
According to the form design system of the present invention, the form design system includes color separation processing means, wherein the color separation processing means includes a master version setting processing means, an area color designation processing means, and an individual color designation. Processing means,
The color of the initial state is specified and the color attribute specification data is generated for each type of graphic element constituting the design data by the master version setting processing means,
Color attributes are specified for the graphic elements included in the area specified by the area color specification processing means, and color attribute specification data is generated.
A color attribute is specified for the graphic element specified by the individual color specifying processing means, and color attribute specifying data is generated.
[0015]
【Example】
The color separation processing method and form design system of the present invention will be described below with reference to preferred embodiments.
FIG. 1 is a diagram showing the configuration of an apparatus for carrying out the color separation processing method of the present invention. In FIG. 1, a part surrounded by a solid line frame 1 is a color separation processing apparatus for performing the color separation processing method of the present invention, 2 is a LAN (Local Area Network) such as Ethernet, and 3 is a basic component (primitive). Data store system for storing data, design data, and other data and transferring the data to / from the color separation processing device via LAN, 4 for input devices such as keyboard and mouse, 5 for display, printer, etc. Output means.
[0016]
In FIG. 1, the color separation processing apparatus 1 is further configured in detail, 6 is a storage means, 7 is a calculation means, and is a main part of a computer such as a personal computer or an engineering workstation.
In the storage means 6, 8 is design data read from the data store system 3 or originally stored, and 9 is color separation design data obtained by performing color separation processing on the design data 8.
Further, in the calculation means 7, 10 is a master version setting processing routine for designating the initial color for each type of graphic element constituting the design data and generating color attribute data, and 11 is for the graphic element included in the designated area. An area color designation processing routine for designating color attributes and generating color attribute designation data, and 12 is an individual color designation processing routine for designating color attributes for designated graphic elements and generating color attribute designation data.
[0017]
FIG. 2 is a main flowchart showing the flow of color separation processing. The details will be described later. First, the processing in FIG. 2 will be briefly described. The design data 8 such as composition data is displayed and the main screen where the design is performed places the mouse pointing point on the part where “color separation” is displayed and clicks the mouse button to open the color separation menu and open the output device 5 It is displayed on the display (S1). There are three menus, “main version setting”, “area designation”, and “individual color separation”, and the mouse point is placed on the menu display and one of them is selected by clicking the mouse button (S2).
When “Main plate setting” is selected, the main plate setting processing routine is started and main plate setting processing is performed (S3). When “Region specifying” is selected, the region specifying processing routine is started and the region is set. Designation processing is performed (S4), and when “individual color separation” is selected, an individual color separation processing routine is activated and individual color separation processing is performed (S5).
At the end of the process, it is selected whether to end or continue the color separation process (S6). If it is an end selection, the process ends. If it is a continuous selection, the process returns to the target graphic selection (S1).
[0018]
Next, details of each processing routine will be described individually. First, the master version setting process (S3 in FIG. 2) will be described. FIG. 3 is a flowchart showing the processing steps in the main version setting processing routine 10. In FIG. 3, first, a design data type in which the data of the main version setting takes effect is designated. Normally, design data is created in a plurality of design processes or systems. Design data for a specific design process or system is designated, and the main version is set only for the design data (S101).
Next, for the ruled figure (Frame), the color attribute to be the main version is set. FIG. 4 is a diagram showing an example of a color attribute setting screen for setting color attributes. This screen is a dialog screen for interactively inputting and outputting data between the operator and the system. The following items are specified on this screen (S102).
(1) When special color is specified (1) Color code (2) Net%
(2) For process color (1) Y, M, C, K net%
[0019]
The data handled as ruled figures (Frame) are as follows, for example.
Straight line, equally divided (vertical, horizontal), rectangular frame, circle frame, ellipse frame, free curve frame, continuous line frame, trimming rectangle frame, trimming circle frame, trimming ellipse frame, With trimming free curve frame, trimming continuous line frame, trimming text frame, etc.
[0020]
In addition, the color attribute to be the main version is set for the net figure (Fill). This setting is performed on the color attribute setting screen as in the case of the ruled graphic (Frame) (S103).
Data handled as a net figure (Fill) is as follows, for example.
Rectangular Fill, Circle Fill, Ellipse Fill, Free Curve Fill, Continuous Line Fill, Part Image, etc.
For text, set the color attribute to be the main edition. This setting is performed on the color attribute setting screen as in the case of the ruled graphic (Frame) (S104).
Data handled as text is text.
Next, based on the color attribute designated in the processing of S102 to S104, the color attribute of the corresponding data is changed and redisplayed based on the designated color attribute (S105).
[0021]
Next, the area designation process (S4 in FIG. 2) will be described. FIG. 5 is a flowchart showing the processing steps in the area designation processing routine 11. In FIG. 5, first, a target graphic designating process for preliminarily limiting graphic elements affected by an area designated later is performed. A window for designating a graphic element is displayed, and a graphic element for which the area designation data has an effect is designated. The graphic elements that can be specified are ruled graphic, network graphic, text graphic, and the like, and a plurality of graphic elements can be specified at the same time (S201).
Next, the area designating process is performed in a manner that surrounds the area where it is desired to change the color attribute (usually the color attribute has already been set in advance of the main version setting process). Specify the rectangular area where you want to change the color attribute. When even a part of the graphic is included in the designated area, the graphic is subjected to subsequent processing (S202).
[0022]
Next, color attribute designation processing for designating color attributes is performed on the graphic elements included in the designated area. A color attribute is given to the graphic element included in the area designated in the area designation processing described above. When the color attribute is designated, a color designation window is displayed. The following items are specified on the color specification window.
(1) When spot color is designated (S203)
(1) Color code (2) Net%
(2) For process color (1) Y, M, C, K net%
[0023]
Next, the presence or absence of graphic data to be processed is checked. Processing is performed for all the graphic data. If there is graphic data to be processed, the subsequent processing (inclusion check processing) is performed, and if there is no graphic data to be processed, the region designation processing is terminated (S204).
Next, an inclusion check process is performed to check whether each figure is included in the designated area. Checks whether each figure is included in the specified area. FIG. 6 is an explanatory diagram showing the inclusion relationship between the designated area and the figure. FIGS. 6A and 6B are diagrams showing a state of complete inclusion in which a graphic defined as one segment is completely present in a designated area. FIG. 6A shows a case where a figure is included in the designated area, and FIG. 6B shows a case where a figure is contained in the area including the designated area. FIGS. 6C and 6D are diagrams showing a partially included state in which a part of a graphic defined as one segment exists in a designated area. In FIG. 6 (C) and FIG. 6 (D), the shaded area is the corresponding part.
[0024]
Next, the processing method is changed as follows according to the checked result (S206).
(1) In the case of complete inclusion: the process to the color attribute changing process in S207 (2) In the case of partial inclusion: The process in the data division process in S208 (3) When not included: The process in S204 To check whether there is graphic data
In the color attribute changing process, the color attribute of the corresponding graphic is changed to the designated color attribute, redisplayed with the color attribute, and the process proceeds to S204 (S207).
In the data dividing process, the target graphic is divided into graphic elements in the designated area (see FIG. 11) (S208). Further, among the divided graphic elements, the color attribute of the graphic element included in the designated area is changed to the designated color attribute, redisplayed with the color attribute, and the process proceeds to S204 (S209).
[0026]
Next, the individual color separation process (S5 in FIG. 2) will be described. FIG. 7 is a flowchart showing the processing steps in the individual color separation processing routine 12. In FIG. 7, first, a window display process for displaying a color attribute designation window for simply changing only the color attribute is performed (S301). Designation is performed by mouse input from the following processing menu or graphic displayed in this window (S302), and any of the following processing (1) to (3) is performed by the designation (S303).
(1) When specifying an end menu: The individual color separation process is ended.
(2) When zoom menu is designated: A zoom process is performed, and the process returns to S302 after the process.
(3) In the case of figure designation: to S304 editing state processing [0027]
Next, an editing process is performed for bringing the selected figure into an editing state (also referred to as a designated state). Edited figures are locked so that editing functions such as movement and deformation using knobs (marks that indicate that the figure is in an editable state) are displayed on the four corners of the rectangle surrounding the figure. (S304).
Next, designation is performed by mouse input from the following processing menu or figure (S305), and any of the following processes (1) to (3) is performed according to the designation (S306).
(1) If the color attribute change menu is designated, the following processing is performed (S307).
(1) Change to a predetermined color attribute.
(2) Change the contents of the color table on the memory.
(3) The process returns to S305.
[0028]
(2) When the color attribute reference menu is designated, the following processing is performed (S308, S309).
(1) The cursor shape displayed on the screen is changed to a magnifying glass and displayed.
(2) The color component of the designated graphic data is set in the color attribute designation window.
(3) Change the contents of the color table on the memory.
(4) The process returns to S305.
(3) If the data set menu is designated, the following processing is performed (S310, S311).
(1) The contents of the color table on the memory are set as graphic data.
(2) Redisplay with the specified color attribute.
(3) The process returns to S302.
[0029]
Next, a form design system of the present invention in which the above-described color separation processing method is applied to a form design system will be described.
In this case, the forms are those provided with items (entry fields) for entering predetermined data such as slips, copy slips, OCR slips, passbooks, application slips, notification slips, and the like.
FIG. 8 is a diagram showing an example of the configuration of an integrated system that includes a form design system of the present invention and its peripheral devices and connects a main office and a remote office. In FIG. 8, 21a and 21b are BFD (Business Form Design) terminals comprising a form design system of the present invention having a color separation processing function and an input / output device, 22 is a LAN Ethernet, 23 is BFD data, and various image data. A data store system for storing and managing data (color images, component images, etc.), 24 for a plate making scanner for inputting original images, 25 for a film output device for outputting image data to photographic film, and 26 for BFD data BFD conversion server that obtains image data converted from the data format of the above, 27 is a comp output machine that color prints out color image data on plain paper, and 28 is a form creation system that creates a composition for printing FCS (Form Composing System), 29 is a router of a device for connecting networks between remote locations.
[0030]
FIG. 9 is a flowchart showing the flow of processing of the main routine of the form design system 21 (a, b) of the present invention. In FIG. 9, when the form design system 21 is started, a main menu is displayed on the display (S21). The main menu includes four menus of “utility”, “form creation”, “output”, and “end”, and by selecting one of them, the process proceeds to those (S22). When “utility” is selected, a utility processing routine (S23) is started. When “form creation” is selected, a form creation processing routine (S24) is started. When “output” is selected, an output processing routine (S23) is started. When S25) is activated and “end” is selected, the form design system ends. When the processing routine other than “end” is completed, the process returns to the main menu display (S21) of the main routine.
[0031]
In the utility processing routine (S23), there are further submenus such as “component image management”, “color image management”, “BFD data management”, “form component data management”, “sample form data management”, “WS ( Workstation) data capture processing ".
In “component image management”, logo data management for each user and management processing for punctuals and the like are performed. Also, each process of initializing the cartridge MT for the component image (primitive), saving the component image data, and loading the component image data is performed.
In “color image management”, photographic image management processing is performed. Further, initialization of the color image cartridge MT, saving of the color image data, and loading of the color image data are performed.
[0032]
In “BFD data management”, management processing of data created by BFD is performed. Also, the BFD data cartridge MT is initialized, the BFD data is saved, and the BFD data is loaded.
In “form part data management”, management processing of form parts (forms in which only necessary portions are divided and stored) is performed. Further, initialization of the cartridge MT for form part data, saving of form part data, and loading of form part data are performed.
In “sample form data management”, a sample form (presentation form) is managed. In addition, initialization of the cartridge MT for sample form data, saving of the sample form data, and loading of the sample form data are performed.
In “WS (Workstasion) data import processing”, processing for removing margins and registering data of image data captured from the scanner via WS is performed.
[0033]
In the output processing routine (S25), all-color synthesized output or C (Cyan), M (Mgenta), Y (Yellow), Bk (Black), spot colors 1 to 24 are output to the comp output machine 27 (see FIG. 8). "Comp output processing" that performs color separation output up to C, M, Y, Bk, color separation positive film from color 1 to color 24, or color separation negative film is output to the film output device 25 (see FIG. 8). Perform “film output processing”. In addition, a “layout output process” is performed for performing layout and outputting when performing these outputs.
[0034]
In the “layout output process”, there are further submenus, and “layout”, “offset”, and “rotation output” are performed.
In “layout”, there are further submenus for “automatic” and “position designation”.
“Auto” means whether to place the next form on the right side or the lower side of the previous form layout when outputting multiple forms (arranging multiple forms) By designating, the process of automatically completing the arrangement is performed.
“Position designation” is a process that is designated when replacement output, composite output, or the like is performed, and layout designation is performed by inputting coordinate values based on the upper left of the designated form. That is, at the time when the (1) position designation submenu is designated, the target form is designated with the mouse. (2) A relative coordinate value based on the upper left of the form designated in the coordinate input window is input.
[0035]
In “Offset”, there is a submenu, and “Offset” and “Offset” are performed. The default is “with offset”.
“With offset” gives a finished size having a predetermined offset distance inward from the outer frame relative to the outer frame size of the film.
“No offset” is a state in which the finished size and the film size coincide with each other, and the registration marks existing outside the finished size are removed.
In “Rotation output”, there are further submenus, and “Positive output”, “90 degree rotation output”, “180 degree rotation output”, and “270 degree rotation output” are performed. The default is “forward output”.
“Positive output” outputs the form in the forward direction as the name suggests. Others are rotated clockwise by the angle as the name suggests.
[0036]
Next, a case where the form creation processing routine is activated in the main routine will be described. FIG. 10 is a flowchart showing the flow of processing in the form creation processing routine.
When the form creation processing routine (S24 in FIG. 9) is started in FIG. 10, a submenu in this processing routine is displayed (S31). The submenu consists of “File”, “Design”, “Display”, “Color separation”, “Utility”, “Layout”, “Edit”, “Parts”, and when one of these submenus is selected The processing routine for the selected menu is started (S32).
[0037]
The file processing routine (S33) further includes sub-menus “read”, “register”, “composite”, and “attribute”, and reads or registers a BFD file. “Read” reads a BFD file, “Register” registers a BFD file, “Combine” combines each sheet of the same order and combines them into one sheet, and “Attribute” sets each sheet Specify eye attributes (size, etc.).
The design processing routine (S34) further includes submenus “drawing tool”, “text”, “color image”, “part image”, and “dragonfly”, and provides various tools for designing a form. The “drawing tool” creates straight lines, boxes, circles, ellipses, continuous lines, free curves, equal dividing lines, closed area screens (halftone creation), and auxiliary lines. “Text” creates Japanese and European texts. "Color image" is performed by trimming the color image in any shape, "Part image" is performed by trimming the logo image in any shape, and "Register mark" is for print management This is a tool for pasting registration marks (alignment marks).
Primitives (that is, parts) can also be created here, and the created data such as figures and texts are registered as primitives in the later-described part processing routine (S40), and are thus made primitives.
[0038]
The display processing routine (S35) further includes submenus “chart setting”, “screen zoom”, “auxiliary line display”, “screen switching”, and “screen scroll”, and provides various tools related to display display. “Chart setting” displays the specified chart on the display, “Screen zoom” enlarges the displayed screen, “Auxiliary line display” displays the auxiliary line, and “Screen change” displays the form mount (registered) The screen is switched between two screens (data creation screen) and work board (work screen), and “screen scroll” performs a process of scrolling the screen to be displayed.
The color separation processing routine (S36) further includes submenus “main plate setting”, “filter color separation”, “individual color separation”, and “gradation processing”, and performs color separation work of BFD data and FCS block data. Perform the process to be performed. “Main plate setting” sets the color attribute to be used mainly for ruled line, halftone, and character data at once, and “Filter color separation” sets the ruled line, halftone, A color attribute is designated for each character, and “individual color separation” performs a process of simply designating only the color attribute for each data. Further, the “gradation process” performs a process of giving gradation to the target graphic by giving the gradation itself an angle independent of the angle of the target graphic.
The “main plate setting”, “filter color separation”, and “individual color separation” in this color separation processing routine (S36) constitute the present invention.
[0039]
The utility processing routine (S37) further includes submenus “color conversion”, “screen setting”, “part image DB search”, and “color image DB search”, and performs design support processing in the form creation mode. "Color conversion" changes the form data created with special colors to process colors at once, "Screen settings" sets the resolution, number of lines, and angles of the output machine to use, and "Parts image DB search" is good The previous logo or the like is searched from the database, and “color image DB search” performs a process of searching for a color image (photo or the like) from the database.
[0040]
The layout processing routine (S38) further includes submenus “Auxiliary line movement”, “Vertical line reference movement”, “Horizontal line reference movement”, “Line target copy”, “Copy mirror image”, “Rotation”, and “Repeat”. , Process related to design layout. “Move auxiliary line” aligns the specified figure with the input auxiliary line, “Move vertical line reference” aligns the specified figure, text, etc. to the vertical reference line, “Move horizontal line reference” moves the specified figure, text, etc. Perform processing to align with the horizontal reference line.
"Copy line target" copies the specified figure to the target with reference line (vertical, horizontal) as reference, and "Copy mirror image" copies the specified figure as a mirror image with reference line (vertical, horizontal) as reference. Process. “Rotate” rotates the specified figure to an arbitrary angle, and “repeat” performs processing for mainly creating a tint block or the like.
In this “repeat” processing, simple alignment processing, alignment processing while enlarging or reducing, alignment processing while gradually rotating, and processing of arranging figures while gradually changing halftone% are performed. Further, after the processing, it can be cut into an arbitrary shape by trimming processing on the editing screen.
[0041]
The edit processing routine (S39) has “movement”, “enlargement or reduction”, “rotation”, “cut”, “copy”, and “pack” as submenus, and performs processing related to graphic editing. “Pack” is a process for grouping a plurality of figures and making them subject to various operations.
The component processing routine (S40) further includes submenus “BFD data”, “FCS data”, “sample component”, and “form component”, and performs various component reading or registration processing. Primitives (that is, parts) are read or registered in this part processing routine. “BFD data” reads BFD data, “FCS data” reads the composition data created by FCS, “sample part” registers presentation form, “form part” is in form The necessary parts are cut out and registered as parts, and the registered form parts are read and combined with the data currently being edited.
[0042]
【The invention's effect】
As described above, according to the present invention, there is provided a color separation processing method and a form design system capable of greatly improving the work load for performing color separation.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of an apparatus for performing a color separation processing method of the present invention.
FIG. 2 is a flowchart showing a flow of color separation processing.
FIG. 3 is a flowchart showing a process in a main version setting process routine.
FIG. 4 is a diagram illustrating an example of a color attribute setting screen for setting color attributes.
FIG. 5 is a flowchart showing a process in an area designation process routine.
FIG. 6 is an explanatory diagram showing an inclusion relationship between a designated area and a figure.
FIG. 7 is a flowchart showing a process in an individual color separation processing routine.
FIG. 8 is a diagram showing an example of the configuration of an integrated system that includes a form design system of the present invention and its peripheral devices and connects a main office and a remote office.
FIG. 9 is a flowchart showing a flow of processing of a main routine of the form design system of the present invention.
FIG. 10 is a flowchart showing a flow of processing in a form creation processing routine.
FIG. 11 is a diagram showing a contrast between a conventional method and a method according to the present invention in the case of color-dividing one graphic element.
[Explanation of symbols]
1 Color separation processing device 2 LAN
3, 23 Data store system 4 Input device 5 Output device 6 Storage device 7 Calculation device 8 Design data 9 Color separation design data 10 Master plate setting processing routine 11 Area designation processing routine 12 Individual color separation processing routines 21a, 21b BFD terminal 22 Ethernet 24 Plate making scanner 25 Film output machine 26 BFD conversion server 27 Comp output machine 28 FCS
29 routers

Claims (5)

A color separation processing method having a main plate setting process for designating color attributes in an initial state for each type of graphic elements constituting design data and generating color attribute specifying data, wherein the main plate setting process includes a ruled graphic color tables and ruled graphic color attribute designation process of generating the specified color attributes specified data by the color attribute set the color code and the dot% of the partial color in the color table, the color attribute to the network graphic against Specifies the color code and half-tone color code of the specified color to generate color attribute specification data, and the color attribute specification process in the color table. And a text color attribute designating process for generating color attribute designating data designated by setting the color separation processing method. A color separation processing method having an area color designation process for designating color attributes and generating color attribute designation data for a graphic element contained in a designated area, wherein the graphic element is included in the designated area In the case where there are a portion to be included and a portion not to be included, the region color specification processing step includes a data division processing step for dividing the graphic element into a portion included in the specified region and a portion not included in the specified region, and the specification An area color attribute changing process for generating color attribute designation data by changing a color attribute for a portion included in the specified area by setting a color code and a halftone of a color separation in the color table. A characteristic color separation processing method. A color separation processing method having an individual color designation process for designating a color attribute for a designated graphic element and generating color attribute designation data, wherein the individual color designation process includes a color for a designated graphic element. The individual color attribute change process that specifies the attribute and changes the color attribute specification data, and the color attribute for the specified graphic element is displayed in the color attribute specification window and referenced, and then the color attribute is newly specified and the color is specified. Color attribute reference change process that changes attribute specification data, and color that changes color attribute specification data by changing the color attribute of the specified graphic element by setting a color code and halftone percentage in the color table A color separation processing method characterized by being a process selected from any one of attribute data setting process. A main version setting process for generating color attribute specification data by specifying color attributes and halftones in the color table in the color table in the initial state for each type of graphic element constituting the design data. Area color specification process for generating color attribute specification data by specifying the color attribute for the graphic element included in the specified area by setting the color code and halftone of the color separation in the color table, and for the specified graphic element A color separation processing method comprising: an individual color designation processing step for designating color attributes by setting a color code and a halftone of color separation in a color table and generating color attribute designation data. A form design system having color separation processing means, wherein the color separation processing means includes a master version setting processing means, an area color designation processing means, and an individual color designation processing means, and the master version setting The processing means designates the color attribute in the initial state for each type of graphic element constituting the design data by setting the color code and halftone color of the color separation in the color table, and generates color attribute designation data. The means designates the color attribute for the graphic element included in the designated area by setting the color code and halftone percentage of the color separation in the color table, and generates color attribute designation data. The individual color designation processing means designates paper sheet design and said generating a specified color attribute designation data, it by setting the dot% and partial color color code in the color table the color attribute to the graphic element is sheet Temu.

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