JP2017027372A - Printer driver and information processing apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a printer driver compatible with multiple models of printers, and an information processing apparatus.SOLUTION: A printer driver 10 causes a PC to function as: a configuration processing unit 21 which holds configuration information of a printer driver, to generate configuration data on the basis of the configuration information; a UI unit 50 which causes a display device to display a print setting screen; and a drawing processing unit 25 which executes drawing processing on print job data generated in the PC. The configuration processing unit holds multiple pieces of unique configuration data 23 (unique configuration information) prepared for each model of printers and defining functions of the models, selects arbitrary unique configuration data from among the multiple pieces of configuration data, and generates configuration data, on the basis of the selected unique configuration data.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a printer driver and an information processing apparatus.

  Conventionally, a version 3 printer driver (V3 printer driver) assuming Windows 2000 to Windows 7 has been provided as a printer driver that operates on an operating system (OS) of Windows (registered trademark). Also, as a universal printer driver (UPD) that supports various types of printing apparatuses with a single printer driver, a printer that uses the architecture of a V3 printer driver is known.

  On the other hand, with the advent of Windows 8, each manufacturer is developing a version 4 printer driver (V4 printer driver) that adopts a new architecture. In Windows to be released in the future, the architecture of the V4 printer driver is considered to be mainstream, and therefore, there is a demand for providing a universal printer driver based on the current architecture.

  For example, Patent Document 1 discloses a technique related to a universal printer driver based on the architecture of a V3 printer driver. According to Patent Document 1, a plurality of child drivers prepared for each model are provided, and the child drivers are switched according to the output destination printing apparatus. As a result, a single printer driver can support a plurality of types of printing apparatuses.

JP 2012-43161 A

  In the method disclosed in Patent Document 1, one driver supports a plurality of models. However, each child driver included in the driver is a V3 printer driver itself corresponding to a specific model, It is just switching. Further, since the architectures of the V4 printer driver and the V3 printer driver are completely different, it is difficult to realize a universal printer driver based on the V4 printer driver by the same method as the V3 printer driver.

  The present invention has been made in view of such circumstances, and an object thereof is to provide a printer driver and an information processing apparatus corresponding to a plurality of types of printing apparatuses.

  In order to solve this problem, the first invention provides a printer driver that operates in an information processing apparatus that transmits print job data to a printing apparatus. Here, in the information processing apparatus, the configuration processing unit that holds the configuration information of the printer driver and generates the configuration data based on the configuration information, the UI unit that displays the print setting screen on the display unit, and the information processing device It functions as a drawing processing unit that performs drawing processing on the generated print job data. In this case, the configuration processing unit is prepared for each model of the printing apparatus, holds a plurality of unique configuration information each defining the function of the model, and selects arbitrary unique configuration information from the plurality of unique configuration information. Configuration data is generated based on the selected unique configuration information.

  Here, in the first invention, the configuration processing unit further includes common configuration information that defines a function that is common among the models of the printing apparatus, and configuration data based on the selected specific configuration information and the common configuration information. Is preferably generated.

  In the first invention, the configuration processing unit compares the generated configuration data with the current print setting information used by the operating system, and if there is a corresponding print setting item, It is preferable to generate final configuration data by reflecting the current print setting information in the generated configuration data.

  In the first invention, the configuration processing unit preferably selects unique configuration information corresponding to the model based on the model of the printing apparatus selected by the user.

  In the first invention, it is preferable that the UI unit generates a print setting screen based on the configuration data generated by the configuration processing unit, and causes the display unit to display the generated print setting screen.

  In the first invention, it is preferable that the drawing processing unit sets a drawing processing condition based on the configuration data generated by the configuration processing unit.

  A second invention is an information processing apparatus that transmits print job data to a printing apparatus, and includes an information providing apparatus that includes a processor and a storage device that stores a printer driver executed by the processor. provide. Here, the processor is generated in a configuration processing unit that holds configuration information of the printer driver and generates configuration data based on the configuration information, a UI unit that displays a print setting screen on the display unit, and an information processing device. A print processing unit that performs a drawing process on the print job data. In this case, the configuration processing unit is prepared for each model of the printing apparatus, holds a plurality of unique configuration information each defining the function of the model, and selects arbitrary unique configuration information from the plurality of unique configuration information. Preferably, the configuration data is generated based on the selected unique configuration information.

  Here, in the second invention, the configuration processing unit further includes common configuration information that defines a function that is common among the types of printing apparatuses, and configuration data based on the selected specific configuration information and the common configuration information. Is preferably generated.

  In the second invention, the configuration processing unit compares the generated configuration data with the current print setting information used by the operating system, and if there is a corresponding print setting item, It is preferable to generate final configuration data by reflecting the current print setting information in the generated configuration data.

  In the second invention, the configuration processing unit preferably selects unique configuration information corresponding to the model based on the model of the printing apparatus selected by the user.

  In the second invention, it is preferable that the UI unit generates a print setting screen based on the configuration data generated by the configuration processing unit, and causes the display unit to display the generated print setting screen.

  In the second invention, it is preferable that the drawing processing unit sets a drawing processing condition based on the configuration data generated by the configuration processing unit.

  According to the present invention, it is possible to appropriately generate configuration data suitable for a model by selectively using the configuration processing unit according to the model of the printing apparatus. As a result, a single printer driver can support various types of printing apparatuses.

Explanatory drawing which shows the structure of the printing control system which concerns on this embodiment. Block diagram showing the configuration of the printing device Block diagram showing the configuration of the PC Explanatory drawing which shows the structure of the control part of PC Explanatory drawing showing an example of common configuration data consisting of GPD files Explanatory drawing showing an example of function definition Explanatory drawing showing an example of model group information Explanatory drawing which shows the structure of a drawing process part Flowchart showing configuration data generation processing by the configuration processing unit The flowchart which shows the drawing process by a drawing process part

  FIG. 1 is an explanatory diagram showing a configuration of a print control system according to the present embodiment. The print control system according to this embodiment includes a printing apparatus 100 and a PC 200 that transmits print job data to the printing apparatus 100. The printing apparatus 100 and the PC 200 are connected to a network such as a LAN (Local Area Network) and configured to be able to communicate with each other. In the present embodiment, two printing apparatuses 100 and one PC 200 are provided. The two printing apparatuses 100 are different models. For example, one printing apparatus 100 is an MFP (Multifunction Peripheral), and the other printing apparatus 100 is a printer. Note that the number of printing apparatuses 100 and PCs 200 is not limited to this, and the network may include an external network such as the Internet.

  The printing apparatus 100 includes a document reading function for reading a document and an image forming function for forming an image on a sheet based on image data. The printing apparatus 100 can also include a post-processing function for performing post-processing on a sheet on which an image is formed.

  FIG. 2 is a block diagram illustrating a configuration of the printing apparatus 100. The printing apparatus 100 includes a main circuit 110, an automatic document feeder 120, a document reading unit 130, an image forming unit 140, a paper feeding unit 150, and an operation panel 160.

  The automatic document feeder 120 conveys the document to the document reading unit 130. The document reading unit 130 reads the conveyed document and outputs image data. The image forming unit 140 forms an image on a sheet based on the image data. The paper feeding unit 150 supplies paper to the image forming unit 140.

  The operation panel 160 is provided on the upper surface of the printing apparatus 100 and includes a display unit 161 and an operation unit 163. The display unit 161 is a display device such as a liquid crystal display (LCD) or an organic ELD (Electro-Luminescence Display), and displays an instruction menu for the user, information on image data, and the like. The operation unit 163 includes a touch panel 165 provided on the display unit 161 and a hard key unit 167 including a plurality of keys. The operation unit 163 receives input of various instructions, data such as characters and numbers by user operations.

  The main circuit 110 includes a CPU 111, a communication interface (I / F) unit 112, a ROM 113, a RAM 114, and a hard disk drive (HDD) 115.

  The CPU 111 is connected to the automatic document feeder 120, the document reading unit 130, the image forming unit 140, the paper feeding unit 150, and the operation panel 160. The CPU 111 is configured by a printer controller 111A and an engine control unit 111B when this is viewed functionally.

  The printer controller 111A has a function for processing print job data transmitted from the PC 200 as the information processing apparatus. The printer controller 111A converts print job data into image data (raster data), and outputs the image data to the engine control unit 111B.

  The engine control unit 111B performs control processing of the entire printing apparatus 100. The engine control unit 111B performs an image forming process based on the image data.

  The communication I / F unit 112 is an interface for connecting the printing apparatus 100 to a network. The CPU 111 can communicate with the PC 200 via the communication I / F unit 112.

  The ROM 113 stores a program executed by the CPU 111 or data necessary for executing the program. The RAM 114 is a work area when the CPU 111 executes a program. The RAM 114 temporarily stores image data output from the document reading unit 130.

  The HDD 115 stores a program executed by the CPU 111. The CPU 111 loads the program recorded in the HDD 115 to the RAM 114 and executes it.

  FIG. 3 is a block diagram showing the configuration of the PC 200. The PC 200 includes a control unit 210, a storage device 220, a display device 230, an input device 240, a communication I / F unit 250, and the like, which are connected to each other via a bus 260 (information processing device).

  The control unit 210 is mainly configured by a CPU 210a, a ROM 210b, and a RAM 210c. The CPU 210a is based on an operating system, and executes middleware, application programs, and the like (processor). The ROM 210b stores various programs executed by the CPU 210a in the form of program codes readable by the CPU 210a. The ROM 210b stores data necessary for executing the program. The RAM 210c is a memory serving as a working storage area. When the program and data stored in the ROM 210b and the storage device 220 are read by the CPU 210a, they are expanded on the RAM 210c. The CPU 210a performs various processes based on the program and data developed on the RAM 210c.

  The storage device 220 is, for example, an HDD (Hard Disk Drive), and stores various programs such as applications. The display device 230 includes a CRT, a liquid crystal display device, and the like, and displays various information, various messages, dialogs, and the like (display unit). The input device 240 includes a keyboard and a mouse, and is used for an input operation by a user. The communication I / F unit 250 is an interface that transmits and receives data to and from the printing apparatus 100 and external devices via a network.

  The PC 200 includes, for example, Windows as an operating system. The PC 200 is installed with an application (application program) that operates on the operating system.

  The PC 200 is also installed with a printer driver that operates on the operating system. The addition / deletion of a file related to the printer driver is managed by the operating system, and is performed through installation and uninstallation of the printer driver. The installed printer driver is stored in a Windows system folder, and a file that operates as a printer driver on the operating system is stored in the system folder.

  FIG. 4 is an explanatory diagram showing the configuration of the control unit 210 of the PC 200. The CPU 210a executes various functions provided by the printer driver 10 by expanding and executing the installed printer driver 10 on the RAM 210c. When a print command is issued by the application 70, the printer driver 10 (the control unit 210) generates data in a format that can be supported by the printing apparatus 100, and transmits the data to the printing apparatus 100 as print job data. The description language format of the print job data is PDL (Page Description Language) such as PCL (Printer Control Language). The print job data includes print data related to a document such as a document (text), a graphic (graphics), and an image (image), and print settings that are settings for forming an image of the print data on paper.

  In the present embodiment, the printer driver 10 is a V4 printer driver that operates on a Windows operating system. The printer driver 10 includes a driver core unit 20 and a UI unit (user interface unit) 50.

  The driver core unit 20 includes a configuration processing unit 21 and a drawing processing unit 25.

  The configuration processing unit 21 holds configuration information of the printer driver 10, that is, configuration information of the printing apparatus 100 to which the printer driver 10 corresponds. The configuration information is information such as a function definition that defines the function of the printing apparatus 100. Further, the configuration processing unit 21 generates configuration data (print ticket: PrintTicket) based on the configuration information, and performs various processes associated therewith. The configuration data is data describing print setting information, and holds information corresponding to the printing apparatus 100 (model) selected by the user. The generated configuration data includes information such as which setting value is specified for various print setting items related to the model. Further, the generated configuration data includes information on a model group to which the model of the printing apparatus 100 selected by the user belongs. The generated configuration data is used by the drawing processing unit 25, the UI unit 50, and the application 70.

  The configuration processing unit 21 includes common configuration data 22 and unique configuration data 23.

  The common configuration data 22 is data having function definition information (common configuration information) common to the models of the printing apparatus 100. The common configuration data 22 is defined by a configuration file such as a GPD (Generic Printer Description) file.

  FIG. 5 is an explanatory diagram showing an example of the common configuration data 22 made up of GPD files. As shown in the figure, the common configuration data 22 defines, for example, information on a paper size (“PageMediaSize”) and a paper orientation (“Orientation”). The common configuration data 22 includes, for example, a definition of a function for switching compatible models (“Model @ DevOpt”). The printer property screen provided by the operating system is displayed based on the description of the GPD file, and the model can be switched from the printer property screen.

  The unique configuration data 23 is data having function definitions specific to each model of the printing apparatus 100 and model group definition information (unique configuration information) that defines the model group to which the model belongs. Here, the “model group” is a classification of the printing apparatus 100 according to the attribute of the model, and one or more models are associated with each model group. In the unique configuration data 23, a plurality of unique configuration data (unique configuration information) is prepared according to the models that can be supported by the printer driver 10 (for example, unique configurations corresponding to three models (DevA, DevB, DevC)). data). The unique configuration data 23 is defined by a driver property bag that stores a list of driver properties.

  FIG. 6 is an explanatory diagram illustrating an example of a function definition. In the function definition, functions for the models (DeviceA, DeviceB, DeviceC) of the printing apparatus 100 are defined. This function includes, for example, staple, punch, fold, and the like.

  FIG. 7 is an explanatory diagram showing an example of the model group definition. The model group definition defines which model group the printer apparatus 100 corresponds to among a plurality of model groups such as an MFP and a printer. In the model group definition, it is defined which model group each model of the printing apparatus 100 corresponds to among a plurality of model groups such as a color machine and a monochrome machine.

  In the example shown in FIGS. 6 and 7, the function definition and the model group definition are defined in separate tags. However, the function definition and the model group definition can be defined in the same tag.

  Referring to FIG. 4 again, the drawing processing unit 25 performs drawing processing (rendering processing) on the print job data generated in the PC 200 based on the configuration data generated by the configuration processing unit 21. That is, the drawing processing unit 25 converts data (print job data) generated by the application 70 into print job data in a format such as PCL in accordance with the configuration data from the configuration processing unit 21.

  The drawing processing unit 25 includes a common drawing processing unit 26 and unique drawing processing units 27A and 27B. Here, FIG. 8 is an explanatory diagram showing a configuration of the drawing processing unit 25.

  The common drawing processing unit 26 performs drawing processing that is common among the models of the printing apparatus 100. In the example illustrated in FIG. 8, the common drawing processing unit 26 includes a PJL provider filter (PJL (Printer Job Language) Provider Filter) 26 a, filters 1 to n (Filter) 26 b 1 to 26 bn, a job creation filter (Job Creation Filter). 26c and a pipeline property bag 26d.

  The unique drawing processing units 27A and 27B are prepared for each model group, and perform drawing processes specific to the model group. In the present embodiment, two unique drawing processing units 27A and 27B are prepared, one corresponding to the MFP model group and one corresponding to the printer model group.

  In the drawing processing unit 25, the PJL provider filter 26 a is suitable for the model of the printing apparatus 100 selected by the user based on the model group information (model group definition) included in the configuration data generated by the configuration processing unit 21. The unique drawing processing units 27A and 27B are called. When drawing processing is performed by the called unique drawing processing units 27A and 27B, drawing processing common to the models is performed by the filters 26b1 to 26bn. Finally, print job data is output from the job creation filter 26 c and transmitted to the printing apparatus 100.

  Referring to FIG. 4 again, the UI unit 50 is a module for displaying a user interface for performing print settings. The UI unit 50 generates a print setting screen based on the configuration data generated by the configuration processing unit 21 and causes the display device 230 to display the generated print setting screen.

  In the V4 printer driver, the UI unit 50 includes two UI processing units 51 and 52. One UI processing unit 51 is for displaying a print setting screen for a modern UI (Moden UI) of Windows 8. The other UI processing unit 52 is for displaying a print setting screen for a desktop UI (Desktop UI). The two UI processing units 51 and 52 are common modules regardless of the model of the printing apparatus 100. However, based on the model-specific configuration data generated by the configuration processing unit 21, one of the two UI processing units 51 and 52 is dynamically displayed so that the print setting screen is displayed. Is set. Therefore, the display of the print setting screen is switched according to the model selected by the user.

  Hereinafter, processing of the PC 200 according to the present embodiment will be described. In the control unit 210 of the PC 200, the CPU 210a executes each process to be described later by developing the printer driver 10 in the RAM 210c and executing it.

  First, configuration data generation processing by the configuration processing unit 21 will be described. Here, FIG. 9 is a flowchart showing a configuration data generation process by the configuration processing unit 21. First, in step 10 (S10), the configuration processing unit 21 acquires information on the model of the printing apparatus 100 selected last time by the user.

  In step 11 (S11), the configuration processing unit 21 acquires Devmode information stored in the Devmode structure. This Devmode structure is used by Windows, and the current print setting information is included in the Devmode information.

  In step 12 (S12), the configuration processing unit 21 acquires information on the model of the printing apparatus 100 selected this time by the user.

  In step 13 (S13), the configuration processing unit 21 compares the previous model with the current model, and determines whether or not the model has been switched. If the model has not been switched, a negative determination is made in step 13, and thus the process proceeds to step 14 (S14). On the other hand, if the model has been switched, an affirmative determination is made in step 13, and the process proceeds to step 15 (S 15).

  In step 14, the configuration processing unit 21 converts Devmode information to generate configuration data.

  On the other hand, in step 15 (S15), the configuration processing unit 21 acquires the specific configuration data 23 corresponding to the model based on the current model.

  In step 16 (S16), the configuration processing unit 21 generates configuration data based on the common configuration data 22 and the unique configuration data 23 acquired in step 15. As a result, model-specific configuration data selected by the user is generated.

  In step 17 (S17), the configuration processing unit 21 compares the generated configuration data with Devmode information. Then, when there is a matching item in the print setting item included in the Devmode information and the print setting item included in the configuration data, the configuration processing unit 21 reflects the Devmode information in the configuration data for the print setting item. Let Thereby, final configuration data is generated.

  The configuration data generated in this way is used by the drawing processing unit 25, the UI unit 50, and the application 70.

  Next, drawing processing by the drawing processing unit 25 will be described. Here, FIG. 10 is a flowchart showing the drawing processing by the drawing processing unit 25. In the example shown in FIG. 10, it is assumed that the print job data is output in the PCL format.

  First, in step 20 (S20), the drawing processing unit 25 acquires the configuration data generated by the configuration processing unit 21 and the print job data. In the V4 printer driver, the configuration data normally input to the drawing processing unit 25 is a print ticket, and the print job data is in XPS (XML Paper Specification) format.

  In step 21 (S21), the drawing processing unit 25 acquires information on the model group to which the model of the printing apparatus 100 selected this time belongs from the configuration data.

  In step 22 (S22), the PJL provider filter 26a calls the unique drawing processing units 27A and 27B suitable for the model group based on the model group information acquired in step 21.

  In step 23 (S23), the called unique drawing processing units 27A and 27B perform drawing processing (model group specific drawing processing) on the print job data, and PJL data corresponding to the model group to which the current printing apparatus 100 belongs. Is generated.

  In step 24 (S24), when the PJL provider filter 26a receives the generated PJL data from the unique drawing processing units 27A and 27B, the PJL provider filter 26a stores the PJL data in the pipeline property bag 26d.

  In step 25 (S25), each of the filters 26b1 to 26bn performs a filtering process on the print job data based on the configuration data, and performs a drawing process (drawing process common to all models). Of course, the filters 26b1 to 26bn are common among the models, but the configuration data itself is generated as model-specific, so that in this step 25, drawing processing is performed based on the model-specific conditions. Become. Further, the processing in step 25 includes converting XPS format print job data into PCL format data.

  In step 26 (S26), when the job creation filter 26c receives the print job data in the PCL format, it adds the PJL data stored in the pipeline property bag 26d to the print job data.

  In step 27 (S27), the job creation filter 26c outputs the print job data generated in step 26 as final print job data.

  As described above, in this embodiment, the printer driver 10 operates on the PC 200 that transmits print job data to the printing apparatus 100. The PC 200 holds the configuration information of the printer driver 10 and stores the configuration information. Functions as a configuration processing unit 21 that generates configuration data based on information, a UI unit 50 that displays a print setting screen on the display device 230, and a drawing processing unit 25 that performs drawing processing on print job data generated in the PC 200. It is something to be made. In this case, the configuration processing unit 25 is prepared for each model of the printing apparatus 100, and holds a plurality of unique configuration data 23 (unique configuration information) each defining a function of the model. Any specific configuration data 23 is selected, and configuration data is generated based on the selected specific configuration data 23.

  According to this configuration, configuration data suitable for the model can be generated by selectively using the specific configuration data 23 according to the model of the printing apparatus 100. As a result, a single printer driver 10 can support various types of printing apparatuses 100.

  The V4 printer driver has an independent functional configuration architecture such as the configuration processing unit 21, the drawing processing unit 25, and the UI unit 50, and is completely different from that of the V3 printer driver. Therefore, in the present embodiment, on the premise of such an architecture, the configuration processing unit 21 prepares specific configuration information (specific configuration data 23) for each model. As a result, various types of printing apparatuses 100 can be supported by one printer driver 10. Further, according to this method, it is not necessary to prepare the printer driver 10 for each model or model group, so that the memory to be used and the memory capacity can be reduced.

  In the present embodiment, the configuration processing unit 21 further includes common configuration data 22 (common configuration information) that defines functions that are common among the models of the printing apparatus 100, and is configured in common with the selected unique configuration data 23. Configuration data is generated based on the data 22.

  According to this configuration, the configuration data is generated from the configuration information specific to the model group and the configuration information common to the models, so that the configuration data specific to the model can be generated appropriately. In addition, since the common configuration data 22 holds configuration information that is common among the models, it is not necessary for the unique configuration data 23 to individually hold this configuration information. For this reason, the individual unique configuration data 23 can be simplified. As a result, it is possible to reduce the memory used and the memory capacity.

  In the present embodiment, the configuration processing unit 21 compares the generated configuration data with the current print setting information (Devmode information) used by the operating system, and if there is a corresponding print setting item, the print processing item 21 As for the setting items, the final print data is generated by reflecting the current print setting information in the generated print data.

  According to this configuration, it is possible to take over the setting values of the common print setting items even when the model is switched. For this reason, it is not necessary to change the print setting item according to the use of the user every time the model is switched, and the convenience of the user can be improved.

  In the present embodiment, the drawing processing unit 25 selects the specific configuration data 23 corresponding to the model based on the model of the printing apparatus 100 selected by the user.

  According to this configuration, the unique configuration data 23 can be appropriately selected according to the model of the printing apparatus 100 selected by the user. Thereby, the configuration data corresponding to the model can be appropriately generated.

  In the present embodiment, the UI unit 50 generates a print setting screen based on the configuration data generated by the configuration processing unit 21 and causes the display device 230 to display the generated print setting screen.

  According to this configuration, an appropriate print setting screen corresponding to the model of the printing apparatus 100 can be generated.

  In the present embodiment, the drawing processing unit 25 sets drawing processing conditions based on the configuration data generated by the configuration processing unit 21.

  According to this configuration, it is possible to perform an appropriate drawing process according to the model of the printing apparatus 100.

  In addition, in the present embodiment, the drawing processing unit 25 is prepared for each model group, and includes a plurality of unique drawing processing units 27A and 27B that perform drawing processes specific to the model group, and a plurality of unique drawing processing units. Arbitrary unique drawing processing units 27A and 27B are selected from 27A and 27B, and drawing processing is performed by the selected unique drawing processing units 27A and 27B.

  According to this configuration, drawing processing suitable for the model can be performed by selectively using the unique drawing processing units 27A and 27B according to the model of the printing apparatus 100. As a result, a single printer driver 10 can support various types of printing apparatuses 100.

  The V4 printer driver has an independent functional configuration architecture such as the configuration processing unit 21, the drawing processing unit 25, and the UI unit 50, and is completely different from that of the V3 printer driver. Therefore, in this embodiment, on the premise of such an architecture, a module for each model group is prepared for the drawing processing unit 25. As a result, various types of printing apparatuses 100 can be supported by one printer driver 10. Further, according to this method, it is not necessary to prepare the printer driver 10 for each model or model group, so that the memory to be used and the memory capacity can be reduced.

  In the present embodiment, the drawing processing unit 25 further includes a common drawing processing unit 26 that performs a drawing process common to the models of the printing apparatus 100, and the common drawing processing units 27 </ b> A and 27 </ b> B that are selected. The drawing process is performed by the unit 26.

  According to this configuration, in addition to the drawing process specific to the model group, the drawing process common to the models can be performed, and the drawing process for the print job data can be appropriately performed. In addition, since the common drawing processing unit 26 performs drawing processing that is common among the models, the unique drawing processing units 27A and 27B do not need to have this function individually. For this reason, the configuration of each of the unique drawing processing units 27A and 27B can be simplified. As a result, it is possible to reduce the memory used and the memory capacity.

  In the present embodiment, the drawing processing unit 25 selects the unique drawing processing units 27A and 27B corresponding to the model group to which the model belongs based on the model of the printing apparatus 100 selected by the user.

  According to this configuration, the unique drawing processing units 27A and 27B can be appropriately selected according to the model of the printing apparatus 100 selected by the user. Thereby, the drawing process corresponding to a model can be performed appropriately.

  The printer driver and the information processing apparatus according to the embodiment of the present invention have been described above. However, the present invention is not limited to the above-described embodiment, and various modifications can be made within the scope of the invention. Not too long. The effects of the printer driver described above can be exhibited not only by this printer driver but also by the information processing apparatus itself that operates by this printer driver. The number of unique drawing processing units and unique configuration information is merely an example, and can be set according to the model and model group of the printing apparatus.

100 Printing device 200 PC
210 Controller 210a CPU
210b ROM
210c RAM
220 Storage Device 10 Printer Driver 20 Driver Core Unit 21 Configuration Processing Unit 22 Common Configuration Data 23 Unique Configuration Data 25 Drawing Processing Unit 26 Common Drawing Processing Unit 27A Unique Drawing Processing Unit 27B Unique Drawing Processing Unit 50 UI Unit 51 UI Processing Unit 52 UI Processing part

Claims (12)

A printer driver that operates on an information processing apparatus that transmits print job data to a printing apparatus,
The information processing apparatus;
A configuration processing unit that holds configuration information of the printer driver and generates configuration data based on the configuration information;
A UI unit that displays a print setting screen on a display unit; and a drawing processing unit that performs a drawing process on print job data generated in the information processing apparatus.
The configuration processing unit
Prepared for each model of the printing apparatus, each holding a plurality of unique configuration information defining the function of the model,
A printer driver, wherein arbitrary unique configuration information is selected from the plurality of unique configuration information, and configuration data is generated based on the selected unique configuration information. The configuration processing unit
It further has common configuration information that defines functions that are common among the types of the printing apparatus,
The printer driver according to claim 1, wherein configuration data is generated based on the selected unique configuration information and the common configuration information.   The configuration processing unit compares the generated configuration data with current print setting information used by the operating system, and if there is a corresponding print setting item, the current print setting information The printer driver according to claim 2, wherein final configuration data is generated by reflecting the above in the generated configuration data.   4. The printer driver according to claim 1, wherein the configuration processing unit selects the specific configuration information corresponding to the model based on a model of the printing apparatus selected by a user. .   5. The UI according to claim 1, wherein the UI unit generates a print setting screen based on the configuration data generated by the configuration processing unit, and causes the display unit to display the generated print setting screen. The listed printer driver.   6. The printer driver according to claim 1, wherein the drawing processing unit sets conditions for drawing processing based on the configuration data generated by the configuration processing unit. An information processing apparatus that transmits print job data to a printing apparatus,
A processor;
A storage device for storing a printer driver executed by the processor,
The processor is
A configuration processing unit that holds configuration information of the printer driver and generates configuration data based on the configuration information;
A UI unit that displays a print setting screen on a display unit; and a drawing processing unit that performs a drawing process on print job data generated in the information processing apparatus.
The configuration processing unit
Prepared for each model of the printing apparatus, each holding a plurality of unique configuration information defining the function of the model,
An information processing apparatus that selects arbitrary unique configuration information from among the plurality of unique configuration information and generates configuration data based on the selected unique configuration information. The configuration processing unit
It further has common configuration information that defines functions that are common among the types of the printing apparatus,
8. The information processing apparatus according to claim 7, wherein configuration data is generated based on the selected unique configuration information and the common configuration information.   The configuration processing unit compares the generated configuration data with current print setting information used by the operating system, and if there is a corresponding print setting item, the current print setting information The information processing apparatus according to claim 8, wherein final configuration data is generated by reflecting the above in the generated configuration data.   10. The information processing according to claim 7, wherein the configuration processing unit selects the specific configuration information corresponding to the model based on a model of the printing apparatus selected by a user. apparatus.   The UI unit generates a print setting screen based on the configuration data generated by the configuration processing unit, and causes the display unit to display the generated print setting screen. The information processing apparatus described.   The information processing apparatus according to claim 7, wherein the drawing processing unit sets a drawing processing condition based on the configuration data generated by the configuration processing unit.

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