JP4179810B2 - Display data creation device, display data creation method, display data creation program, and computer-readable recording medium on which display data creation program is recorded - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a display data creation device, a display data creation method, a display data creation program, and a computer-readable recording medium on which a display data creation program is recorded, and more particularly, in a small display area or a low-resolution display environment, The present invention relates to a display data creation apparatus that provides display data that can be browsed while grasping an image layout, a display data creation method, a display data creation program, and a computer-readable recording medium that records the display data creation program.
[0002]
[Prior art]
With the widespread use and improvement in performance of mobile terminals such as mobile phones and PDAs (personal digital assistants), in recent years it has become possible to handle complex information on these mobile terminals. In the conventional technology, when viewing a document with a high resolution or a complex layout in a small display area or a low-resolution display environment such as these mobile terminals, characters are enlarged or reduced to a size that is easy to read, The method of presenting the user with the area that can be displayed on the screen is mainly used.
[0003]
Further, as in the technique disclosed in Japanese Patent Laid-Open No. 4-128892, the entire image and the locally enlarged image are combined and displayed.
[0004]
[Problems to be solved by the invention]
However, the technique of enlarging or reducing mainly used characters to an easy-to-read size and presenting the user with an area that can be displayed on the screen is not easy to understand intuitively. was there.
[0005]
Moreover, in the method disclosed in Japanese Patent Laid-Open No. 4-128892, the user has to associate the entire information with the local information. Therefore, if the user cannot read the entire information, the local information It becomes impossible to grasp which part of the whole.
[0006]
Further, in the technique disclosed in Japanese Patent Laid-Open No. 4-128892, it is difficult to read characters due to the superimposition of the whole information and the local information.
[0007]
SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a display data creation device, a display data creation method, a display data creation program, and a computer-readable recording medium on which the display data creation program is recorded to improve the visibility of display data. It is.
[0008]
Another object of the present invention is to provide a display data creation device, a display data creation method, a display data creation program, and a computer-readable recording medium on which the display data creation program is recorded. Is to provide.
[0009]
[Means for Solving the Problems]
A display data creation device according to an aspect of the present invention is a device that creates data to be displayed on a screen, and includes local data creation means for creating local data from input data, overall data indicating the entire input data, and local data Display data creating means for creating display data for displaying on the screen by superimposing the local data created by the data creating means. The display data creation means includes display mode setting means for setting the overall data to be overlaid and the local data in different display modes.
[0010]
Therefore, when the entire data indicating the entire input data and the local data are displayed superimposed on the screen, the entire data and the local data are displayed in different display modes. It becomes easy to view both data individually.
[0011]
A display data creation device according to another aspect of the present invention is a device for creating data to be displayed on a screen, wherein local data creation means for creating local data from input data and local data created by the local data creation means Display data creating means for creating display data for displaying data on the screen in association with the entire input data. Then, the display data creating means is a position specifying data for specifying a position in the entire display area corresponding to the position of the local data in the entire input data when the entire display area of the screen is associated with the entire input data. And a position specifying data creating means for including in the display data.
[0012]
Therefore, since only local data of the input data is displayed on the screen, the local data can be clearly confirmed. At this time, the position specifying data for specifying the position corresponding to the position of the entire input data of the local data in the entire display area of the screen is created and displayed together with the local data. It is also possible to confirm the layout of where the local data is located in the input data.
[0013]
Even when the screen resolution is lower than the resolution of the input data, the local data can be browsed while grasping the layout of the input data of the local data as described above.
[0014]
In the above table data creation device, the display data creation means preferably specifies the position in the entire display area corresponding to the position of the local data in the entire data when the entire display area of the screen is associated with the entire data. Position specifying data generating means for generating the position specifying data to be included in the display data.
[0015]
Therefore, the layout of local data in the entire input data can be grasped.
[0016]
The display data creation device described above preferably further includes overall data creation means for creating the overall data by adjusting the input data based on the size of the display area of the screen.
[0017]
Therefore, the entire data corresponding to the input data can be created based on the size of the display area of the screen so as to fit within the size.
[0018]
In the display data creation device described above, the local data creation means preferably extracts the partial data of the input data and creates the extracted partial data in the local data.
[0019]
Therefore, local data can be easily created by extracting partial data from input data.
[0020]
The display data creation device described above preferably adjusts the display size of the extracted partial data to create local data, so that the local data display size can be made variable, for example, within the size of the display area of the screen. Can be adjusted.
[0021]
In the display data creation device described above, the pixel value of the entire data and the pixel value of the local data are preferably combined in each pixel of the screen, and the display mode setting means can correspond to the local data and the entire data as different display modes. Each pixel value to be added is added at a predetermined ratio.
[0022]
Therefore, when the entire data and the local data are displayed in an overlapped manner, the corresponding pixel values of the local data and the entire data are added together at a predetermined ratio. Therefore, the density according to the predetermined ratio is set between the local data and the entire data. Present, that is, in a display mode that the display density is different.
[0023]
In the display data creating apparatus described above, the predetermined ratio is preferably variable, so that the display density described above can be variably adjusted.
[0024]
In the above display data creation device, the predetermined ratio is preferably determined based on the degree of importance of the local data. Therefore, the display mode that is the display density can be varied depending on the degree of importance of the local data.
[0025]
In the display data creation device described above, the predetermined ratio is preferably calculated based on the sum of the pixel values of the local data.
[0026]
In the display data generation apparatus described above, the predetermined ratio is preferably determined based on edge information detected from local data. Therefore, local data with a lot of edge information, that is, local data of complex characters or drawings, and a small amount of edge information. The predetermined ratio can be made different between local data, that is, monotonous characters or local data of a figure.
[0027]
In the display data creation device described above, the predetermined ratio is preferably determined based on the character information of the local data. Therefore, the local data having a lot of character information, that is, the local data that is relatively difficult to interpret the character and the character The predetermined ratio can be made different from local data having a small amount of information, that is, local data that is relatively easy to interpret characters.
[0028]
A display data creation method according to still another aspect of the present invention is a method of creating data to be displayed on a screen prepared in advance, a local data creation step of creating local data from input data, and the entire input data Display data creating step for creating display data for displaying on the screen by superimposing the whole data indicating the local data created by the local data creating step, and the display data creating step is superposed A display mode setting step of setting the entire data and the local data in different display modes;
[0029]
Therefore, when the entire data indicating the entire input data and the local data are displayed in a superimposed manner on the screen, the entire data and the local data are displayed in different display modes. It becomes easy to view both data individually.
[0030]
A display data creation method according to still another aspect of the present invention is a method of creating data to be displayed on a screen prepared in advance, a local data creation step for creating local data from input data, and a local data creation step A display data creation step for creating display data for displaying the local data created in accordance with the whole data indicating the entire input data and displaying it on the screen. Creating a position specifying data for specifying a position in the entire display area corresponding to the position of the local data in the entire data when the area is associated with the entire data, and including a position specifying data creating step to be included in the display data Have.
[0031]
Therefore, only local data of the input data is displayed on the screen. At this time, position specifying data for specifying a position corresponding to the position of the entire input data of the local data in the entire display area of the screen is created and displayed together with the input data.
[0032]
Therefore, since only the local data is displayed, the local data can be clearly confirmed. Further, since the position specifying data is displayed together with the local data, it is possible to check where the local data is located in the input data while checking the local data.
[0033]
Even when the screen resolution is lower than the resolution of the input data, the local data can be browsed while grasping the layout of the input data of the local data as described above.
[0034]
In still another aspect of the present invention, there is provided a display data creation program for causing a computer to execute the above display data creation method.
[0035]
In still another aspect of the present invention, a computer-readable recording medium on which a display data creation program described above is recorded is provided.
[0036]
DETAILED DESCRIPTION OF THE INVENTION
Each embodiment will be described below with reference to the drawings.
[0037]
FIG. 1 is a diagram showing the configuration of the image display data creation apparatus according to the first and second embodiments, and FIG. 2 is a diagram of a computer on which the image display data creation apparatus according to each embodiment of the present invention is mounted. It is a block diagram. The image display data creation device according to each embodiment is mounted on a computer having a function of displaying information on a screen of a desktop computer, a portable computer such as a PDA, or a portable communication device such as a cellular phone.
[0038]
Referring to FIG. 2, the computer includes a monitor 110 made of CRT (cathode ray tube) or liquid crystal, CPU (abbreviation of central processing unit) 122 for centrally controlling the computer itself, ROM (Read Only Memory) or A memory 124 including a RAM (abbreviation of random access memory), a fixed disk 126, and an FD (flexible disk) 132 are detachably mounted, and an FD driving device 130 that accesses the mounted FD 132, a CD-ROM Various communication networks including a CD-ROM drive device 140, a keyboard 150, a mouse 160, a pen tablet 170, the Internet, and the like, to which a (Compact Disc Read Only Memory) 142 is detachably attached and accesses the attached CD-ROM 142 182 and the computer for communication connection Including the trust Intafeisu 180. These units are connected for communication via a bus.
[0039]
The computer may be provided with a magnetic tape device in which a cassette type magnetic tape is detachably mounted to access the magnetic tape.
[0040]
Referring to FIG. 1, image display data creation device 0703 receives input image data from connected image input device 0701 and user operation information from connected user operation input device 0702, and creates display image data. Output to the connected display device 0704. The image input device 0701 is a device connected to the computer of FIG. 2, and here is a device connected via the communication interface 180. The user operation input device 0702 corresponds to the keyboard 150, the mouse 160, the pen tablet 170, etc. in FIG. The display device 0704 corresponds to the monitor 110 in FIG.
[0041]
(First embodiment)
In the first embodiment, an image display data creation device is shown in which the user manually designates the display degrees of the whole image data and the local image data.
[0042]
The image display data creation device 0703 includes an input image data buffer 0705, an overall image data creation processing unit 0706, an overall image data buffer 0707, a control unit 0708, a local image data creation processing unit 0709, a local image data buffer 0710, and display image data creation. A processing unit 0711 and a display image data buffer 0712 are provided.
[0043]
The input image data buffer 0705 stores the image data input from the image input device 0701. The entire image data creation processing unit 0706 reads the input image from the input image data buffer 0705 and outputs the entire image data. The entire image data buffer 0707 stores the entire image data output from the entire image data creation processing unit 0706. The control unit 0708 controls the creation of display image data according to information input from the user operation input device 0702. The local image data creation processing unit 0709 reads input image data from the input image data buffer 0705, creates local image data, and outputs it. The local image data buffer 0710 stores the local image data output from the local image data creation processing unit 0709.
[0044]
The display image data creation processing unit 0711 reads the whole image data from the whole image data buffer 0707 and the local image data from the local image data buffer 0710, and creates and outputs display image data according to the control information from the control unit 0708. The display image data buffer 0712 stores the display image data output from the display image data creation processing unit 0711.
[0045]
Although not shown in FIG. 2, the input image data buffer 0705, the entire image data buffer 0707, the local image data buffer 0710, and the display image data buffer 0712 are realized by a RAM such as a flash memory, a memory 124, and a fixed disk 126. The entire image data creation processing unit 0706, the control unit 0708, the local image data creation processing unit 0709, and the display image data creation processing unit 0711 are realized by, for example, independent circuits or arithmetic processing circuits (not shown) of the CPU 122 of the computer of FIG. The virtual circuit may be realized by a program executed by the CPU 122.
[0046]
FIG. 3 shows the flow of processing of the image display data creation apparatus of the first embodiment. Here, the horizontal and vertical sizes of the input image corresponding to the input image data are XSIZE and YSIZE, respectively. The horizontal size and the vertical size of the display size of the display device 0704 are assumed to be XDISPLAYSIZE and YDISPLAYSIZE, respectively.
[0047]
The operation is started and input image data is received from the image input device 0701 and stored in the input image data buffer 0705 (S0801, S0802).
[0048]
The entire image data creation processing unit 0706 receives the input image data from the input image data buffer 0705, and the input image data is (XDISPLAYSIZE / XSIZE) times in the horizontal direction and (YDISPLAYSIZE / YSIZE) enlarged or reduced processing is output as entire image data (S0803).
[0049]
The enlargement or reduction process uses linear interpolation, but is not limited to linear interpolation. An example of the entire image data 0101 is shown in FIG.
[0050]
The entire image data output from the entire image data creation processing unit 0706 is stored in the entire image data buffer 0707 (S0804).
[0051]
The initial value of the control unit 0708 is set (S0805). Variables managed by the control unit 0708 are the position (xposition, yposition) of the upper left point of the local image data in the input image data, the scale arate, and the composition ratio orate indicating the ratio of the sum of the local image data and the entire image data. . As initial values, (xposition, yposition) = (0,0), arate = 1, and orate = 0.8 are set, but these values are merely examples, and other values may be used.
[0052]
The variables specific to the local image data described above are not limited to the position (xposition, yposition) of the upper left point of the local image data in the input image data, the scale arate, and the positional relationship of the local image in the input image It is sufficient if the size is determined. For example, the position of the lower right point in the input image data of the local image data may be used instead of the scale.
[0053]
Normally, the control unit 0708 operates in response to input information from the user, but the initialization setting here is set in place of the input information from the user.
[0054]
The control unit 0708 changes the parameter value in response to an input from the user (S0806).
[0055]
The local image data creation processing unit 0709 receives the input image data from the input image data buffer 0705, creates local image data based on the information specified by the control unit 0708, and outputs it (S0807).
[0056]
The local image data creation process creates an image with the size of (XDISPLAYSIZE / arate) in the horizontal direction and (YDISPLAYSIZE / arate) in the vertical direction extracted from (xposition, yposition) of the input image data. Is obtained by enlarging or reducing the image by arate times as local image data.
[0057]
Here, linear interpolation is used for the enlargement / reduction process, but any other enlargement / reduction method may be used. An example of the local image data 0301 is shown in FIG.
[0058]
The local image data output from the local image data creation processing unit 0709 is stored in the local image data buffer 0710 (S0808).
[0059]
The display image data creation processing unit 0711 reads the entire image data and the local image data from the entire image data buffer 0707 and the local image data buffer 0710, respectively, and uses these to display the display image data according to the information specified by the control unit 0708. Create and output (S0809).
[0060]
When the pixel value value1 (x, y) of the entire image data at the coordinates (x, y), the pixel value value2 (x, y) of the local image data, and the pixel value value3 (x, y) of the display image data are value3 Display image data is created such that (x, y) = orate × value2 (x, y) + (1-orate) × value1 (x, y) (the display image data 0401 at this stage is shown in FIG. Add the frame data to it. The frame is for specifying a position in the entire display area of the display device 0704 corresponding to the position of the local image data in the entire image data.
[0061]
When the composition ratio orate is larger than 0 and smaller than 1, the display image data is displayed as the whole image data and the local image data at the same time as the image shown in FIG. A frame 0501 in FIG. 5 corresponds to the frame indicating the position of the local image data in the entire image data described above. Further, in order to make the relationship between the whole image data and the local image data easier to understand, an outer frame is added like a frame 0502 for the display image data, and a frame for the local image data corresponding to the frame 0501 in the whole image data. Also good. Further, an example of display image data may not include a corresponding frame as shown in FIG.
[0062]
When the composition ratio orate is 0, as the display image data, for example, as shown in FIG. 8, entire image data 0202 including a frame 0201 of local image data is displayed. When the composition ratio orate is 1, local image data is displayed as the display image data, for example, as shown in FIG.
[0063]
If the range of the composition ratio orate is limited, it is possible to set so that the entire image data and the local image data are always displayed.
[0064]
7, 8, and 9, frames 0501, 0201, and 0601 are the upper left point (xposition × XDISPLAYSIZE / XSIZE, yposition × YDISPLAYSIZE / YSIZE), lower right point ((xposition + XDISPLAYSIZE / arate) × XDISPLAYSZE / XSIZE, ( yposition + YDISPLAYSIZE / arate) × YDISPLAYSZE / XSIZE).
[0065]
In addition, when information indicating whether or not to add frame information of local image data to display image data is added to the management of the control unit 0708, the user can dynamically specify whether or not to display a frame.
[0066]
The display image data created by the display image data creation processing unit 0711 is stored in the display image data buffer 0712 (S0810), and the display image data stored in the display image data buffer 0712 is output to the display device 0704 (S0811).
[0067]
Thereafter, the control unit 0708 detects an input from the user operation input device 0702 (S0812). If the input from the user operation input device 0702 is a termination request, the termination processing is performed. In other cases, the processing after S0806 is performed again (S0813, S0814).
[0068]
According to the present embodiment, when the whole image data and the local image data are displayed in a superimposed manner as shown in FIG. 6 or FIG. 7, the display mode of both data can be varied depending on the density based on the composition ratio orate. It becomes possible to distinguish and visually recognize images such as characters of both data. Also, as shown in FIG. 7, by displaying frames 0502 and 0501 indicating the positional relationship between the local image data and the entire image data, the position of the local image data and the overall layout can be obtained even if the characters of the entire image data are small. You can browse while grasping.
[0069]
(Second Embodiment)
In the second embodiment, a function for automatically controlling the display degrees of the whole image data and the local image data is provided in the image display data creation apparatus of FIG.
[0070]
FIG. 10 shows the flow of processing of the image display data creation apparatus of the second embodiment. The difference between the processing flow of FIG. 10 and that of FIG. 3 is that an overlay density control process S0909 for controlling the density in the overlay display of the entire image data and the local image data is performed between the processes S0808 and S0809. It is in the added point. The other processes are the same as those shown in FIG.
[0071]
In operation, after the processing S0801 to S0808 is executed in the same manner as described above, in the overlay density control processing, the control unit 0708 reads local image data from the local image data buffer 0710 and combines the local image data and the entire image data. orate is determined (S0909).
[0072]
Specifically, the synthesis ratio orate between the local image data and the entire image data is determined based on the degree of importance of the local image data. For example, the higher the importance of local image data, the higher the composition ratio orate, and the lower the importance, the lower the composition ratio orate. Alternatively, the composition ratio orate may be determined based on the degree of importance of the other data with respect to one of the local image data and the entire image data. If local image data is more important, the composition ratio orate is set to a high value, and the composition processing is performed with emphasis on local image data. In the opposite case, the composition ratio orate is set to a low value, and the entire image data is Performs important synthesis processing.
[0073]
As a result, when the local image data is important, the density of the whole image data is light and the density of the local image data is dark and clearly displayed, and when the local image data is not important, the density of the local image data is light, The density of the whole image data is increased and is clearly displayed.
[0074]
The calculation of the composition ratio orate is calculated as orate = (255 × XDISPLAYSIZE × YDISPLAYSIZE) / SUM using the sum SUM of the pixel values of the local image data.
[0075]
This calculation is an example, and the present invention is not limited to this. The result of counting the pixel values greater than or equal to the threshold TH of local image data may be calculated as orate = N / (XDISPLAYSIZE x YDISPLAYSIZE) based on the count number N. Absent.
[0076]
The calculation of the composition ratio orate described above is based on the premise that the background of the input image data is white. However, if the sum of the differences from the background color is used, any background color can be used.
[0077]
Similarly, the pixel value above the threshold TH of Even when the count number is used, it is possible to use any background color by setting TH as a difference from the background color and using the count number.
[0078]
Further, on the basis of the number of edges of the local image data, the composition ratio orate may be increased if there are many edges, and the composition ratio orate may be decreased if there are few edges. As a result, an image with many edges can be said to be a complex image with many changes, so that the density is displayed darkly and even a complex image can be clearly confirmed.
[0079]
Further, on the basis of the number of characters in the local image data, the composition ratio orate may be increased if the number of characters is large, and the composition ratio orate may be decreased if the number of characters is small. As a result, an image with many characters is displayed with a relatively fine character with a large amount of characters displayed at narrow intervals, but since the density is displayed darkly, even a fine character can be clearly confirmed and read. .
[0080]
Thereafter, processes S0809 to S0814 in FIG. 3 are executed in the same manner.
According to the present embodiment, the image display data creation device analyzes the importance of the local image data and has a function of dynamically adjusting the synthesis ratio orate of the whole image data and the local image data. When the local image data is important, the display of the entire image data indicating the layout is thinned.On the other hand, when the local image data is not important, the display of the entire image data indicating the layout is darkened. It is avoided that it becomes difficult to read by superimposing local image data.
[0081]
(Third embodiment)
In the third embodiment, when the screen of the display device 0704 is associated with the entire input image data on the entire display area, there is a frame for specifying the position in the entire display area corresponding to the local image data in the input image data. Is displayed.
[0082]
According to the present embodiment, compared to the image display data creation device described in the first and second embodiments, the layout of the local image data with respect to the input image data can be grasped only roughly. Since there is no overlap with the local image data, the local image data can be easily recognized.
[0083]
FIG. 11 is a diagram illustrating a configuration of an image display data creation device according to the third embodiment. Referring to FIG. 11, the image display data creation device 1003 receives user operation information from the user operation input device 1002 connected to the input image data from the connected image input device 1001, and the display device 1004 connects the display image data. Output.
[0084]
The image display data creation device 1003 includes an input image data buffer 1005, a local image data creation processing unit 1006, a local image data buffer 1007, a control unit 1008, a display image data creation processing unit 1009, and a display image data buffer 1010.
[0085]
The input image data buffer 1005 stores the image data input from the image input device 1001. A local image data creation processing unit 1006 reads input image data from the local image data buffer 1005, creates local image data, and outputs it.
[0086]
The local image data buffer 1007 stores the local image data output from the local image data creation processing unit 1006. The control unit 1008 controls the creation of display image data in accordance with information input from the user operation input device 1002. A display image data creation processing unit 1009 reads local image data from the local image data buffer 1007, creates display image data according to control information from the control unit 1008, and outputs it. The display image data buffer 1010 stores the display image data output from the display image data creation processing unit 1009.
[0087]
The input image data buffer 1005, the local image data buffer 1007, and the display image data buffer 1010 are realized by a RAM such as a flash memory (not shown) in FIG. 2, the memory 124 in FIG. 2, and the fixed disk 126 in FIG. The creation processing unit 1006, the control unit 1008, and the display image data creation processing unit 1009 are, for example, independent circuits or virtual circuits realized by executing a program by the arithmetic processing circuit of the CPU 122 of the computer of FIG. It is realized by.
[0088]
FIG. 12 shows the flow of processing of the image display data creation apparatus of the third embodiment. Here, the size of the input image in the horizontal and vertical directions is XSIZE and YSIZE, respectively. Let XDISPLAYSIZE and YDISPLAYSIZE be the horizontal and vertical sizes of the entire display area of the display device 1004, respectively.
[0089]
When the operation is started (S1101), input image data is received from the image input device 1001, stored in the input image data buffer 1005 (S1102), and an initial value of the control unit 1008 is set (S1103).
[0090]
Variables managed by the control unit 1008 are the position (xposition, yposition) and scale arate of the upper left point of the local image data in the input image data.
[0091]
The variables specified above for local image data are not limited to the position (xposition, yposition) and scale arate of the upper left point of the local image data, but the input image data of the local image data. For example, a variable such as the position of the lower right point in the input image data of the local image data may be used instead of the scale.
[0092]
Normally, the control unit 1008 operates in response to input information from the user, but the initialization setting here is set in place of the input information from the user.
[0093]
The control unit 1008 changes the parameter value in response to an input from the user (S1104).
[0094]
The local image data creation processing unit 1006 receives input image data from the input image data buffer 1005, creates local image data based on the information specified by the control unit 1008, and outputs it (S1105).
[0095]
The local image data creation process creates an image with the size of (XDISPLAYSIZE / arate) in the horizontal direction and (YDISPLAYSIZE / arate) in the vertical direction extracted from (xposition, yposition) of the input image data. Is obtained by enlarging and reducing the image at a scale of arate times as local image data. Here, linear interpolation is used for the enlargement / reduction process, but any other enlargement / reduction method may be used. An example of local image data is shown in FIG.
[0096]
The local image data output from the local image data creation processing unit 1006 is stored in the local image data buffer 107 (S1106).
[0097]
The display image data creation processing unit 1009 reads the local image data from the local image data buffer 1007, creates display image data with a frame added based on the information specified by the control unit 1008, and outputs it (S1107).
[0098]
The frame is located at the upper left point (xposition × XDISPLAYSIZE / XSIZE, yposition × YDISPLAYSIZE / YSIZE), lower right point ((xposition + XDISPLAYSIZE / arate) × XDISPLAYSZE / XSIZE, (yposition + YDISPLAYSIZE / arate) × YDISPLAYSZE / XSIZE) Shown as a rectangle.
[0099]
This frame indicates an area at a position corresponding to the displayed local image data when the entire display area is associated with the input image data. An example of the display image data at this time is shown in FIG.
[0100]
In FIG. 9, a frame 0601 corresponds to the frame indicating the position of the local image data in the entire image data described above. Further, in order to make the relationship between the input image data and the local image data easier to understand, an outer frame may be added like the display image data 0602 to form a frame of the local image data corresponding to the frame 0601.
[0101]
The display image data output from the display image creation processing unit 1009 is stored in the display image data buffer 1010 (S1108), and the display image data stored in the display image data buffer 1010 is output to the display device 1004 (S1109).
[0102]
Thereafter, the control unit 1008 detects an input from the user operation input device 1002 (S1110). If the input from the user operation input device 1002 is an end request, end processing is performed, and in other cases, the processing after S1104 is performed again (S1111 and S1112).
[0103]
According to the present embodiment, as shown in FIG. 9, the local image is not displayed in the display area (entire image data), assuming that the entire display area of the screen corresponds to the input image data without displaying the entire image data. By displaying the position corresponding to the data in the frame 0601, the user can browse the position of the local image data in the input image data, that is, where in the whole, without overlapping the local image data and the entire image data. Can be roughly grasped.
[0104]
Each of the above-described embodiments can be applied by handling a document (document data) for a word processor, a text editor, a draw tool, or the like as the image.
[0105]
Further, it is not necessary to perform enlargement or reduction processing of a document including object data such as a font by image processing, and if there is object data such as a font having substantially the same resolution, it may be used as an alternative.
[0106]
In addition, the image display data creation device of each embodiment is used by being incorporated in various terminals such as personal computers, mobile phones, PDAs, and electronic book devices, and various home appliances that have computer display control functions. Can do.
[0107]
In addition, the image display data creation device of each embodiment can be processed by a server and a client using communication. For example, the input image data buffer 0705 (1005), the entire image data creation processing unit 0706, the control unit 0708 (1008), and the local image data creation processing unit 0709 (1006) are placed on the server side, the entire image data buffer 0707, the local image By realizing the data buffer 0710 (1007), the display image data creation processing unit 0711 (1009), and the display image data buffer 0712 (1010) on the client side, it is possible to communicate the entire image data and the local image data with a small data amount. Since browsing can be performed, browsing can be performed more comfortably compared with a method in which input image data is downloaded as it is.
[0108]
(Fourth embodiment)
Next, a fourth embodiment will be described.
[0109]
The processing functions described above are realized by a program. In the present embodiment, this program is stored in a computer-readable recording medium.
[0110]
In the present embodiment, as the recording medium, a memory necessary for processing by the computer shown in FIG. 2, for example, the memory 124 itself may be a program medium or an external storage. A program reading device such as a magnetic tape device and a CD-ROM driving device 140 may be provided as a device, and a magnetic tape or a CD-ROM 142 as a recording medium may be inserted into the program reading device. In any case, the stored program may be configured to be accessed and executed by the CPU 122, or in any case, the program is read once, and the read program is the predetermined program shown in FIG. The program may be loaded into a program storage area, for example, the program storage area of the memory 124, and read and executed by the CPU 122. This loading program is assumed to be stored in advance in the computer.
[0111]
Here, the program medium described above is a recording medium configured to be separable from the computer main body, and is a tape system such as a magnetic tape or a cassette tape, a magnetic disk such as the FD 132 or the fixed disk 126, or a CD-ROM 142 / MO (Magnetic Optical). Disc) / MD (Mini Disc) / DVD (Digital Versatile Disc) optical discs, IC cards (including memory cards) / optical cards, etc., mask ROM, EPROM (Erasable and Programmable ROM), It may be a medium carrying a fixed program including a semiconductor memory such as an EEPROM (Electrically EPROM) or a flash ROM.
[0112]
In the present embodiment, the computer of FIG. 2 employs a configuration that can be connected to a communication network 182 including the Internet. Therefore, the computer downloads the program from the communication network 182 and fluidly carries the program. There may be. When the program is downloaded from the communication network 182 as described above, the download program is stored in the computer main body in advance, or is installed in the computer main body from another recording medium in advance. May be.
[0113]
Note that the content stored in the recording medium is not limited to a program, and may be data.
[0114]
The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[0115]
【The invention's effect】
According to the present invention, when the entire data indicating the entire input data and the local data are displayed on the screen in a superimposed manner, the entire data and the local data are displayed in different display modes. It becomes easy to visually recognize both data based on the difference.
[0116]
In addition, when only local data of the input data is displayed on the screen, the local data can be clearly confirmed. At this time, the position specifying data for specifying the position corresponding to the position of the entire input data of the local data in the entire display area of the screen is created and displayed together with the local data. It is also possible to confirm the layout of where the local data is located in the input data.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a configuration of an image display data creation device according to first and second embodiments.
FIG. 2 is a configuration diagram of a computer on which an image display data creation device according to each embodiment is mounted.
FIG. 3 is a process flowchart of the image display data creation device according to the first embodiment;
FIG. 4 is a diagram illustrating an example of entire image data.
FIG. 5 is a diagram showing an example of local image data.
FIG. 6 is a diagram showing a state in which whole image data and local image data are displayed simultaneously.
FIG. 7 is a diagram showing a state in which whole image data and local image data are displayed simultaneously and a frame is added.
FIG. 8 is a diagram illustrating a state in which a frame is added to the entire image data.
FIG. 9 is a diagram illustrating a state in which a frame is added to local image data.
FIG. 10 is a process flowchart of the image display data creation device of the second embodiment.
FIG. 11 is a diagram illustrating a configuration of an image display data creation device according to a third embodiment.
FIG. 12 is a process flowchart of the image display data creation device of the third embodiment.
[Explanation of symbols]
0703, 1003 Image display data creation device, 0706 Whole image data creation processing unit, 0709, 1006 Local image data creation processing unit, 0711, 1009 Display image data creation processing unit, 0501, 0502, 0201, 0601, 0602 Frame.

Claims (9)

A device for creating data to be displayed on a screen,
Local data creation means for creating local data from input data;
Display data creation means for creating display data for display on the screen by combining the entire data indicating the entire input data and the local data created by the local data creation means by superimposing them And
The display data creation means includes
Display mode setting means for setting the overall data and the local data to be superimposed on different display modes;
The display mode setting means sets the different display modes by adding each pixel value corresponding to the local data and the whole data to be superimposed at a predetermined ratio in each pixel of the screen.
Wherein the predetermined ratio, the calculated based on the sum of the pixel values of the local data is determined variably by Rukoto, the display data generating apparatus. A device for creating data to be displayed on a screen,
Local data creation means for creating local data from input data;
Display data creation means for creating display data for display on the screen by combining the entire data indicating the entire input data and the local data created by the local data creation means by superimposing them And
The display data creation means includes
Display mode setting means for setting the overall data and the local data to be superimposed on different display modes;
The display mode setting means sets the different display modes by adding each pixel value corresponding to the local data and the whole data to be superimposed at a predetermined ratio in each pixel of the screen.
Wherein the predetermined ratio, the calculated based on the sum of the differences between the pixel value of the pixel value and the background of the local data is variably determined by Rukoto, the display data generating apparatus. A device for creating data to be displayed on a screen,
Local data creation means for creating local data from input data;
Display data creation means for creating display data for display on the screen by combining the entire data indicating the entire input data and the local data created by the local data creation means by superimposing them And
The display data creation means includes
Display mode setting means for setting the overall data and the local data to be superimposed on different display modes;
The display mode setting means sets the different display modes by adding each pixel value corresponding to the local data and the whole data to be superimposed at a predetermined ratio in each pixel of the screen.
Wherein the predetermined ratio, the out of the pixels in the local data, the difference between the pixel value of the pixel value and the background is variably determined by Rukoto is calculated based on the number of or more pixels threshold, the display data generating apparatus. A device for creating data to be displayed on a screen,
Local data creation means for creating local data from input data;
Display data creation means for creating display data for display on the screen by combining the entire data indicating the entire input data and the local data created by the local data creation means by superimposing them And
The display data creation means includes
Display mode setting means for setting the overall data and the local data to be superimposed on different display modes;
The display mode setting means, in each pixel of the screen, each pixel value with each other in correspondence with the entire local data to be superimposed with the data, by adding together in a predetermined ratio, and set the display mode different from ,
Wherein the predetermined ratio, the out of the pixels in the local data, the pixel value is determined variably by Rukoto is calculated based on the number of or more pixels threshold, the display data generating apparatus. A device for creating data to be displayed on a screen,
Local data creation means for creating local data from input data;
Display data creation means for creating display data for display on the screen by combining the entire data indicating the entire input data and the local data created by the local data creation means by superimposing them And
The display data creation means includes
Display mode setting means for setting the overall data and the local data to be superimposed on different display modes;
The display mode setting means sets the different display modes by adding each pixel value corresponding to the local data and the whole data to be superimposed at a predetermined ratio in each pixel of the screen.
Wherein the predetermined ratio, the is calculated based on the amount of local data characters are variably determined by Rukoto, the display data generating apparatus. The display data creation means includes
When the entire display area of the screen is associated with the entire data, the position specifying data for specifying the position in the entire display area corresponding to the position of the local data in the entire data is created, and the display further comprising a position specifying data forming means for including the data, the display data generating apparatus according to any of claims 1 to 5. A method for creating data to be displayed on a screen prepared in advance,
A local data creation step for creating local data from input data;
A display data creation step for creating display data for displaying on the screen by superimposing the whole data indicating the whole of the input data and the local data created in the local data creation step;
The display data creation step includes
A display mode setting step for setting the overall data and the local data to be superimposed on different display modes,
In the display mode setting step, the different display modes are set by adding the corresponding pixel values of the local data and the overall data to be superimposed at a predetermined ratio in each pixel of the screen.
The predetermined ratio is variably determined by being calculated based on a sum of pixel values of the local data , or calculated based on a sum of differences between a pixel value of the local data and a background pixel value. Or the difference between the pixel value of the local data and the background pixel value is calculated based on the number of pixels equal to or greater than a threshold value. Or is variably determined by calculating the pixel value based on the number of pixels that are equal to or greater than a threshold among the pixels of the local data, or calculated based on the amount of characters of the local data is the Ru der either be variably determined by the display data generation method. A display data creation program for causing a computer to execute the display data creation method according to claim 7 . A computer-readable recording medium on which the display data creation program according to claim 8 is recorded.

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