JP2012208287A - Display controller and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display controller which can eliminate or reduce sense of incongruity when an image is added to a conversion image.SOLUTION: A display controller has a program execution processing section 34. The program execution processing section 34 comprises: a conversion image acquisition part 62 to acquire conversion image data; a conversion type acquisition part 63 to acquire data indicating a conversion type of the conversion image data; and a specified position acquisition part 65 to acquire data indicating a specified position in a conversion image displayed on a display. A composite image generation part 67 generates data indicating a composite image in which an additional image converted according to the conversion type which data acquired by the conversion type acquisition part 63 indicates is added to the specified position of the conversion image. The composite image which the generated data indicates is displayed on the display by the display controller.

Description

  The present invention relates to a display control device and a program, and more particularly to a display control device and a program for displaying a processed image.

  Editing and processing is easy with digitalized images. For example, a commercially available application program can be used to edit and process a photographic image converted into digital data. Some digital cameras have a function of editing and processing images taken by the digital camera itself.

  Conventionally, there are various techniques for editing and processing images. According to such a technique, for example, by performing a predetermined conversion process on data indicating an image, the image can be converted into a picture-like image (see Patent Document 1). In addition, it is possible to add a fixed figure such as a straight line or a circle or a different image, or to write a handwritten character or picture using a pointing device.

JP 2006-31688 A

  However, if you write text or a picture or add another image to the converted image, the added part or the added image will not become familiar with the converted image, and the image will become strange. There is a problem of becoming.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a display control device and a program that can eliminate or reduce the uncomfortable feeling when an image is added to a converted image.

In order to achieve the above object, a display control apparatus according to the present invention provides:
Converted image acquisition means for acquiring data indicating the converted image subjected to the conversion process;
Conversion method acquisition means for acquiring data indicating a conversion method in the conversion process;
Additional image acquisition means for acquiring data indicating the additional image;
Designated position obtaining means for obtaining data indicating the designated position in the converted image displayed on the display means;
Combined image generation means for generating data indicating a combined image obtained by adding a converted additional image obtained by converting data indicating the additional image according to the conversion method to the designated position of the converted image;
It further comprises display control means for acquiring data indicating the composite image and displaying the composite image on a display means.

  According to the present invention, the additional image is subjected to conversion based on the conversion method applied to the converted image. Therefore, the touch, texture, and tone of the additional image and the converted image can be made the same or similar. Therefore, it is possible to eliminate or reduce the uncomfortable feeling when an additional image is added to the converted image.

It is a figure which shows the structure of the display control apparatus which concerns on one Embodiment of this invention. It is a figure which shows the example of original image data. It is a figure which shows the example of the additional shape which additional shape data shows. It is a figure which shows the example of the conversion classification which conversion classification data shows. It is a figure which shows the 1st example of conversion image data. It is a figure which shows the 2nd example of conversion image data. It is a figure which shows the 3rd example of conversion image data. It is a figure which shows the example of the content which area | region setting data show. It is a figure which shows the example of the process image which process image data shows. It is a figure which shows the function which a program execution process part exhibits by executing the software program contained in process program data. It is a figure which shows the detail of a structure of a synthetic | combination image generation part. It is a flowchart of the process which the display control apparatus which concerns on one Embodiment of this invention performs. It is a flowchart which shows the detail of an original image conversion process. It is a flowchart which shows the detail of a process. It is a figure which shows the example of additional image data. It is a figure which shows an example of the image displayed on a display part in a composite image display process. It is a figure which shows a synthesized image when not converting an additional image. It is a figure which shows the state by which the composite image in which the spray image was continuously added to the sketch wind ball image at the display part 21 was displayed on the display part. It is a flowchart which shows the detail of a synthetic | combination image generation process. It is a figure which shows an example of the conversion image containing two conversion methods. It is a figure which shows the synthesized image which added the spray image to the converted image shown in FIG. 20 continuously in the same wave shape as the synthesized image of FIG. It is a figure which shows the example of the synthesized image produced by mode I when different synthesized images are produced by mode I and mode II. An example of a composite image created in mode II when different composite images are created in mode I and mode II is shown.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. In the drawings, the same or corresponding elements are denoted by the same reference numerals.

  FIG. 1 is a diagram showing a configuration of a display control apparatus according to an embodiment of the present invention.

  The display control device 1 is a control device that displays a processed / edited image (hereinafter referred to as “processed”) on a display unit, and another image (additional image) is added to the image converted by an image filter or the like. The synthesized image is displayed on the display unit. The display control device 1 includes an auxiliary storage unit 10, a touch panel 20, and a processing / control unit 30.

  The auxiliary storage unit 10 is a storage medium that stores various types of data including data 11 to 17 and includes, for example, a flash memory, an HDD (Hard Disc Drive), and the like.

  The processing program data 11 is data including a software program for a user to process an original image converted into digital data.

  The original image data 12 is data indicating an original image. The original image data 12 may be arbitrary image data such as data indicating an image taken by a user with a digital camera, a picture or an image converted into digital data, and the like.

  FIG. 2 shows an example of the original image data 12. “Sphere.jpg” in the figure shows an example of image data 12a obtained by photographing a sphere. Also, “Cylinder.jpg” in the figure indicates the image data 12b obtained by photographing the cylinder.

  The additional shape data 13 is data indicating the shape of an image that can be added to the original image when the image is processed. The additional shape data 13 may be set arbitrarily. The image (additional image) added to the processing source image is obtained by specifying the size, color, and the like of the shape indicated by the additional shape data 13.

  FIG. 3 shows an example of the additional shape indicated by the additional shape data 13. The additional shape data 13 shown in the drawing includes a solid circle, a solid square, and a circle (spray shape) having a pattern as if sprayed with a spray as a regular shape. The additional shape data 13 also includes image data 12a and 12b obtained by photographing a sphere and a cylinder.

  The conversion type data 14 is data indicating the type of conversion that can be used by the user to convert the image, that is, the type of the image filter.

  FIG. 4 shows an example of the conversion type indicated by the conversion type data 14. “Sketch style” of the conversion type data 14 indicates an image filter for converting an image into a sketch style.

  “Distortion” in the conversion type data 14 indicates an image filter that distorts an image in the direction and angle specified by the user. “Repetition” of the conversion type data 14 indicates an image filter in which the image reduced in the image is repeatedly embedded as many times as specified by the user.

  The converted image data 15 is data (converted image data) indicating an image (converted image) that has undergone conversion of any of the conversion types included in the conversion type data 14. The converted image data 15 also includes conversion method data indicating a conversion method applied to the converted image indicated by the data.

  5 to 7 show examples of the converted image and the conversion method indicated by the converted image data 15.

  FIG. 5 shows an example of the converted image data 15a including a converted image subjected to sketch-like conversion. The converted image data 15a includes data indicating an image (hereinafter referred to as a sketch-style sphere image) obtained by performing a sketch-style conversion process on the image data 12a obtained by photographing a sphere, and a sketch-style conversion process as a conversion method. And data indicating that it has been applied.

  FIG. 6 shows an example of converted image data 15b including a converted image that has undergone “distortion” conversion. The converted image data 15b includes data indicating an image (hereinafter, referred to as a distorted cylindrical image) obtained by performing a conversion process for distorting the image data 12b obtained by capturing a cylinder to the right by 45 degrees. The converted image data 15b includes data indicating that a conversion process for distorting 45 degrees in the right direction is performed as a conversion method.

  FIG. 7 shows an example of the converted image data 15c including the converted image subjected to the “repetitive” conversion. The converted image data 15c includes data indicating an image (hereinafter, referred to as a sphere repetition image) obtained by performing conversion processing for repeating the image data 12a obtained by capturing the sphere three times. The converted image data 15c includes data indicating that a conversion process is performed three times as a conversion method.

  The area setting data 16 is data for setting an area to be processed so that when the additional image is added to the processing source image, the outer edge of the additional image conforms to the processing source image without a sense of incongruity. The processing for making the user feel uncomfortable includes, for example, performing the same conversion processing as that performed on the processing source image, blurring processing using an averaging filter, and the like. Further, the area is set in advance by the user or the like.

  FIG. 8 shows an example of the contents indicated by the area setting data. The area setting data 16a in FIG. 8 shows an example in which a band-like area having a width of 20 pixels with the outer edge of the additional image as the center is set as the area to be processed.

  The processed image data (synthesized image data) 17 is image data indicating an image obtained by combining the original image and the additional image. FIG. 9 shows an example of a composite image indicated by the processed image data 17. The composite image shown in the figure shows an image 17a obtained by adding an image obtained by photographing a cylinder to an image obtained by photographing a sphere.

From here, it demonstrates again with reference to FIG.
The touch panel 20 presents an image to the user and detects a position on the screen designated by the user. The touch panel 20 includes a display unit 21 and a touch sensor 22.

  The display unit 21 includes a display screen for displaying an image, and is composed of, for example, a liquid crystal panel. The touch sensor 22 detects a position on the screen touched by the user, and generates data indicating the detected position on the screen. The touch sensor 22 includes a resistance film or a conductive film disposed on the display screen of the display unit 21, a sensor that detects a potential or a current, and the like.

  The processing / control unit 30 is a part that executes various types of processing and control, and includes, for example, a processor, a RAM (Random Access Memory), a cache memory, and the like. As illustrated in FIG. 1, the processing / control unit 30 includes a display control unit 31, a touch panel control unit 32, an auxiliary storage control unit 33, and a program execution processing unit 34.

  The display control unit 31 acquires image data and causes the display unit 21 to display an image indicated by the acquired image data.

  The touch panel control unit 32 generates data (designated position data) indicating the position (designated position) in the image corresponding to the position on the display unit 21 touched by the user. Specifically, the touch panel control unit 32 acquires data indicating the position on the display unit 21 touched by the user from the touch sensor 22 and displays the position on the display unit 21 indicated by the data and the display unit 21. Based on the image, the specified position data is generated.

  In addition, the touch panel control unit 32 receives a user instruction according to the content displayed on the display unit 21 such as specifying an additional image and ending the image processing.

  The auxiliary storage control unit 33 manages and controls data stored in the auxiliary storage unit 10. Specifically, the auxiliary storage control unit 33 acquires the data stored in the auxiliary storage unit 10 from the auxiliary storage unit 10 in accordance with requests from the processing units and the control units 31, 32, and 34, and acquires the acquired data. Is delivered to each of the processing unit and the control units 31, 32, and 34. The auxiliary storage control unit 33 acquires data from each of the processing units and control units 31, 32, and 34, and stores the data in the auxiliary storage unit 10 according to instructions from each of the processing units and control units 31, 32, and 34. Remember.

  The program execution processing unit 34 is a processing unit that acquires the machining program data 11 stored in the auxiliary storage unit 10 and executes a software program included in the machining program data 11.

  FIG. 10 is a diagram illustrating functions exhibited by the program execution processing unit 34 that executes a software program included in the machining program data 11. The program execution processing unit 34 includes an original image acquisition unit 51, a conversion method generation unit 52, a conversion unit 53, and a processing unit 54, as shown in FIG.

  The original image acquisition unit 51 acquires the original image data 12 specified by the user.

  The conversion method generation unit 52 acquires data related to the user's designation when performing image conversion such as the conversion type data 14, and generates the conversion method data based on the acquired data. Specifically, the conversion method data is generated by combining the conversion type data 14 specified by the user and data indicating the contents specified by the user when image conversion is performed using the conversion type data 14.

  The conversion unit 53 performs conversion processing on the original image data 12 acquired by the original image acquisition unit 51 in accordance with a conversion method designated by the user. Thereby, the conversion unit 53 generates converted image data indicating an image (converted image) obtained by converting the original image indicated by the original image data 12 according to the conversion method described above. The conversion unit 53 stores the generated converted image data in the auxiliary storage unit 10 via the auxiliary storage control unit 33.

  The processing unit 54 adds an additional image to the converted image as the processing source in accordance with a user instruction. The processing unit 54 performs the same conversion as the conversion performed on the converted image on the additional image, and adds the additional image subjected to the same conversion to the designated position of the converted image that is the processing source.

  Here, the “similar conversion” is the same conversion as the conversion performed on the conversion image that is the processing source, or the conversion performed on the conversion image that is the processing source except for the conversion that involves movement and deformation. Means the same transformation. By performing such conversion on the additional image, the additional image and the converted image can be blended without a sense of incongruity.

  The processing unit 54 includes processing units 61 to 67 as shown in detail in FIG.

  The additional image acquisition unit 61 is a data that indicates, as an additional image, a shape selected by the user from the shapes indicated by the additional shape data 13, and an image having a size, a color, and the like selected by the user according to the shape ( Acquire additional image data).

  The converted image acquisition unit 62 acquires converted image data. The converted image data may be acquired from the conversion unit 53 or may be acquired from the auxiliary storage unit 10 via the auxiliary storage control unit 33. The converted image included in the converted image data becomes the processing source image.

  The conversion method acquisition unit 63 acquires the conversion method data included in the converted image data acquired by the converted image acquisition unit 62, and thereby specifies the conversion method applied to the original image.

  The addition method acquisition unit 64 acquires data indicating a method designated by the user among methods of adding an additional image to a converted image that is an image of the processing source. There are two methods of adding an additional image to the converted image, Mode I and Mode II, and the user can select from these methods.

  Mode I is a method of converting an additional image and adding the converted additional image to a designated position of the converted image as a processing source. Here, the conversion performed on the additional image is similar to the conversion performed on the converted image.

  Mode II is a method of generating a composite image (original composite image) in which an additional image is added to the original image of the converted image as the processing source, and converting the composite image. The conversion performed in mode II is the same conversion as the conversion performed on the converted image.

  The specified position acquisition unit 65 acquires specified position data generated by the touch panel control unit 32.

  The end determination unit 66 determines whether an instruction to end the processing is received from the user.

  The composite image generation unit 67 is data (composite image data) indicating a composite image in which an additional image subjected to the same conversion as the conversion performed on the conversion image to be processed is added to the conversion image according to the user's specification. Is generated.

  FIG. 11 is a diagram illustrating details of the composite image generation unit 67. As shown in the figure, the composite image generating unit 67 includes a designated area specifying unit 71, a specified position conversion specifying unit 72, an adding method determining unit 73, an additional image converting unit 74, a first combining unit 75, An inverse conversion unit 76, a second synthesis unit 77, and a composite image conversion unit 78 are provided.

  The designated area specifying unit 71 acquires the additional image data, the specified position data, and the area setting data 16, specifies the specified area based on these data, and generates data indicating the specified specified area.

  The designated area is a band-like area having a width indicated by the area setting data 16 along the outer edge of the additional image when the additional image related to the user designation is arranged at the designated position. The data indicating the image of the designated area is subjected to a processing process so that the outer edge of the additional image is blended with the original image without a sense of incongruity.

  The designated position conversion specifying unit 72 is a case where mode I is selected as the addition method, and conversion corresponding to the designated position is performed when conversion according to a plurality of conversion methods is performed on the conversion image to be processed. Identify the method. In addition, the designated position conversion specifying unit 72 generates data indicating the specified conversion method (specified position conversion method data).

  Here, the conversion method corresponding to the specified position is a conversion method applied to the converted image at the specified position among the conversion methods applied to the converted image. Also, the conversion method corresponding to the designated position is specified from among them by referring to the conversion method specified by the conversion method acquisition unit 63.

  The addition method determination unit 73 determines whether the addition method indicated by the data acquired by the addition method acquisition unit 64 is mode I or mode II.

  When mode I is selected as the addition method, the additional image conversion unit 74 converts the additional image and generates data indicating the converted additional image (converted additional image). The conversion method in the additional image conversion unit 74 is based on the conversion method applied to the conversion image of the processing source. That is, when there is one conversion method applied to the conversion image of the processing source, the conversion method in the additional image conversion unit 74 excludes movement and deformation from the conversion method applied to the conversion image of the processing source. Is the same as When a plurality of conversion methods are applied to the conversion image of the processing source, the conversion method is obtained by removing movement and deformation from the conversion method specified by the designated position conversion specifying unit 72.

  When mode I is selected as the adding method, the first combining unit 75 generates data indicating a combined image obtained by adding the converted additional image to the converted image that is the addition source as combined image data.

  The inverse conversion unit 76 acquires the converted image data 15, reversely converts the converted image of the processing source based on the acquired data, and generates data (original image data) indicating the original image obtained by the reverse conversion. . The reverse conversion is a reverse conversion of the conversion method indicated by the data included in the converted image data 15. By performing reverse conversion, the converted image included in the converted image data 15 can be returned to the original image.

  When the mode II is selected as the adding method, the second synthesizing unit 77 is data (original synthesized image data) indicating a synthesized image (original synthesized image) obtained by adding an additional image to the original image of the converted image that is the processing source. Is generated.

  The composite image conversion unit 78 converts the original composite image data generated by the second synthesis unit 77 according to the conversion method indicated by the conversion method data acquired by the conversion method acquisition unit 63. Thus, the composite image conversion unit 78 generates data indicating the composite image, which is an image obtained by adding the conversion additional image to the converted image, as composite image data.

  Next, processing executed by the display control device 1 having the configuration described so far will be described together with a specific example with reference to the drawings.

  FIG. 12 is a flowchart illustrating an outline of processing executed by the display control apparatus 1 according to the present embodiment.

  The touch panel control unit 32 determines whether a conversion instruction by a user operation has been received (step S101). If it is determined that a conversion instruction has not been received (step S101; No), the touch panel control unit 32 ends the process.

  If it is determined that a conversion instruction has been received (step S101; Yes), the program execution processing unit 34 converts the original image data 12 in accordance with a user instruction (step S102). Details of this processing will be described later.

  The touch panel control unit 32 determines whether or not a processing instruction by a user operation has been received (step S103). When it is determined that the processing instruction has not been received (step S103; No), the touch panel control unit 32 ends the process.

  When it is determined that the conversion instruction has been received (step S103; Yes), the program execution processing unit 34 generates data indicating a composite image obtained by adding the conversion addition image to the conversion image according to the user instruction (step S104), and thereafter The process ends. Details of this processing will be described later.

  FIG. 13 is a flowchart showing details of the original image conversion process (step S102).

  The original image acquisition unit 51 acquires the original image data 12 designated by the user (step S201).

  The conversion method generation unit 52 generates data (conversion method data) indicating the conversion method designated by the user as the conversion method applied to the original image data 12 acquired by the original image acquisition unit 51 (step S202). For example, in the case of the distorted cylindrical image shown in FIG. 6, the conversion method data is data indicating “distortion to the right by 45 degrees”.

  The conversion unit 53 converts the original image data 12 acquired by the original image acquisition unit 51 according to a conversion method designated by the user. Then, the conversion unit 53 generates converted image data including conversion method data (step S203).

  In response to the instruction from the conversion unit 53, the auxiliary storage control unit 33 stores the converted image data 15 generated by the conversion unit 53 in the auxiliary storage unit 10 (step S204), and ends the original image conversion process (step S102). To do.

  FIG. 14 is a flowchart showing details of the processing (step S104).

  The additional image acquisition unit 61 generates additional image data based on the additional shape data 13 selected by the user (step S301).

  Specifically, the additional image acquisition unit 61 acquires additional shape data 13 selected by the user. Further, the additional image acquisition unit 61 acquires data indicating specific values designated by the user for elements that can be selected for the selected additional shape data 13. Thereby, an additional image is specified. Selectable elements include, for example, the size and color of the image indicated by the additional shape data 13.

  FIG. 15 is a diagram illustrating an example of the content of data indicating an additional image. The data 80 indicating the additional image shown in the figure includes that the shape is a spray shape, the diameter is 30 pixels, and the color is black. Hereinafter, the additional image shown in FIG. 15 is referred to as a “spray image”.

  The converted image acquisition unit 62 acquires the converted image data 15 including data indicating the converted image that is the processing source (step S302). The converted image data 15 is selected by the user from the converted image data 15 generated by the converting unit 53 and the converted image data 15 stored in the auxiliary storage unit. As a result, the display unit 21 displays a converted image as a processing source based on the data included in the converted image data 15.

  The conversion method acquisition unit 63 acquires the conversion method data included in the converted image data 15 acquired by the converted image acquisition unit 62, and thereby specifies the conversion method applied to the processing source image (step S303). ).

  The addition method acquisition unit 64 acquires data indicating the addition method designated by the user (step S304). The additional method is the above-described mode I or mode II.

  The specified position acquisition unit 65 acquires specified position data generated by the touch panel control unit 32 (step S305). At this time, the conversion image of the processing source is displayed on the display unit 21. Accordingly, the designated position data generated by the touch panel control unit 32 in this process indicates the designated position in the converted image of the processing source.

  The composite image generation unit 67 generates composite image data (step S306). Details of the composite image generation process (step S306) will be described later.

  The display control unit 31 acquires the composite image data generated by the first composite unit 75 or the composite image conversion unit 78 of the composite image generation unit 67, and causes the display unit 21 to display the image indicated by the acquired data (step S307). ).

  Here, FIG. 16 shows an example of an image displayed on the display unit 21 in the composite image display process (step S307).

  As shown in the figure, the display unit 21 displays a large composite image 81 indicated by the composite image data. In the composite image 81 in the figure, the spray image specified as the additional image is added to the designated position in the sketch-style ball image. In the figure, for the sake of explanation, an X is added to the designated position of the composite image 81.

  The additional image of the composite image 81 is subjected to sketch-like conversion in the same manner as the conversion image of the processing source. FIG. 17 shows a composite image when the additional image is not converted. As can be seen by comparing the composite image 81 in FIG. 16 with the composite image shown in FIG. 17, in the composite image 81 in FIG. 16, the additional image is transformed and the discomfort between the original image and the processing source image is converted. There is at least mitigation.

  Although not shown, a hollow circular (doughnut-shaped) portion having a width of 20 pixels centering on the outer edge of the additional image is the designated region.

  Below the composite image 81, the coordinates (140, 320) of the designated position are displayed. The designated position is represented as an XY coordinate point when the horizontal direction is the X direction, the vertical direction is the Y direction, the lower left of the composite image is the origin (0, 0), and the upper right is (1300, 1000).

  To the left of the composite image, a spray image 82 selected as an additional image and buttons 83 to 85 are displayed in order from the top. The button 83 is a button for giving an instruction to switch an additional image. The button 84 is a button for giving an instruction to switch the processing method. The button 85 is a button for giving an instruction to end the image processing.

Reference is again made to FIG.
The end determination unit 66 determines whether an end instruction based on the user's operation has been acquired via the touch panel control unit 32 (step S308). The end instruction is given by touching the button 85, for example.

  When it is determined that the end instruction has not been acquired (step S308; No), the synthesized image indicated by the synthesized image data generated by the first synthesizing unit 75 or the synthesized image converting unit 78 is used as a converted image to be processed. The processes from step S305 to step S307 described above are executed again.

  As a result, the user can confirm on the display unit 21 a state in which an additional image that has been subjected to the same conversion as that of the converted image is sequentially added to the designated position of the converted image of the processing source. FIG. 18 shows a state in which the composite image 86 in which the spray image is continuously added in a wave shape to the sketch-style ball image is displayed on the display unit 21. By repeating steps S305 to S307, the user looks at the display unit 21 and processes the converted image while checking in real time the state of characters and figures formed by the continuously added additional images. It becomes possible.

  When it is determined that the end instruction has been acquired (step S308; Yes), the first combining unit 75 or the combined image converting unit 78 acquires data indicating the determination result. Then, the first combining unit 75 or the combined image converting unit 78 stores the generated combined image data in the auxiliary storage unit 10, thereby saving the generated data (step S309) and performing the processing (step S104). finish.

  As described above, in the processing (step S104), the additional image is subjected to the same conversion as that of the conversion image of the processing source. As a result, the touch, texture, and tone of the additional image and the converted image of the processing source can be brought closer. Then, the additional image subjected to the conversion is added to the converted image of the processing source. Therefore, it is possible to eliminate or reduce the uncomfortable feeling when an image is added to the converted image.

  In addition, processing is applied to the periphery of the outer edge of the additional image as a designated region so that the processing source image fits comfortably into the original image. As a result, it is possible to eliminate or further reduce the uncomfortable feeling when an image is added to the converted image.

  Next, the details of the composite image generation process (step S306) will be described with reference to FIG.

  The specified area specifying unit 71 specifies the specified area and generates data indicating the specified area (step S401).

  Specifically, the designated area specifying unit 71 includes the designated position data acquired by the specified position acquisition unit 65, the additional image data acquired by the additional image acquisition unit 61, and the area setting stored in the auxiliary storage unit 10. Data 16 is acquired. Then, the specified area specifying unit 71 specifies the specified area based on the acquired additional image data, specified position data, and area setting data 16, and generates data indicating the specified specified area.

  The addition method determination unit 73 refers to the data acquired by the addition method acquisition unit 64 and determines whether the addition method selected by the user indicated by the data is mode I or mode II (step S402). .

  When it is determined that the selected additional method is mode I (step S402; mode I), the designated position conversion specifying unit 72 determines whether there are a plurality of conversion methods specified by the conversion method acquiring unit 63. Judgment is made (step S403). Here, the fact that no conversion is performed is counted as one conversion method. For example, if only a part of the image is converted and the remaining part is not converted, it is determined that the image has two conversion methods.

  Further, for example, in the converted images 15a to 15c shown in FIGS. 5 to 7, since one conversion is performed on the whole, there is one conversion method. On the other hand, the converted image 87 shown in FIG. 20 includes a sketch-style ball image and a distorted cylindrical image. Therefore, in the case of the converted image 87, it is determined that there are two conversion methods.

  When it is determined that there are a plurality of conversion methods (step S403; Yes), the specified position conversion specifying unit 72 specifies a conversion method corresponding to the specified position, and generates specified position conversion method data indicating the specified conversion method. (Step S404).

  The additional image conversion unit 74 acquires the specified position conversion method data generated by the specified position conversion specifying unit 72 and the additional image data acquired by the additional image acquisition unit 61. Then, the additional image conversion unit 74 performs conversion processing on the additional image data in accordance with the specified position conversion method indicated by the specified position conversion method data (step S405). Thus, the additional image is converted according to the conversion method.

  The conversion performed by the additional image conversion unit 74 is the same as the conversion method of the designated position when the conversion method of the designated position does not include movement or deformation. When the conversion method of the designated position includes movement or deformation, the conversion performed by the additional image conversion unit 74 is the same as the conversion method of the designated position excluding movement or deformation.

  When it is determined that there are not a plurality of conversion methods (step S403; No), the additional image conversion unit 74 adds the conversion method data acquired by the conversion method acquisition unit 63 and the additional image acquisition unit 61 acquired. Get image data. Then, the additional image conversion unit 74 converts the additional image data according to the conversion method indicated by the conversion method data (step S406).

  The conversion performed by the additional image conversion unit 74 is the same as the specified conversion method when the conversion method specified by the conversion method acquisition unit 63 does not include movement or deformation. When the conversion method specified by the conversion method acquisition unit 63 includes movement or deformation, the conversion performed by the additional image conversion unit 74 is the same as that of the specified conversion method excluding movement or deformation. .

  When mode I is selected as the addition method, the first synthesis unit 75 generates data (synthesized image data) indicating a synthesized image obtained by adding the converted additional image to the converted image that is the addition source (step S407).

  Specifically, the first synthesis unit 75 acquires data generated by the additional image conversion unit 74 and data indicating the converted image that is the addition source. The data indicating the converted image is included in the converted image data acquired by the converted image acquisition unit 62. And the 1st synthetic | combination part 75 produces | generates the composite image data which shows the composite image which added the conversion addition image to the addition position of the conversion image of the process source based on the acquired data.

  Thereby, the 1st synthetic | combination part 75 complete | finishes a synthesized image generation process (step S306).

  Here, a specific example of the content of the composite image data generated by the first combining unit 75 is shown in FIGS.

  FIG. 21 shows a composite image 88 in which spray images are continuously added in a wave shape similar to the composite image 86 of FIG. 18 to the converted image 87 shown in FIG. The transformation applied to the distorted cylindrical image of the transformed image 87 is only transformation involving deformation. Therefore, no conversion is performed on the additional image added at the specified position in the distorted cylindrical image. A portion other than the distorted cylindrical image of the converted image 87 is subjected to sketch-like conversion, which is a conversion method that does not involve movement and deformation. Therefore, the sketch-like conversion is applied to the additional image added to the designated position other than the distorted cylindrical image of the converted image 87.

  In this way, by applying the conversion corresponding to the designated position to the additional image, even when the converted image includes images converted by a plurality of different methods, there is a sense of incongruity when the additional image is added to the converted image. It can be eliminated or reduced.

  Further, by removing movement and deformation from the conversion method, it is possible to prevent the additional image from being added to a position different from the designated position and the additional image from being deformed.

  Note that the composite image 88 shown in FIG. 21 is the same in mode II.

  FIG. 22 shows an example of a composite image 89 created in mode I when different composite images are created in mode I and mode II. In the composite image 89, the character “A” as an additional image is added to the spherical repeat image 15c. “Repeated” transformation includes translation and deformation. For this reason, an additional image that has not been converted is added to the spherical repeat image 15c.

  As described above, by not performing conversion with movement or deformation on the additional image, the additional image is added to the converted image so that the user intends and there is no sense of incongruity or is reduced. It becomes possible.

Again, a description will be given with reference to FIG.
When it is determined that the selected addition method is mode II (step S402; mode II), the inverse conversion unit 76 performs inverse conversion on the converted image data indicating the converted image of the processing source, thereby Original image data is generated (step S408).

  Specifically, the inverse conversion unit 76 acquires the converted image data 15 and specifies a conversion method that is the reverse of the conversion method included in the converted image data 15. In accordance with the inverse conversion method, the inverse conversion unit 76 performs a conversion process on data indicating the converted image of the processing source included in the converted image data 15. Thereby, the inverse conversion unit 76 generates data (original image data) indicating the original image of the converted image of the processing source.

  The second synthesis unit 77 generates original synthesized image data (step S409). Specifically, the second synthesis unit 77 acquires the original image data generated by the inverse conversion unit 76 and the additional image data acquired by the additional image acquisition unit 61. Then, the second composition unit 77 generates data (original composite image data) indicating a composite image, which is an image obtained by adding an additional image at a position corresponding to the designated position of the original image, based on both pieces of acquired data.

  The composite image conversion unit 78 generates composite image data by converting the original composite image data according to the conversion method indicated by the conversion method data (step S410).

  Specifically, the composite image conversion unit 78 acquires the conversion method data acquired by the conversion method acquisition unit 63 and the original composite image data generated by the second synthesis unit 77. Then, the composite image conversion unit 78 converts the original composite image data according to the conversion method indicated by the conversion method data. Accordingly, the composite image conversion unit 78 generates data indicating the image obtained by converting the original composite image as composite image data.

  Thereby, the composite image conversion unit 78 ends the composite image generation process (step S306).

  FIG. 23 shows an example of a composite image 90 created in mode II when different composite images are created in mode I and mode II. In the composite image 90, as in the composite image 89 shown in FIG. 22, the letter “A” as an additional image is added to the spherical repeat image 15c. In mode II, after returning to the original image, an additional image is added, and the original image to which the additional image has been added is converted again. Therefore, in the composite image 90, unlike the composite image 89, the character “A”, which is an additional image, is also added to an image that is repeatedly embedded by being reduced at the same magnification as the embedded image.

  In this way, by generating the composite image data via the original composite image data, an additional image is added to the converted image so that it becomes what the user intends and there is no sense of incongruity or is reduced. It becomes possible to do.

  The embodiment of the present invention has been described above. The present invention is not limited to the above-described embodiment. The present invention includes those in which the embodiments are appropriately changed without departing from the spirit of the present invention.

  For example, in the embodiment, the touch panel is used for the user to input to the display control device 1, but the means for the user to input to the display control device 1 is not limited to this. For example, a pointing device such as a button, a key, or a mouse may be employed.

  Further, for example, in the embodiment, the program execution processing unit 34 executes the software program included in the machining program data 11 and exhibits the function of the display control device 1. However, the method by which the display control apparatus 1 has the function is not limited to this. For example, the functions included in the display control device 1 may be realized by one or a plurality of processors including each function. For example, the function with which the display control apparatus 1 is provided may be implement | achieved by the combination of the processor which performs one or several processors provided with a part of the function, and a software program.

  Further, for example, in the embodiment, the converted image data includes the conversion method data. However, the converted image data and the conversion method data may be managed as separate data associated with each other.

  Further, for example, in order to create the original image of the converted image as the processing source, the converted image is inversely converted. However, the method for obtaining the data indicating the original image is not limited to this. For example, the converted image data may include data for specifying the original image data 12, and the original image data 12 may be acquired from the auxiliary storage unit 10 by referring to the converted image data. According to this, the process for reverse conversion can be omitted, and the processing load applied to the display control apparatus 1 can be reduced.

  Further, for example, in the conversion of the additional image in mode I, the movement and deformation are excluded, but whether or not to remove one or both of the movement and deformation from the conversion performed by the additional image conversion unit 74 is appropriately set. It's okay. This makes it possible to eliminate or reduce the uncomfortable feeling when an image is added to the converted image in accordance with various provided conversion methods or in accordance with user preferences.

The invention described in the scope of the claims of the present invention is appended below.
(Appendix 1)
Converted image acquisition means for acquiring data indicating the converted image subjected to the conversion process;
Conversion method acquisition means for acquiring data indicating a conversion method in the conversion process;
Additional image acquisition means for acquiring data indicating the additional image;
Designated position obtaining means for obtaining data indicating the designated position in the converted image displayed on the display means;
Combined image generation means for generating data indicating a combined image obtained by adding a converted additional image obtained by converting data indicating the additional image according to the conversion method to the designated position of the converted image;
A display control apparatus comprising: display control means for acquiring data indicating the composite image and displaying the composite image on a display means.

(Appendix 2)
The composite image generation means adds the converted additional image to the specified position of the converted image and converts an image in the converted image included in a predetermined range from an outer edge of the additional image added to the specified position. The display control apparatus according to appendix 1, wherein data indicating a composite image that is a generated image is generated.

(Appendix 3)
The specified position acquisition means continuously acquires data indicating the specified position,
The display control apparatus according to appendix 1 or 2, wherein the composite image generation unit generates data indicating a composite image that is an image obtained by continuously adding the converted additional images to the designated position.

(Appendix 4)
Conversion means for acquiring data indicating the original image, generating data indicating the converted image by performing conversion processing on the data indicating the original image, and generating data indicating a conversion method in the conversion processing; The display control apparatus according to any one of supplementary notes 1 to 3, wherein the display control apparatus is provided.

(Appendix 5)
The conversion process includes a first conversion process and a second conversion process with different conversion methods,
The converted image acquisition means acquires data indicating a converted image subjected to the first conversion process and the second conversion process,
The conversion method acquisition means acquires data indicating a first conversion method in the first conversion process and data indicating a second conversion method in the second conversion process;
The composite image generation means generates data indicating a composite image in which the converted additional image obtained by converting the additional image according to the first or second conversion method is added to the designated position of the converted image. The display control apparatus according to any one of Supplementary notes 1 to 4.

(Appendix 6)
The converted image acquisition means is configured to perform the first conversion process on a first area in the converted image and perform the second conversion process on a second area in the converted image. Get the data showing the converted image,
The composite image generation means includes data indicating a composite image obtained by adding a converted additional image obtained by converting the additional image according to the first or second conversion method corresponding to the specified position to the specified position of the converted image. The display control device according to appendix 5, wherein the display control device is generated.

(Appendix 7)
The composite image generation means includes
Additional image conversion means for generating data indicating the converted additional image obtained by performing conversion on the additional image except for movement or deformation in the conversion process;
Appendices 1 to 6, further comprising first combining means for generating data indicating a combined image obtained by adding the converted additional image indicated by the data generated by the additional image converting means to the designated position of the converted image. The display control apparatus according to any one of the above.

(Appendix 8)
The composite image generation means includes
Inverse conversion means for generating data indicating the original image by referring to the data acquired by the conversion method acquisition means and performing reverse conversion to return the converted image to the original image before conversion;
Second combining means for generating data indicating an original combined image obtained by adding the additional image at a position in the original image corresponding to the designated position;
The display control apparatus according to any one of appendices 1 to 6, further comprising: a composite conversion unit configured to generate data indicating the composite image by converting the original composite image according to the conversion method.

(Appendix 9)
The display control device according to any one of appendices 1 to 8, wherein the data indicating the additional image includes data indicating a shape of the additional image and at least one of a size and a color.

(Appendix 10)
On the computer,
A process of obtaining data indicating a converted image that has been subjected to the conversion process;
A process of obtaining data indicating a conversion method in the conversion process;
Processing to obtain data indicating additional images,
Processing for obtaining data indicating a designated position in the converted image displayed on the display means;
A process of generating data indicating a composite image in which a converted additional image obtained by converting data indicating the additional image according to the conversion method is added to the designated position of the converted image;
Processing for acquiring data indicating the composite image and displaying the composite image on a display unit;
A program characterized by having executed.

  DESCRIPTION OF SYMBOLS 1 ... Display control apparatus, 10 ... Auxiliary memory | storage part, 12 ... Original image data, 13 ... Additional shape data, 14 ... Conversion classification data, 15 ... Conversion image data, 16 ... Area setting data, 17 ... Processed image data, 20 ... Touch panel, 21 ... display unit, 22 ... touch sensor, 30 ... processing / control unit, 31 ... display control unit, 32 ... touch panel control unit, 33 ... auxiliary storage control unit, 34 ... program execution processing unit, 51 ... original image acquisition , 52 ... Conversion method generation unit, 53 ... Conversion unit, 54 ... Processing unit, 61 ... Additional image acquisition unit, 62 ... Conversion image acquisition unit, 63 ... Conversion method acquisition unit, 64 ... Additional method acquisition unit, 65 ... Designation Position acquisition unit, 66 ... end determination unit, 67 ... composite image generation unit, 71 ... designated area identification unit, 72 ... designated position conversion identification unit, 73 ... addition method determination unit, 74 ... additional image conversion unit, 75 ... first Synthesizer, 7 ... inverse transform unit, 77 ... second combining unit, 78 ... composite image converting unit

Claims (10)

Converted image acquisition means for acquiring data indicating the converted image subjected to the conversion process;
Conversion method acquisition means for acquiring data indicating a conversion method in the conversion process;
Additional image acquisition means for acquiring data indicating the additional image;
Designated position obtaining means for obtaining data indicating the designated position in the converted image displayed on the display means;
Combined image generation means for generating data indicating a combined image obtained by adding a converted additional image obtained by converting data indicating the additional image according to the conversion method to the designated position of the converted image;
A display control apparatus comprising: display control means for acquiring data indicating the composite image and displaying the composite image on a display means. The composite image generation means adds the converted additional image to the specified position of the converted image and converts an image in the converted image included in a predetermined range from an outer edge of the additional image added to the specified position. The display control apparatus according to claim 1, further comprising: generating data indicating a composite image that is a processed image. The specified position acquisition means continuously acquires data indicating the specified position,
The display control apparatus according to claim 1, wherein the composite image generation unit generates data indicating a composite image that is an image obtained by continuously adding the converted additional images to the designated position. Conversion means for acquiring data indicating the original image, generating data indicating the converted image by performing conversion processing on the data indicating the original image, and generating data indicating a conversion method in the conversion processing; The display control apparatus according to any one of claims 1 to 3, further comprising: The conversion process includes a first conversion process and a second conversion process with different conversion methods,
The converted image acquisition means acquires data indicating a converted image subjected to the first conversion process and the second conversion process,
The conversion method acquisition means acquires data indicating a first conversion method in the first conversion process and data indicating a second conversion method in the second conversion process;
The composite image generation means generates data indicating a composite image in which the converted additional image obtained by converting the additional image according to the first or second conversion method is added to the designated position of the converted image. The display control apparatus according to any one of claims 1 to 4. The converted image acquisition means is configured to perform the first conversion process on a first area in the converted image and perform the second conversion process on a second area in the converted image. Get the data showing the converted image,
The composite image generation means includes data indicating a composite image obtained by adding a converted additional image obtained by converting the additional image according to the first or second conversion method corresponding to the specified position to the specified position of the converted image. The display control apparatus according to claim 5, wherein the display control apparatus generates the display control apparatus. The composite image generation means includes
Additional image conversion means for generating data indicating the converted additional image obtained by performing conversion on the additional image except for movement or deformation in the conversion process;
The apparatus further comprises: first combining means for generating data indicating a combined image obtained by adding the converted additional image indicated by the data generated by the additional image converting means to the designated position of the converted image. 7. The display control device according to any one of 6. The composite image generation means includes
Inverse conversion means for generating data indicating the original image by referring to the data acquired by the conversion method acquisition means and performing reverse conversion to return the converted image to the original image before conversion;
Second combining means for generating data indicating an original combined image obtained by adding the additional image at a position in the original image corresponding to the designated position;
7. The display control apparatus according to claim 1, further comprising: a composite conversion unit configured to generate data indicating the composite image by converting the original composite image according to the conversion method. 9. The display control apparatus according to claim 1, wherein the data indicating the additional image includes data indicating a shape of the additional image and at least one of a size and a color. On the computer,
A process of obtaining data indicating a converted image that has been subjected to the conversion process;
A process of obtaining data indicating a conversion method in the conversion process;
Processing to obtain data indicating additional images,
Processing for obtaining data indicating a designated position in the converted image displayed on the display means;
A process of generating data indicating a composite image in which a converted additional image obtained by converting data indicating the additional image according to the conversion method is added to the designated position of the converted image;
Processing for acquiring data indicating the composite image and displaying the composite image on a display unit;
A program characterized by having executed.

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