JPH11219439A - Image editing device, image editing method, and recording medium recording image editing processing program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently enlarge a new image largely and to insert the enlarged image into an image edition area to which plural images are stuck. SOLUTION: In the case of inserting a new inserting image C into an image edition area S on which images A, B have been already arranged, rectangular free areas to which no image is stuck yet out of the area S are found out, a free area capable of sticking the enlarged image C as much as possible in a state maintaining the aspect ratio of the image C is selected, and the image C is stuck to the selected free area.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image editing apparatus and an image editing method for editing an image on a computer, for example, used in a DTP system, a printer system, a word processor, and the like.

[0002]

2. Description of the Related Art When producing printed materials such as catalogs, flyers, magazines, and newspapers, it is necessary to set the layout of a plurality of images to be arranged on paper. Such operations are usually performed using a DTP system using a computer such as a personal computer or a workstation.

For example, an image editing area corresponding to the size of paper to be printed is set on a storage circuit of a computer,
This image editing area is displayed on the display. And
The operator sets an image layout by pasting an image (image data) at a desired position in the image editing area while looking at the display. Since this image editing area corresponds to the size of the printing paper, the operator can paste the image in the image editing area at the same interval as when pasting an actual picture or photograph on the printing paper. . As described above, by using the DTP system or the like, the layout setting of the image can be easily performed, and the efficiency of the image editing operation can be improved.

[0004]

In the above-described image editing operation, a worker pastes a plurality of images in an image editing area and sets the layout of each image. Here, when the number of images pasted in the image editing area increases, the empty area of the image editing area is variously divided by the already pasted image, and the empty areas are scattered in the image editing area. Becomes The area and the aspect ratio of the free area vary depending on the position and the area of the pasted image, the ratio of the height to the width of the image (hereinafter referred to as “aspect ratio”), and the like.

When a new image is pasted in this image editing area in such a state, it is difficult for the operator to find a free area in which the new image can be enlarged and pasted so as to be easily seen. is there. For this reason, image editing work takes a lot of time,
There is a problem that work efficiency is reduced.

Further, when a new image is easily pasted into an image editing area in which a plurality of images are pasted and an empty area is reduced, a relatively large area can be selected and a new area can be selected within the empty area. A method of enlarging and pasting a new image as much as possible is conceivable. However, in consideration of the aspect ratio of the new image and the aspect ratio of each empty area, there may be an empty area where the new image can be further enlarged and pasted. However,
It is very difficult to find such a free area.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and enables a large image to be efficiently and enlargedly inserted into an image editing area to which a plurality of images are pasted. It is an object of the present invention to provide an image editing apparatus and an image editing method capable of improving work efficiency.

[0008]

According to an aspect of the present invention, there is provided an image editing apparatus for editing a plurality of images arranged in an image editing area formed on a recording circuit. Image specifying means for specifying an inserted image to be inserted into the image editing area; rectangular area calculating means for calculating a plurality of rectangular areas which do not overlap any of the plurality of images already arranged in the image editing area; From a plurality of rectangular areas calculated by the area calculating means, a rectangular area in which the inserted image specified by the image specifying means can be arranged in the most enlarged state while maintaining the aspect ratio of the inserted image is determined. There is provided a selecting means for selecting, and an image arranging means for arranging the inserted image in the rectangular area selected by the selecting means in the most enlarged state while maintaining the aspect ratio of the inserted image.

That is, the image specifying means specifies an image to be newly inserted in the image editing area. Then, the rectangular area calculation means finds, by calculation, a plurality of rectangular areas that do not overlap with any of the images already arranged in the image editing area, that is, an empty area where no image is arranged. Then, the selecting means can arrange the inserted image from the plurality of rectangular areas (empty areas) calculated by the rectangular area calculating means in the most enlarged state while maintaining the aspect ratio of the inserted image. Select a rectangular area. Here, the aspect ratio of the inserted image means the ratio between the height and the width of the inserted image. In addition, the most enlarged state means the largest state, and when there is a reference size of the inserted image, the state where the insertion image is enlarged at the largest magnification from the reference size, and It is meant to include both the state reduced from the reference size at the smallest reduction ratio. Then, the image arranging unit arranges the insertion image in the rectangular area selected by the selection unit in a state where the insertion image is maximized while maintaining the aspect ratio of the insertion image. As a result, even if a plurality of images have already been pasted in the image editing area, it is possible to immediately find an area where the inserted image can be enlarged and inserted in a large and efficient manner, and automatically insert the inserted image in an easily viewable state. Can be inserted.

[0010] In the image editing apparatus according to the second aspect of the present invention, the selection means enlarges the insertion image in each rectangular area calculated by the rectangular area calculation means as much as possible while maintaining the aspect ratio of the insertion image. Assuming that
Enlargement ratio calculation means for calculating the enlargement ratio of the inserted image, comparison means for comparing the enlargement ratios calculated by the enlargement ratio calculation means, and a plurality of rectangular areas based on the comparison result of the comparison means. And a rectangular area selecting means for selecting a rectangular area in which the insertion image can be enlarged and arranged at the maximum enlargement ratio.

That is, the rectangular area calculating means calculates all rectangular areas (empty areas) existing in the image editing area. The enlargement ratio calculation means assumes that the insertion image has been inserted into each of the plurality of rectangular regions, and within each rectangular region, enlarges the insertion image as much as possible while maintaining the aspect ratio of the insertion image. The enlargement ratio at the time is calculated. Thereby, a plurality of enlargement ratios corresponding to all the rectangular areas are calculated. Then, the comparing unit compares the plurality of magnifications with each other. Further, the rectangular area selection means selects the largest enlargement rate from the plurality of enlargement rates based on the comparison result of the comparison means, and selects a rectangular area corresponding to the enlargement rate. As a result, it is possible to easily find a rectangular area where the inserted image can be arranged in the most enlarged state while maintaining the aspect ratio of the inserted image.

The enlargement ratio calculating means in the image editing apparatus according to the third aspect of the present invention includes an aspect ratio comparing means for comparing a ratio between a vertical width and a horizontal width of the inserted image and a ratio between the vertical width and the horizontal width of each of the rectangular areas. When the ratio of the height to the width of the insertion image is larger than the ratio of the height to the width of each rectangular area based on the comparison result of the aspect ratio comparing means, the height of the insertion image becomes equal to the height of the rectangular area. When the ratio of the height to the width of the insertion image is smaller than the ratio of the height to the width of each rectangular area based on the comparison result of the aspect ratio comparing means, the insertion image is calculated. And an arithmetic processing means for calculating an enlargement ratio for enlarging the inserted image so that the horizontal width is equal to the horizontal width of the rectangular area. Thereby, in each rectangular area, the enlargement ratio when the insert image is enlarged as much as possible while maintaining the aspect ratio of the insert image can be easily obtained.

According to a fourth aspect of the present invention, there is provided an image editing method for editing a plurality of images arranged in an image editing area formed on a recording circuit, wherein an image specifying procedure for specifying an inserted image to be inserted into the image editing area. A rectangular area calculation procedure for calculating a plurality of rectangular areas that do not overlap any of the plurality of images already arranged in the image editing area; and a plurality of rectangular areas calculated by the rectangular area calculation procedure. A selection step of selecting a rectangular area in which the insertion image specified by the image specification procedure can be arranged in the most enlarged state while maintaining the aspect ratio of the insertion image, and a rectangular area selected by the selection procedure And an image arranging procedure for arranging the inserted image in the most enlarged state while maintaining the aspect ratio of the inserted image.

[0014] Thus, even when a plurality of images are already pasted in the image editing area, an area where the inserted image can be enlarged and inserted efficiently can be found immediately, as in the first aspect of the present invention. And the inserted image can be automatically inserted in an easily viewable state.

According to a fifth aspect of the present invention, in the image editing method, the insertion image is enlarged as much as possible while maintaining the aspect ratio of the insertion image in each rectangular area calculated by the rectangular area calculation procedure. Assuming that
From the plurality of rectangular areas, based on the comparison result of the enlargement ratio calculation procedure for calculating the enlargement ratio of the insertion image, the respective enlargement ratios calculated by the enlargement ratio calculation procedure, and the comparison procedure, And a rectangular area selecting procedure for selecting a rectangular area in which the inserted image can be enlarged and arranged at the maximum enlargement ratio.

As a result, as in the second aspect of the present invention, it is possible to easily find a rectangular area in which the inserted image can be arranged in the most enlarged state while maintaining the aspect ratio of the inserted image.

The enlargement ratio calculating step in the image editing method according to the present invention includes an aspect ratio comparing step of comparing the ratio of the height to the width of the inserted image and the ratio of the height to the width of each rectangular area. When the ratio of the height to the width of the insertion image is larger than the ratio of the height to the width of each rectangular area based on the comparison result of the aspect ratio comparison procedure, the height of the insertion image is equal to the height of the rectangular area. Calculating an enlargement factor for enlarging the inserted image, and when the ratio of the height to the width of the insertion image is smaller than the ratio of the height to the width of each of the rectangular regions based on the comparison result of the aspect ratio comparison procedure, And an arithmetic processing procedure for calculating an enlargement ratio for enlarging the inserted image so that the horizontal width of the rectangular area becomes equal to the horizontal width of the rectangular area.

Thus, in the same manner as in the third aspect of the invention, in each rectangular area, the enlargement ratio when the insert image is enlarged as much as possible while maintaining the aspect ratio of the insert image can be easily obtained. .

Further, if the computer executes the image editing program according to the present invention, the computer can function as the image editing processing according to the present invention.

Further, if the image editing processing program according to the present invention is executed by a computer, the computer can function as the image editing processing according to the present invention.

Further, if the image editing processing program according to the ninth aspect of the present invention is executed by a computer, the computer can function as the image editing processing according to the third aspect of the present invention.

[0022]

Embodiments of the present invention will be described below with reference to the accompanying drawings.

In this embodiment, a DTP system will be described as an example of an image editing apparatus and an apparatus to which the image editing method according to the present invention is applied.

FIG. 1 shows the overall configuration of a DTP system 10 according to the present embodiment. As shown in FIG.
The P system 10 includes a CPU 11, a ROM 12, a RAM 1,
3, display 14, keyboard 15, mouse 16,
A hard disk 17 and a printer 18 are provided.

The CPU 11 controls the entire DTP system 10. Further, the CPU 11 executes an image editing processing program shown in FIG. 2 as described later.

The ROM 12 stores a program for controlling the entire DTP system 10, an image editing processing program shown in FIG. 2, and various other data.
The RAM 13 is used as a work area when the CPU 11 performs an image editing process or the like. Further, an image editing area S described later is formed in the RAM 13.

The display 14 is composed of a CRT display or a liquid crystal display. The display 14 displays an image editing area S. The hard disk 17 stores image data used for image editing. Further, the printer 18 prints the image editing area S on a print sheet together with the image arranged in the image editing area S. That is, the printer 18 prints each image arranged in the image editing area S while maintaining the mutual arrangement relationship.

Here, the RAM 13 of the DTP system 10
Will be described. The image editing area S is an area for editing an image, as shown in FIG. The image editing area S is an XY coordinate plane. In FIG. 4, the upper left vertex of the image editing area S is the origin (0, 0). The Y coordinate value of the image editing area S increases toward the lower side in FIG. The size of the image editing area S is set to correspond to the size of the printing paper. Therefore, when the size of the printing paper is changed, the size of the image editing area S is changed in conjunction with the change.

When performing image editing processing in the image editing area S, the CPU 11 recognizes at least the coordinates of two diagonally opposite points of the image arranged in the image editing area S. Can calculate the position and size of the image, the position and length of each side, and the like as necessary.

The image arranged in the image editing area S has a rectangular outer shape. Catalogs, flyers, magazines,
When creating a printed matter such as a newspaper, the outline of an image arranged on printing paper is usually rectangular. Therefore, the DTP system 10 according to the present embodiment is premised on editing an image having a rectangular outline. In the DTP system 10 according to the present embodiment, it is also possible to edit an image having a shape other than a rectangle. In this case, a rectangular frame surrounding the image is assumed, and the rectangular frame and the image are handled integrally. Thus, even an image having a shape other than a rectangle can be edited in the same manner as a rectangular image.

The DTP system 10 configured as described above
When an image is edited by the operator, the operator sets the size of the printing paper, thereby setting the size of the image editing area S where the image editing is performed. Then, the operator calls the image data stored in the hard disk 17 and pastes the image data into the image editing area S displayed on the display 14 by operating the keyboard 15 and the mouse 16. Further, the operator can move the image (image data) pasted on the image editing area S by operating the mouse 16. Also, the keyboard 15
The image can also be moved by inputting the coordinates in the image editing area S using. Further, since the size of the image editing area S displayed on the display 14 is set so as to correspond to the size of the printing paper, the operator can perform the same operation as pasting an actual picture or photograph on the paper. The image editing work such as the layout setting of the image can be performed with the feeling of the user. Then, each image displayed on the display 14 can be directly printed on the printing paper by the printer 18.

Next, the image editing processing program shown in FIGS. 2 and 3 will be described. When inserting a new image (hereinafter, referred to as an “inserted image”) into the image editing area S, the image editing processing program allows the image to be enlarged to the maximum extent while maintaining the aspect ratio of the inserted image. A process for finding an area and automatically inserting an insertion image into the empty area is performed.

Here, image A and image B shown in FIG.
The following describes an example in which an insertion image C is inserted as shown in FIG. 5 into the image editing area S in which is already arranged.

When power is supplied to the DTP system 10, a main program shown in FIG. 2 is started. First,
In step 11, it is determined whether or not there is an inserted image to be inserted into the image editing area S. That is, when the operator operates the keyboard 15
When a new image to be pasted in the image editing area S is selected using the mouse or the mouse 16 and an instruction to paste the image in the image editing area S is given, in step 11, the image is inserted into the image editing area S. It is determined that there is an inserted image C. Then, the CPU 11 specifies the image data corresponding to the insertion image C, and obtains information on the aspect ratio of the image data. Then, the process proceeds to step S12.

In step 12, a free area R in the image editing area S is found. First, the image editing area is divided into a plurality of rectangular areas. Considering that the coordinates that can be the upper left point of the rectangular area are the upper left point (0, 0) on the image editing area S and the lower right point (30, 35) of the image A, the point (0 , 0), point (30, 0), point (0, 35),
Point (50, 35).

Consider that the coordinates that can be the lower right point of the rectangular area are the upper left point (50, 60) of the image B and the lower right point (80, 90) of the image editing area. Then, point (50, 60), point (80, 60), point (50, 60)
90) and point (80, 90).

Thus, a total of 16 rectangular areas can be created by combining the four upper left points and the four upper right points, respectively. Excluding the rectangular area containing the image A or the image B from the 16 rectangular areas, a total of nine rectangular areas shown below can be selected. Each of these nine rectangular areas is a free area R. Note that R1: (0, 35)-(50, 60) is
It means a rectangular region R1 having an upper left point (0, 35) and a lower right point (50, 60). The same applies to R2 to R9.

R1: (0, 35)-(50, 60) R2: (0, 35)-(50, 90) R3: (0, 35)-(80, 60) R4: (30, 0)- (50, 60) R5: (30, 0)-(50, 90) R6: (30, 0)-(80, 60) R7: (30, 35)-(50, 60) R8: (30, 35) )-(50, 90) R9: (30, 35)-(80, 60) In step 13, the plurality of empty areas R1
To R9, the inserted image C is enlarged as much as possible in each of the empty areas R1 to R9 while maintaining the aspect ratio of the inserted image, and the enlargement ratio at that time is set as follows. Calculate each. As a result, nine enlargement ratios corresponding to the nine free regions R1 to R9 are calculated. This calculation process is performed by the enlargement ratio calculation program shown in FIG.

In step 21 in FIG. 3, the aspect ratio of the inserted image is calculated and obtained. Then, in step 22, the aspect ratio of the empty area is obtained. Here, the aspect ratio means the ratio of the aspect width to the width of the inserted image or the empty area, that is, the aspect ratio / width.

In step 23, it is determined whether or not the aspect ratio of the inserted image is larger than the aspect ratio of the empty area. And
As a result of the determination, when the aspect ratio of the inserted image is larger than the aspect ratio of the empty region R1, in step 24, the enlargement ratio is obtained by dividing the vertical width of the empty region by the vertical width of the inserted image. On the other hand, if the result of determination is that the aspect ratio of the inserted image is not greater than the aspect ratio of the free area, in step 25, the width of the free area is divided by the width of the inserted image to obtain an enlargement ratio.

As an example, when it is assumed that the insertion image C has been inserted into the empty area R2 by the above-described enlargement ratio calculation program, the enlargement ratio at which the insertion image C can be maximized while maintaining its aspect ratio is determined. The case where it is requested will be described.

Since the inserted image C has a vertical width of 90 and a horizontal width of 20, the aspect ratio is 90/20 = 4.5. On the other hand, the empty area R2 has an upper left point (0, 35) and a lower right point (50, 9).
0) and the vertical width is 55 and the horizontal width is 50,
0 = 1.1. Therefore, since the aspect ratio of the inserted image C is larger than the aspect ratio of the empty area R2, when the vertical width 55 of the empty area R2 is divided by the vertical width 90 of the inserted image C, the enlargement ratio becomes
0.61.

As another example, when it is assumed that the inserted image C has been inserted into the empty area R5 by the above-described enlargement ratio calculating program, the inserted image C can be enlarged to the maximum while maintaining its aspect ratio. The case where the enlargement ratio is obtained will be described.

The aspect ratio of the inserted image C is 4.5 as described above. On the other hand, the empty area R5 is located at the upper left point (30,
0), lower right point (50, 90), vertical width 90, horizontal width 2
Since it is 0, 90/20 = 4.5. Accordingly, since the aspect ratio of the inserted image C is equal to the aspect ratio of the empty area R2, the enlargement ratio is 1.

After the nine enlargement factors corresponding to the nine free areas R1 to R9 are calculated by the enlargement factor calculation program, the process proceeds to step 14 of the main program shown in FIG. The magnitudes of the rates are compared with each other. Then, in step 15, the maximum enlargement ratio is obtained from the nine enlargement ratios, and the corresponding empty area R5 is calculated.
Ask for.

In step 16, the size of the inserted image C is changed according to the enlargement ratio selected in step 15, and the inserted image C is inserted into the empty area R5 corresponding to the enlargement ratio selected in step 15. Thereby, as shown in FIG. 5, the inserted image C is automatically arranged in the image editing area S in a state where the inserted image C is maximized while maintaining the aspect ratio of the inserted image C.

Thus, according to the DTP system 10 according to the present embodiment, even when a plurality of images have already been pasted in the image editing area S, an area in which the inserted image can be enlarged and inserted efficiently can be found immediately. It is possible to automatically insert the inserted image in an easily viewable state. Therefore, the workability of the image editing work can be improved.

For example, the number of images pasted in the image editing area S increases, and the empty area of the image editing area S is variously divided by the already pasted image, and the empty areas are scattered in the image editing area S. However, according to the DTP system 10 according to the present embodiment, it is possible to immediately find an empty area where the inserted image can be arranged in a greatly enlarged manner while maintaining its aspect ratio, and the empty area can be found. You can automatically paste the inserted image into. As a result, an efficient image layout can be set very easily.

Further, the empty area in which the inserted image can be greatly enlarged and arranged is not found based on the area of the empty area, but on the basis of the aspect ratio of the inserted image and the aspect ratio of the empty area. Can be further enlarged and pasted, and the inserted image can be pasted so as to be large and easy to see.

Further, by using the above-mentioned enlargement ratio calculation program, it is easy to calculate the enlargement ratio, and it is possible to arrange the inserted image in the most enlarged state while maintaining the aspect ratio of the inserted image. The area can be easily selected.

In the above-described embodiment, the case where the inserted image is arranged at the maximum magnification is taken as an example. In addition, an upper limit may be set for the magnification. For example, if the enlargement ratio of the inserted image exceeds 1, by fixing the enlargement ratio to 1, it is possible to prevent the inserted image from becoming too large.

In the above-described embodiment, a DTP system is described as an example of the image editing apparatus of the present invention. However, the present invention is not limited to this, and can be applied to a printer system, a word processor, and the like. Further, the present invention is not limited to the case where the present invention is used for setting an image layout for creating a printed matter, but may be used for example for controlling the arrangement of images displayed on a display such as a viewer.

[0053]

As described above in detail, according to the image editing apparatus of the first aspect, the image designating means for designating the insertion image to be inserted into the image editing area, and the plurality of images already arranged in the image editing area A rectangular area calculating unit that calculates a plurality of rectangular areas that do not overlap any of the images, and an insertion image specified by the image specifying unit from among the plurality of rectangular areas calculated by the rectangular area calculating unit. Selecting means for selecting a rectangular area that can be arranged in the most enlarged state while maintaining the aspect ratio of the inserted image; and inserting the inserted image into the rectangular area selected by the selecting means. And an image arranging means for arranging the image in the most enlarged state while maintaining the image quality. Therefore, even if a plurality of images are already pasted in the image editing area, the inserted image can be enlarged and efficiently expanded. The area that can be inserted and can be found in real can be automatically inserted easily viewable state insertion image. Therefore, the workability of the image editing work can be improved.

According to the image editing apparatus of the second aspect,
In the selection means, when it is assumed that the insertion image is arranged as large as possible while maintaining the aspect ratio of the insertion image in each rectangular area calculated by the rectangular area calculation means, Based on a comparison result of the enlargement ratio calculating unit that calculates the enlargement ratio, a comparison unit that compares each enlargement ratio calculated by the enlargement ratio calculation unit, and a comparison unit,
A rectangular area selecting means for selecting a rectangular area in which the inserted image can be enlarged and arranged at the maximum magnification rate from among the plurality of rectangular areas; and From among the plurality of rectangular areas, it is possible to easily find a rectangular area where the inserted image can be arranged in the most enlarged state while maintaining the aspect ratio of the inserted image.

According to the image editing apparatus of the third aspect,
The enlargement ratio calculating means compares the ratio between the height and width of the inserted image, the ratio between the height and width of each of the rectangular areas, and the inserted image based on the comparison result of the aspect ratio comparing means. When the ratio of the vertical width to the horizontal width of the rectangular area is larger than the ratio of the vertical width to the horizontal width of each rectangular area, an enlargement factor for expanding the inserted image so that the vertical width of the inserted image is equal to the vertical width of the rectangular area is calculated. When the ratio of the vertical width to the horizontal width of the inserted image is smaller than the ratio of the vertical width to the horizontal width of each rectangular area based on the comparison result of the aspect ratio comparing means, the insertion is performed so that the horizontal width of the inserted image is equal to the horizontal width of the rectangular area. With the configuration including the arithmetic processing means for calculating the enlargement ratio for enlarging the image, the enlargement ratio when the insertion image is enlarged as much as possible while maintaining the aspect ratio of the insertion image in each rectangular area can be easily set. Asked for It is possible.

According to the image editing method of the fourth aspect,
An image editing method for editing a plurality of images to be arranged in an image editing area formed on a recording circuit, comprising: an image specifying procedure for specifying an insertion image to be inserted into the image editing area; A rectangular area calculation procedure for calculating a plurality of rectangular areas that do not overlap any of the plurality of images, and an insertion image specified by the image specification procedure from the plurality of rectangular areas calculated by the rectangular area calculation procedure A selection step of selecting a rectangular area that can be arranged in the most enlarged state while maintaining the aspect ratio of the insertion image, and inserting the insertion image into the rectangular area selected by the selection procedure. Image arrangement procedure for arranging in the most enlarged state while maintaining the aspect ratio,
Similarly to the first aspect of the present invention, even when a plurality of images are already pasted in the image editing area, it is possible to instantly find a region where the inserted image can be enlarged and inserted efficiently and can be inserted. It can be automatically inserted in a state that is easy to see. Therefore, the workability of the image editing work can be improved.

According to the image editing method of the fifth aspect,
In the selection procedure, when it is assumed that the insertion image is arranged as large as possible while maintaining the aspect ratio of the insertion image in each rectangular area calculated by the rectangular area calculation procedure, Based on the comparison result of the enlargement ratio calculation procedure for calculating the enlargement ratio, the comparison procedure for comparing each enlargement ratio calculated by the enlargement ratio calculation procedure, and the comparison procedure,
3. A rectangular area selecting procedure for selecting a rectangular area in which an inserted image can be enlarged and arranged at a maximum magnification rate from a plurality of rectangular areas.
Similarly to the invention of the first aspect, it is possible to easily find a rectangular area where the inserted image can be arranged in the most enlarged state while maintaining the aspect ratio of the inserted image.

According to the image editing method of the present invention,
In the enlargement ratio calculation procedure, the ratio of the height and width of the insertion image, the ratio of the height and width of each rectangular area are compared, and the aspect ratio comparison procedure is based on the comparison result of the insertion image. When the ratio of the height to the width is larger than the ratio of the height to the width of each rectangular area, the enlargement factor for expanding the insertion image so that the height of the insertion image is equal to the height of the rectangular area is calculated, and the height and width are calculated. When the ratio of the height to the width of the insertion image is smaller than the ratio of the height to the width of each rectangular area based on the comparison result of the ratio comparison procedure, the width of the insertion image is equal to the width of the rectangular area. Since the configuration includes an arithmetic processing procedure for calculating an enlargement ratio for enlarging the inserted image, the inserted image can be formed in each rectangular area while maintaining the aspect ratio of the inserted image, as in the invention of claim 3. Expand as much as possible The magnification can be easily obtained when the.

Further, if the computer executes the image editing processing program according to the seventh aspect of the present invention, the computer can function as the image editing processing according to the first aspect of the present invention, and the same effects as those of the first aspect are obtained. be able to.

Further, if the computer executes the image editing program according to the eighth aspect of the present invention, the computer can function as the image editing processing according to the second aspect of the invention, and the same effects as those of the second aspect are obtained. be able to.

Further, when the image editing program according to the ninth aspect of the present invention is executed by a computer, the computer can function as the image editing processing according to the third aspect of the present invention, and the same effects as those of the third aspect are obtained. be able to.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a printing system according to an embodiment of the present invention.

FIG. 2 is a flowchart showing processing contents of a main program for performing image editing processing in the embodiment of the present invention.

FIG. 3 is a flowchart showing processing contents of an enlargement ratio calculation program in the embodiment of the present invention.

FIG. 4 is an explanatory diagram showing an image editing area in which a plurality of images are already arranged in the embodiment of the present invention.

FIG. 5 is an explanatory diagram showing a state in which a new image is inserted into an image editing area in which a plurality of images have already been arranged in the embodiment of the present invention.

[Explanation of symbols]

 1 CPU 2 ROM 3 RAM 4 Display 5 Keyboard 6 Mouse 7 Hard Disk 10 DTP System S Image Editing Area

Claims (9)

[Claims] 1. An image editing apparatus for editing a plurality of images arranged in an image editing area formed on a recording circuit, comprising: an image designating unit for designating an inserted image to be inserted into the image editing area; A rectangular area calculating means for calculating a plurality of rectangular areas that do not overlap any of the plurality of images already arranged in the editing area; and from among the plurality of rectangular areas calculated by the rectangular area calculating means, Selecting means for selecting a rectangular area in which the inserted image specified by the image specifying means can be arranged in the most enlarged state while maintaining the aspect ratio of the inserted image; and rectangular area selected by the selecting means And an image arranging means for arranging the inserted image in the most enlarged state while maintaining the aspect ratio of the inserted image. 2. It is assumed that the selecting means arranges the inserted image as large as possible while maintaining the aspect ratio of the inserted image in each of the rectangular areas calculated by the rectangular area calculating means. In this case, the enlargement ratio calculation means for calculating the enlargement ratio of the inserted image, a comparison unit for comparing each enlargement ratio calculated by the enlargement ratio calculation unit, based on a comparison result of the comparison unit, The image editing apparatus according to claim 1, further comprising: a rectangular area selecting unit that selects a rectangular area in which the insertion image can be enlarged and arranged at a maximum enlargement rate from a plurality of rectangular areas. 3. The enlargement ratio calculating unit includes: an aspect ratio comparing unit that compares a ratio between a vertical width and a horizontal width of the insertion image and a ratio between a vertical width and a horizontal width of each of the rectangular regions; When the ratio of the vertical width to the horizontal width of the inserted image is larger than the ratio of the vertical width to the horizontal width of each of the rectangular regions based on the comparison result, the vertical width of the inserted image is equal to the vertical width of the rectangular region. Calculating an enlargement factor for enlarging the inserted image, and when the ratio of the height to the width of the insertion image is smaller than the ratio of the height to the width of each of the rectangular regions based on the comparison result of the aspect ratio comparing means. 3. The image editing apparatus according to claim 2, further comprising: an arithmetic processing unit that calculates an enlargement ratio for enlarging the insertion image so that the width of the insertion image is equal to the width of the rectangular area. 4. An image editing method for editing a plurality of images arranged in an image editing area formed on a recording circuit, comprising: an image specifying step of specifying an insertion image to be inserted into the image editing area; A rectangular area calculation procedure for calculating a plurality of rectangular areas that do not overlap any of the images already arranged in the editing area; and, from among the plurality of rectangular areas calculated by the rectangular area calculation procedure, A selection step of selecting a rectangular area in which the insertion image specified by the image specification step can be arranged in the most enlarged state while maintaining the aspect ratio of the insertion image; and a rectangular area selected by the selection step. And an image arranging step of arranging the inserted image in the most enlarged state while maintaining the aspect ratio of the inserted image. 5. The method according to claim 1, wherein the selecting step includes arranging the inserted image as large as possible while maintaining the aspect ratio of the inserted image in each rectangular area calculated by the rectangular area calculating step. In this case, a magnifying power calculating procedure for calculating the magnifying power of the inserted image, a comparing procedure for comparing the magnifying powers calculated by the magnifying power calculating procedure, and a comparison result of the comparing procedure. The image editing method according to claim 4, further comprising: selecting a rectangular area in which the inserted image can be enlarged and arranged at a maximum magnification rate from a plurality of rectangular areas. 6. The enlargement ratio calculating step includes: an aspect ratio comparing step of comparing a ratio of a height to a width of the inserted image; and a ratio of a height to a width of each of the rectangular areas. When the ratio of the vertical width to the horizontal width of the inserted image is larger than the ratio of the vertical width to the horizontal width of each of the rectangular regions based on the comparison result, the vertical width of the inserted image is equal to the vertical width of the rectangular region. Calculating an enlargement factor for enlarging the inserted image, and when the ratio of the height to the width of the insertion image is smaller than the ratio of the height to the width of each rectangular area based on the comparison result of the aspect ratio comparison procedure. 6. The image editing method according to claim 5, further comprising: an arithmetic processing procedure for calculating an enlargement ratio for enlarging the insertion image so that the width of the insertion image is equal to the width of the rectangular area. 7. A recording medium in which an image editing processing program for editing a plurality of images arranged in an image editing area formed on a recording circuit is recorded by a computer, wherein an inserted image to be inserted into the image editing area is stored. An image specifying procedure to specify, a rectangular area calculating procedure to calculate a plurality of rectangular areas that do not overlap any of the plurality of images already arranged in the image editing area, and a rectangular area calculating procedure A selecting step of selecting, from among a plurality of rectangular areas, a rectangular area in which the inserted image specified by the image specifying step can be arranged in the most enlarged state while maintaining the aspect ratio of the inserted image; An image arranging step of arranging the inserted image in the rectangular area selected by the selecting step in the most enlarged state while maintaining the aspect ratio of the inserted image. Recording medium recording the image editing processing program that is Te. 8. The selecting step assumes that the inserted image is arranged as large as possible while maintaining the aspect ratio of the inserted image in each rectangular area calculated by the rectangular area calculating step. In this case, a magnifying power calculating procedure for calculating the magnifying power of the inserted image, a comparing procedure for comparing the magnifying powers calculated by the magnifying power calculating procedure, and a comparison result of the comparing procedure. The computer-readable storage medium according to claim 7, further comprising: a rectangular area selecting step of selecting a rectangular area in which the inserted image can be enlarged and arranged at a maximum magnification rate from a plurality of rectangular areas. Recording medium on which is recorded. 9. The enlargement ratio calculating step includes: an aspect ratio comparing step of comparing a ratio of a height to a width of the insertion image; and a ratio of a height to a width of each of the rectangular areas. When the ratio of the vertical width to the horizontal width of the inserted image is larger than the ratio of the vertical width to the horizontal width of each of the rectangular regions based on the comparison result, the vertical width of the inserted image is equal to the vertical width of the rectangular region. Calculating an enlargement ratio for enlarging the inserted image, and when the ratio of the height to the width of the insertion image is smaller than the ratio of the height to the width of each rectangular area based on the comparison result of the aspect ratio comparison procedure. 9. A recording process for recording an image editing program according to claim 8, further comprising: an arithmetic processing procedure for calculating an enlargement ratio for enlarging the insertion image so that the width of the insertion image is equal to the width of the rectangular area. Medium .