JP3702349B2 - Digital camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital camera capable of outputting print data based on a photographed image.
[0002]
[Prior art]
Since an image of a subject photographed by a digital camera is obtained as digital data, in recent years, it has been possible to print a photographed image by directly connecting the digital camera to a printer device without using a desktop computer (so-called personal computer) or the like. Digital cameras that can be used are appearing.
[0003]
Here, when printing is performed by directly connecting to a printer device without using a desktop computer or the like, a preview display for confirming in advance what kind of printed matter can be obtained by the user is performed on the digital camera. Is required. For example, Japanese Patent Laid-Open No. 8-251527 discloses a digital camera that can display a print image as a preview.
[0004]
[Problems to be solved by the invention]
However, since the display unit provided in the digital camera is small, there is a large gap between the resolution of the screen displayed for preview and the resolution of the printer device used for actual printing. There is a problem that images and printed materials do not match. Further, when there are a plurality of similar images, it is difficult to distinguish between similar images in the low-resolution preview display.
[0005]
Further, in the conventional preview method disclosed in the above publication, when there are a plurality of print pages, the processing for preview display is completed for each page. For this reason, if all the pages are to be displayed as a preview, the user has to repeat the same operation from the beginning, so that there is a problem that the operation for displaying the preview of all the pages becomes complicated.
[0006]
That is, in the conventional preview display, it is very difficult for the user to confirm the print contents accurately and easily.
[0007]
In recent years, it has also been desired to output print data in a so-called index print in which a plurality of captured images are arranged. However, an image display that can easily and accurately confirm the arrangement order of captured images corresponding to such an index print has not been realized in a conventional digital camera.
[0008]
Accordingly, the present invention has been made in view of the above problems, and provides a digital camera capable of performing a preview display that allows a user to confirm the print contents accurately and easily. A first object is to provide a digital camera that can easily and accurately confirm the arrangement order of images in an index print.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the invention described in claim 1 is a digital camera capable of outputting print data based on a photographed image, and display means for displaying a preview image for printing; Print preview image generation means for generating the preview image in which the print content is enlarged based on predetermined print information and displaying the preview image on the display means.
[0010]
According to a second aspect of the present invention, the digital camera according to the first aspect further includes an operation input unit, and the print preview image generation unit enlarges the preview image based on input information from the operation input unit. It is characterized by changing the rate.
[0011]
The invention according to claim 3 is a digital camera capable of outputting print data based on a photographed image, based on display means for displaying a preview image for printing, and predetermined print information, And a print preview image generating unit that generates the preview image for each page and sequentially displays the preview image on the display unit when the print content covers a plurality of pages.
[0012]
According to a fourth aspect of the present invention, the digital camera according to the third aspect further includes an operation input unit, and the print preview image generation unit displays the preview image based on input information from the operation input unit. It is characterized by changing pages.
[0013]
The invention according to claim 5 is a digital camera capable of outputting print data corresponding to an index print in which a plurality of thumbnail images based on each of a plurality of photographed images are arranged according to a predetermined arrangement order, Display means for displaying photographed images and reproduction means for sequentially reproducing and displaying the photographed images on the display means in accordance with the arrangement order.
[0014]
According to a sixth aspect of the present invention, in the digital camera according to the fifth aspect, the reproduction unit reproduces and displays the captured image so that the captured image is displayed on a full screen.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
First, the overall configuration of the digital camera according to the present invention will be described.
[0016]
FIG. 1 is a front view of a digital camera 1 according to the present invention, and FIG. 2 is a rear view of the digital camera 1. FIG. 3 is a bottom view of the digital camera 1.
[0017]
The digital camera 1 includes a camera body 2 and an imaging unit 3. The imaging unit 3 is detachable from the right side surface of the camera body unit 2 when viewed from the front, and is configured to be rotatable in a plane parallel to the right side surface.
[0018]
The imaging unit 3 includes an imaging lens 301 including a macro zoom lens and an imaging device including photoelectric conversion elements such as a CCD (Charge Coupled Device) area sensor, and an optical image of a subject is captured by the CCD area sensor. It is converted into an image composed of charge signals photoelectrically converted in each pixel and is captured. In addition, a light control sensor 305 that receives the reflected light from the subject of the flash light is provided at an appropriate position of the image pickup unit 3 in the same direction as the image pickup lens 301.
[0019]
On the other hand, a connection terminal 13 for connecting a desktop computer or a printer device is provided on the side surface of the camera main body 2. By connecting the connection terminal 13 and the printer device or the like with a predetermined cable, The digital camera 1 and the printer device are directly connected, and the printing data can be directly output to the printer device without using a desktop computer or the like.
[0020]
As shown in FIG. 1, a grip portion 4 is provided at an appropriate position in the left half portion and a built-in flash 5 is provided at an appropriate upper position in the right half portion on the front side of the camera body portion 2. Further, switches 6 and 7 for frame advance when reproducing a recorded image are provided in the vicinity of a substantially central position on the upper surface side of the camera body 2. The switch 6 is a switch (hereinafter referred to as an UP switch) for sending a recorded image in a direction in which the frame number increases (in the imaging order), and the switch 7 is a direction in which the frame number decreases in the recorded image. This is a switch for frame-by-frame (hereinafter referred to as DOWN switch). Further, an erasing switch D for erasing an image recorded on the memory card 8 is provided on the right side of the DOWN switch 7 when viewed from the front side, and a shutter button 9 is provided on the left side of the UP switch 6.
[0021]
On the back side of the camera body 2, as shown in FIG. 2, a monitor display of a captured image (corresponding to a viewfinder), a replay display of a recorded image, a preview display at the time of print output, etc. are performed near the center. A display unit 10 including a liquid crystal display (LCD) or the like is provided. Further, a compression setting slide switch 12 for switching and setting the compression rate of the image data recorded on the memory card 8 is provided at a lower position of the display unit 10, and an FL position is provided at an upper position of the display unit 10. A (flash) mode setting switch 11, a power switch PS, and a shooting / playback mode setting switch 14 are provided.
[0022]
The digital camera 1 has a “flash mode” in which the built-in flash 5 is automatically fired according to the subject brightness as a mode related to flash emission, and a “forced flash mode” in which the built-in flash 5 is forced to fire regardless of the subject brightness. In addition, a “flash prohibition mode” for prohibiting the flash of the built-in flash 5 is provided, and each time the FL mode setting switch 11 is pressed, the modes of “automatic flash”, “forced flash”, and “flash prohibit” are switched cyclically. Any mode is selected and set. The FL mode setting switch 11 also functions as an operation input means for changing the display content displayed on the display unit 10 in a reproduction mode described later.
[0023]
The digital camera 1 can select and set whether or not compression is performed during recording. When the compression setting slide switch 12 is slid to the right, recording is performed in the non-compression mode, and when the slide is slid to the left, recording is performed in the compression mode. For example, in the uncompressed mode, data is recorded in the RAW data format in which 8-bit RGB data is arranged in units of pixels, and in the compressed mode, it is recorded in the JPEG format.
[0024]
Furthermore, the shooting / playback mode setting switch 14 is a switch for switching between “shooting mode” and “playback mode”. The imaging mode is a mode for taking a picture, and the reproduction mode is a mode for reproducing and displaying the captured image recorded on the memory card 8 on the display unit 10. The shooting / playback mode setting switch 14 is also a two-contact slide switch. For example, when it is slid to the right, the playback mode is set, and when it is slid to the left, the shooting mode is set.
[0025]
A battery loading chamber 18 and a card loading chamber 17 for a removable memory card 8 are provided on the bottom surface of the camera body 2. The loading ports of both loading chambers 17 and 18 are clamshell type as shown in FIG. The lid 15 is closed. The digital camera 1 in this embodiment uses a power source battery formed by connecting four AA batteries in series.
[0026]
Next, FIG. 4 is a block diagram showing an overall internal mechanism of the digital camera 1. In FIG. 4, the above-described various switches (UP switch 6, DOWN switch 7, shutter button 9, etc.) are illustrated as an operation unit 250.
[0027]
The CCD area sensor 303 shown in FIG. 4 receives a light image of a subject formed by the imaging lens 301 as an image signal of R (red), G (green), and B (blue) color components (received by each pixel). Signal that is a signal sequence of the pixel signal) and outputs the result. The timing generator 314 generates various timing pulses for controlling the driving of the CCD area sensor 303.
[0028]
The exposure control in the imaging unit 3 is performed by adjusting the exposure amount of the CCD area sensor 303, that is, the charge accumulation time of the CCD area sensor 303 corresponding to the shutter speed, since the aperture is a fixed aperture. If the appropriate shutter speed cannot be set when the subject brightness is low, the inappropriate exposure due to insufficient exposure is corrected by adjusting the level of the image signal output from the CCD area sensor 303. That is, when the luminance is low, exposure control is performed by combining the shutter speed and gain adjustment. The level adjustment of the image signal is performed in the gain adjustment of an AGC (auto gain control) circuit (not shown) incorporated in the signal processing circuit 313.
[0029]
The timing generator 314 generates a drive control signal for the CCD area sensor 303 based on the reference clock transmitted from the timing control circuit 202. The timing generator 314 generates, for example, a clock signal such as a timing signal for integration start / end (exposure start / end), a read control signal (horizontal synchronization signal, vertical synchronization signal, transfer signal, etc.) of the light reception signal of each pixel, Output to the CCD area sensor 303.
[0030]
The signal processing circuit 313 performs predetermined analog signal processing on the image signal (analog signal) output from the CCD area sensor 303. The signal processing circuit 313 includes a CDS (correlated double sampling) circuit and an AGC circuit, performs noise reduction of the image signal by the CDS circuit, and adjusts the level of the image signal by adjusting the gain of the AGC circuit. .
[0031]
The light control circuit 304 controls the light emission amount of the built-in flash 5 in flash photography to a predetermined light emission amount set by the control unit 40. In flash photography, the reflected light of the flash light from the subject is received by the light control sensor 305 simultaneously with the start of exposure, and when the amount of received light reaches a predetermined light emission amount, the flash is transmitted from the light control circuit 304 via the control unit 40. A light emission stop signal is output to the control circuit 214. The flash control circuit 214 forcibly stops the light emission of the built-in flash 5 in response to the light emission stop signal, whereby the light emission amount of the built-in flash 5 is controlled to a predetermined light emission amount.
[0032]
In the camera body 2, the A / D converter 205 converts each pixel signal of the image signal into a 10-bit digital signal. The A / D converter 205 converts each pixel signal (analog signal) into a 10-bit digital signal based on the A / D conversion clock input from the timing control circuit 202.
[0033]
A timing control circuit 202 that generates a clock for the timing generator 314 and the A / D converter 205 is provided in the camera body 2, and the timing control circuit 202 is controlled by the control unit.
[0034]
The black level correction circuit 206 corrects the black level of the A / D converted pixel signal (hereinafter referred to as pixel data) to a reference black level. A WB (white balance) circuit 207 performs level conversion of pixel data of R, G, and B color components so that the white balance is also adjusted after γ correction. The WB circuit 207 converts the level of the pixel data of the R, G, and B color components using the level conversion table input from the control unit 40. Note that the conversion coefficient (characteristic gradient) of each color component in the level conversion table is set for each captured image by the control unit 40.
[0035]
The γ correction circuit 208 corrects the γ characteristic of the pixel data. The γ correction circuit 208 has six types of γ correction tables having different γ characteristics, applies a predetermined γ correction table according to the shooting scene and shooting conditions, and performs γ correction of the pixel data.
[0036]
The image memories 209a and 209b are storage means for storing pixel data output from the γ correction circuit 208. Each of the image memories 209a and 209b has a storage capacity for one frame. That is, when the CCD area sensor 303 has n rows and m columns, the image memories 209a and 209b have a storage capacity of pixel data of n × m pixels, and each pixel data has a corresponding pixel position. To be remembered.
[0037]
An image memory (VRAM) 210 is a buffer memory for image data reproduced and displayed on the display unit 10. The VRAM 210 has a storage area for image data corresponding to the number of pixels of the display unit 10, and the image corresponding to the image data is reproduced and displayed on the display unit 10 by writing the image data in this recording area. It is.
[0038]
In the shooting standby state, each pixel data of an image captured at 1/30 seconds, for example, by the imaging unit 3 is subjected to predetermined signal processing by the A / D converter 205 to the γ correction circuit 208 and then the image memory. It is stored in one of 209a and 209b, transferred to the VRAM 210 via the control unit 40, and displayed on the display unit 10. Accordingly, the user can visually recognize the subject image from the image displayed on the display unit 10. In the reproduction mode, the image read from the memory card 8 is subjected to predetermined signal processing by the control unit 40, then transferred to the VRAM 210 and reproduced and displayed on the display unit 10.
[0039]
The card interface 212 is an interface for writing image data to and reading image data from the attached memory card 8. The communication interface 213 is an interface for externally connecting the printer device 90 so that communication is possible. For example, the communication interface 213 is an interface conforming to the USB standard.
[0040]
The flash control circuit 214 is a circuit that controls light emission of the built-in flash 5. The flash control circuit 214 controls the presence / absence of light emission, the light emission amount, the light emission timing, and the like of the built-in flash 5 based on the control signal of the control unit 40, and the light emission of the built-in flash 5 based on the light emission stop signal input from the light control circuit 304. Control the amount.
[0041]
The RTC 219 is a clock circuit for managing the shooting date and time. It is driven by another power source (not shown).
[0042]
The video output unit 260 is a video signal output unit for converting an image to be displayed on the display unit 10 into a video signal and outputting the video signal to an external display device. The control unit 40 transmits the images stored in the image memories 209a and 209b to the video output unit, and the video output unit 260 converts the image data into a video signal and outputs it. For example, by connecting the video output unit 260 and a video input unit of a home television, an image displayed on the display unit 10 can be reproduced on the home television.
[0043]
The control unit 40 is realized by the CPU executing a predetermined control program. The control unit 40 organically controls driving of each member in the imaging unit 3 and the camera body unit 2 described above, and performs digital camera 1. It controls the overall shooting operations. The control unit 40 includes a memory for the work of the CPU and a flash memory storing each control program executed by the CPU.
[0044]
Here, a detailed configuration of the control unit 40 will be described. FIG. 5 is a block diagram showing a functional configuration of the control unit 40 realized by the CPU.
[0045]
As shown in FIG. 5, the control unit 40, as a general digital camera 1 control mechanism, includes a luminance determination unit 401, a shutter speed setting unit 402, and a scene determination for setting an exposure control value (shutter speed (SS)). A unit 403, a memory 404, and an image determination unit 405 are provided.
[0046]
The luminance determination unit 401 determines the brightness of the subject using an image captured every 1/30 seconds by the CCD area sensor 303 in the shooting standby state. That is, the luminance determination unit 401 determines the brightness of the subject using image data that is sequentially stored in an update manner in the image memories 209a and 209b.
[0047]
The luminance determination unit 401 divides each storage area of the image memories 209a and 209b into nine blocks, and uses the pixel data of the G (green) color component included in each block to represent luminance data representing each block. Is calculated.
[0048]
The shutter speed setting unit 402 sets the shutter speed (integration time of the CCD area sensor 303) SS based on the determination result of the brightness of the subject by the luminance determination unit 401. The shutter speed setting unit 402 has a table regarding the shutter speed SS.
[0049]
The shutter speed SS is initially set to 1/128 seconds when the camera is activated, and in the shooting standby state, the shutter speed setting unit 402 determines whether the brightness determination unit 401 determines the brightness of the subject from the initial value to the high speed side. Change and set one step at a low speed.
[0050]
In addition, the control unit 40 sets an appropriate shutter speed SS, γ correction, and filtering correction, which will be described later, according to the shooting scene, so that “low brightness scene”, “medium brightness normal scene”, “medium brightness backlight scene” And a scene determination unit 403 that determines four types of shooting scenes of “high brightness scene”. “Low-brightness scenes” are scenes that usually require flash-assisted light, such as indoor shooting and night-time shooting, and “medium-brightness normal scenes” are illumination lights (including natural light and artificial light) for the main subject. ) Is a scene that can be photographed without auxiliary light because it is a regular light and its brightness is appropriate. The “medium brightness backlight scene” is suitable for the overall brightness, but the flash light is preferable because the illumination light for the main subject is backlit. The “high brightness scene” is, for example, a clear sky sea. It is a very bright scene overall, like shooting at ski resorts. Then, the determination result in the scene determination unit 403 is stored in the memory 404.
[0051]
Further, the control unit 40 is a normal photographed image of a landscape or a person (hereinafter, this kind of photographed image is referred to as a natural image), but the image of characters, diagrams, etc. drawn on the board. (Hereinafter, an image determination unit 405 for determining whether an image similar to this type of binary image is referred to as a character image) is provided.
[0052]
The image determination unit 405 creates a histogram of luminance data at each pixel position based on the pixel data constituting the captured image stored in the image memories 209a and 209b, and determines the content of the captured image based on the histogram. In general, a histogram of luminance data of a captured image has a non-uniform luminance distribution and a so-called single mountain distribution having a single peak value in the case of a natural image. For example, it is like a character drawn on a whiteboard. In the case of a character image, the luminance distribution is biased between the white background portion and the black character portion, and a two-peak distribution is obtained. Accordingly, the image determination unit 405 determines whether the captured image is a natural image or a character image by determining whether the histogram of the luminance data of the captured image has a single mountain distribution or a two mountain distribution. Determine. The determination result is stored in the memory 404.
[0053]
The control unit 40 displays the image recorded on the memory card 8 and the filter unit 406 that performs the filtering process, the recorded image generation unit 407 that generates the thumbnail image and the compressed image, in order to perform the recording process of the captured image. A reproduction image generation unit 409 that generates a reproduction image for reproduction display on the unit 10.
[0054]
When the compression mode is set by the compression setting slide switch 12, the recorded image generation unit 407 compresses the image data, and the reproduction image generation unit 409 reads the captured image stored in the memory card 8, An image (reproduced image) to be displayed on the display unit 10 is generated. In addition, the reproduction image generation unit 409 sequentially generates reproduction images according to an index number described later, and causes the display unit 10 to display the reproduction image.
[0055]
The filter unit 406 corrects the image quality related to the contour by correcting a high frequency component of an image to be recorded by applying a predetermined digital filter. The filter unit 406 includes a digital filter that performs standard contour correction, and a total of five types of digital filters including two types of digital filters that strengthen the contour and two types of digital filters that weaken the contour with respect to the standard contour correction. It has.
[0056]
The recorded image generation unit 407 reads out pixel data from the image memories 209 a and 209 b and generates a thumbnail image and a compressed image to be recorded on the memory card 8. For example, the recorded image generation unit 407 reads pixel data for each 8 pixels in both the horizontal direction and the vertical direction while scanning from the image memories 209 a and 209 b in the raster scanning direction, and sequentially transfers them to the memory card 8. Thus, a thumbnail image is generated and recorded on the memory card 8.
[0057]
The recorded image generation unit 407 reads out all pixel data from the image memories 209a and 209b, and performs a predetermined compression process by JPEG method such as two-dimensional DCT transform (discrete cosine transform) and Huffman coding on the pixel data. Thus, image data of the compressed image is generated, and this compressed image data is recorded in the image area of the memory card 8.
[0058]
When the photographing is instructed by the shutter button 9 in the photographing mode, the control unit 40 sets the compression mode by the thumbnail image of the image taken into the image memory 209a (or 209b) after the photographing instruction and the compression setting slide switch 12. If so, a compressed image compressed by the JPEG method is generated. Then, both images are displayed together with information such as file name, tag information related to the captured image, frame number, exposure value, shutter speed, compression / non-compression, shooting date, flash on / off data at the time of shooting, scene information, image determination result, etc. Store in the memory card 8.
[0059]
FIG. 6 is a diagram showing a memory map related to information stored in the memory card 8. As shown in FIG. 6, tag information, image data, and thumbnail image data relating to images are stored for each frame in the order taken from the top storage position of the memory card 8. In FIG. 6, when the frame number is “t”, the file name format is stored as “image t”.
[0060]
Furthermore, the control unit 40 generates a print information generation unit 408 that generates information (print information) for printing the captured image, and a print preview image generation unit 410 generates a reproduction image (print preview image) for print preview. And a print data generation unit 411 that generates print data based on the print information and outputs the print data from the communication interface 213 to the printer device 90.
[0061]
The print information generation unit 408 stores the print information on the last side of the storage area in the memory card 8. When the user determines the selection of an image to be printed and the size of the print paper and inputs them from the operation unit 250, the print information generation unit 408 determines the number of prints based on the number of images selected as print targets, the paper size, and the like. decide. Then, the print information for each page is generated by sequentially arranging the images selected as print targets at predetermined positions on the print paper. The paper size specified by the user can be changed for each page.
[0062]
Accordingly, the print information includes information such as the number of prints, the print size for each page, the image file name, the print position of the image file, and the print data generation unit 411 refers to this print information and the printer device 90. Print data for print output to be generated. That is, when printing is performed based on the print information as shown in FIG. 6, a printed matter as shown in FIG. 7 is obtained. In other words, print preview can be performed based on this print information.
[0063]
The print preview image generation unit 410 displays a print preview image by generating a print preview image based on the print information and outputting the print preview image to the VRAM 210. Therefore, the user can confirm the print contents before the print data generation unit 411 outputs the print data. Note that the print content is the content of a specific print form including an arrangement form such as an image on a print sheet based on print information.
[0064]
Further, the digital camera 1 in this embodiment can also output print data corresponding to the index print. When the index print is performed, as shown in FIG. Index print information is stored on the tail side.
[0065]
Here, the index print is a print format in which a plurality of thumbnail images based on each of a plurality of photographed images are arranged on a single sheet as shown in FIG. The index print information for performing the index print is composed of an index number and an image file name, and one image number is associated with one image file name.
[0066]
The print data generation unit 411 generates print data for print output to be given to the printer device 90 with reference to the index print information. That is, when printing is performed based on the index print information included in the print information as shown in FIG. 6, a printed matter as shown in FIG. 8 is obtained. In other words, it is possible to perform a print preview when performing index printing based on the index print information. In addition, since the index number included in the index print information is a number indicating the arrangement order in the index print, if the photographed images are displayed in the order of the index numbers, the arrangement order of the photographed images in the index print can be confirmed. It becomes possible.
[0067]
The reproduction image generation unit 409 displays the captured images in the order of the index numbers by outputting the captured images to the VRAM 210 based on the index numbers included in the index print information. Accordingly, before the print data generation unit 411 outputs print data for index printing, the user can check the print contents in the index print (particularly, check the arrangement order in the index print). is there.
[0068]
Note that the index number is determined according to the order in which the user selects the captured image for index printing. It is also possible for the user to change the index number later. The user selects an image or changes an index number through the operation unit 250.
[0069]
In addition, the reproduction image generation unit 409 and the print preview image generation unit 410 output the reproduction image and the print preview image to the video output unit 260, so that the home television connected via the video output unit 260 or the like It is possible to display a reproduced image and a print preview image.
[0070]
Next, a control sequence in the control unit 40 in this embodiment will be described. 9 to 16 are flowcharts showing a control sequence in the control unit 40 of this embodiment. Note that the flowcharts shown in FIGS. 9 to 16 mainly show processing procedures in the playback processing mode.
[0071]
First, the entire reproduction processing mode will be described based on the flowchart of FIG. When the user sets the shooting / playback mode setting switch 14 to the playback side, the control unit 40 starts processing as a playback mode, and displays a selection screen on the display unit 10 of the digital camera 1 in step S1. As options, “1: playback display, 2: print preview” is displayed. The reproduction display is a mode for reproducing and displaying a photographed image on the display unit 10, and the print preview is a mode for previewing the print content on the display unit 10. In the initial setting, the playback display is selected, and any option can be selected by pressing the UP switch 6 or the DOWN switch 7 by the user.
[0072]
In step S2, the control unit 40 determines whether a print preview is selected and the shutter button 9 is pressed. If “YES”, the process proceeds to step S3, and if “NO”, the process proceeds to step S4. In this playback mode, the shutter button 9 functions as an option determination button.
[0073]
If the print preview is selected and determined, the print preview process in step S3 is performed, and the process returns to step S1 after completion.
[0074]
In step S4, the control unit 40 determines whether or not the reproduction display is selected and the shutter button 9 is pressed. If “YES”, the process proceeds to step S5, and if “NO”, the process proceeds to step S6. If the reproduction display is selected and determined, the image reproduction display process in step S5 is performed, and the process returns to step S1 after completion.
[0075]
In step S6, when the setting is changed to the shooting mode by operating the shooting / playback mode setting switch 14, the processing routine is exited after changing to the shooting mode.
[0076]
Next, the print preview process will be described with reference to the flowcharts of FIGS. When the CPU functioning as the control unit 40 performs the following processing, the above-described function as the print preview image generation unit 410 is realized.
[0077]
In the print preview process, first, print information stored in the memory card 8 is acquired in step S31, and the total number L of pages for printing is obtained. Also, various parameters for print preview are initialized. That is, the page number k to be previewed is initialized to 1, the division number d of each side of the page is initialized to 1, and the page division number u is initialized to 0. With this initialization, the display content of the first print preview image is set as the entire display of the first page.
[0078]
FIG. 17 is a diagram showing the concept of enlargement or reduction during print preview in this embodiment. At the time of reduction (that is, when one page is displayed as a whole), the entire page is displayed on the display unit 10 as shown in FIG. In addition, the vertical and horizontal sides of the image of one page are divided into a predetermined number, and one image portion generated by the division is displayed on the display unit 10, so that an enlarged display of the print preview display can be performed. It becomes possible to do. As shown in FIGS. 17A to 17D, when the enlargement ratio is increased, the number of divisions of each side is increased by one, so that the display target portion of the page defined by the division is enlarged and displayed. Is done. In this embodiment, the enlarged display means an enlarged display when compared with the entire display of one page of print contents, and means that a part of one page is displayed on the entire surface of the display unit 10. .
[0079]
FIG. 18 is a diagram obtained by extracting FIG. 17B, where the number u of the divided portion of the page is 0 for the image portion at the upper left corner, and the number is incremented by 1 in the right direction. When numbers are assigned up to the rightmost divided portion, the process moves down one level and similarly numbers are assigned from the left end to the right end. As a result, the division number u at the lower right corner is a value obtained by subtracting 1 from the square value of the division number d of each side.
[0080]
In step S32, the horizontal position Sx and the vertical position Sy of the divided portion are obtained, and the horizontal length m of the k-th page and the vertical length of the k-th page as shown in FIG. n. The horizontal position Sx of the divided portion can be determined by obtaining a remainder obtained by dividing the divided portion number u by the division number d, and the vertical position Sy is determined by dividing the divided portion number u by the division number d. It can be determined by finding the quotient obtained by division. Further, the lengths m and n in the vertical and horizontal directions of the kth page can be obtained from the print size of the print information stored in the memory card 8.
[0081]
In step S33, a bitmap image in a predetermined range in the horizontal direction and the vertical direction is stored in the image memory 209a on the k-th page of the print content. When this step S33 is executed for the first time, since the division number d = 1, the entire first page (the number of pixels P in the horizontal direction and the number of pixels Q in the vertical direction) is within the display range as shown in FIG. It is determined as a bitmap image and stored in the image memory 209a.
[0082]
In step S34, the reproduction and display processing of the bitmap image stored in the image memory 209a is performed, and the bitmap image within the range determined in step S33 is displayed on the display unit 10, so that a print preview can be performed. . Details of this process will be described later.
[0083]
In step S35, it is determined whether or not the UP switch 6 has been pressed. If “YES”, the process proceeds to step S351 shown in FIG. 11, whereas if “NO”, the process proceeds to step S36. In step S36, it is determined whether or not the DOWN switch 7 is pressed. If “YES”, the process proceeds to step S361 shown in FIG. 12, whereas if “NO”, the process proceeds to step S37.
[0084]
In step S351, it is determined whether or not the FL mode setting switch 11 has been pressed when the UP switch 6 is pressed. If “YES”, the process proceeds to step S352, whereas if “NO”, the process proceeds to step S353. Proceed to
[0085]
When the process proceeds to step S352, the process is for enlarged display of the content displayed on the display unit 10. In step S352, the division number d is incremented by 1, and the division number u = 0. That is, the process of step S352 is a process for increasing the enlargement ratio of the image portion to be displayed by increasing the division number d, thereby performing the enlarged display of the image portion on the display unit 10.
[0086]
In addition, when the process proceeds to step S353, the processing is for performing scroll display of the display portion and scroll display of the page. In step S353, it is determined whether or not the division number d is 0. If “d = 0”, the processing of steps S357 to S359 is performed to perform page scrolling. If “d = 0” is not satisfied, the processes in steps S354 to S356 are performed in order to scroll the enlarged image portion to another portion.
[0087]
In step S361, it is determined whether or not the FL mode setting switch 11 has been pressed when the DOWN switch 7 is pressed. If “YES”, the process proceeds to step S362, whereas if “NO”, the process proceeds to step S364. Proceed to
[0088]
When the processing proceeds to step S362, the processing for reducing the content displayed on the display unit 10 is performed. In step S352, it is determined whether or not the division number d is 0. If “d = 0”, there is no need for reduction, so that the process returns to step S35. If not “d = 0”, reduced display is performed. In order to do this, the value of the division number d is decremented by 1, and the division number u = 0. That is, the process of step S363 is a process for reducing the enlargement ratio of the image part to be displayed by reducing the division number d, thereby reducing the image part on the display unit 10.
[0089]
In addition, when the process proceeds to step S364, the process is to perform scroll display of the display portion and scroll display of the page. In step S364, it is determined whether or not the division number d is 0. If “d = 0”, the processes of steps S368 to S370 are performed to perform page scrolling. If “d = 0” is not satisfied, the processes in steps S365 to S367 are performed in order to scroll the enlarged image portion to another portion.
[0090]
Therefore, when the print preview image is displayed on the display unit 10, the screen content displayed by the user performing a predetermined operation can be displayed in an enlarged manner, or the enlarged display portion can be moved to another portion. It is.
[0091]
That is, if the user presses the UP switch 6 without pressing the FL mode setting switch 11 after previewing the entire page, the setting is changed so that the next page is displayed as a preview, and the next page is displayed in step S32. In step S33, the bitmap image of the next page is stored and saved in the image memory 209a, and the next page is reproduced and displayed in step S34. If the same operation as described above is performed after the last page is displayed as a preview, the first page is displayed as a preview.
[0092]
If the user presses the DOWN switch 7 without pressing the FL mode setting switch 11 after previewing the entire page, the setting is changed so that the previous page is displayed as a preview, and the previous page is displayed in step S32. In step S33, the bitmap image of the previous page is stored and saved in the image memory 209a, and the previous page is reproduced and displayed in step S34. If the same operation as described above is performed after the first page is displayed as a preview, the last page is displayed as a preview.
[0093]
When the user presses the UP switch 6 while pressing the FL mode setting switch 11 after displaying the preview of the entire page, the setting is changed so that the page is enlarged and the page displayed in step S33 is displayed. A range is obtained, and a bitmap image of the display range is stored and saved in the image memory 209a. In step S34, the bitmap image within the display range is enlarged and displayed. Each time the above operation is performed once, as shown in FIG. 17, the number of divisions on the horizontal and vertical sides of the page is increased by one, and the number of divisions on the page is changed from 1 to 4, 9 and 16. Divide and increase. Then, by displaying one divided portion in the upper left corner of the page on the full screen on the display unit 10, the enlarged display of the portion is performed. For this reason, as the number of divisions increases, the upper left corner of the page is enlarged and displayed.
[0094]
When the user presses the DOWN switch 6 while pressing the FL mode setting switch 11 after displaying the preview of the entire page, the setting is changed so that the page is reduced and the reduced page is displayed in step S33. A range is obtained, and a bitmap image of the display range is stored and saved in the image memory 209a. In step S34, the bitmap image within the display range is displayed. Each time the above operation is performed, the number of divisions of the horizontal and vertical sides of the page is reduced by one as shown in FIG. 17, and the number of divisions of the page is changed from 16 divisions to 9 divisions, 4 divisions, 1 Divide and reduce. Then, a reduced display is performed by displaying one divided portion at the upper left corner of the page on the full screen on the display unit 10. Note that the further reduced display than the state shown in FIG. 17D is not performed because it is difficult to confirm the print contents.
[0095]
If the UP switch 7 is pressed without pressing the FL mode setting switch 11 after an enlarged preview of a divided portion of the page instead of the entire page, the right divided portion is set to be previewed, and in step S33 The display range of the right divided portion is obtained, the bitmap image is stored in the image memory 209a, and reproduction display processing is performed to enlarge the display range in step S34. In addition, when the same operation as described above is performed after the rightmost divided portion is enlarged and previewed, the leftmost divided portion below one line is previewed. Further, after an enlarged preview of the divided portion at the lower right corner of the page, when the same operation as described above is performed, the divided portion at the upper left corner of the page is previewed.
[0096]
In addition, if the DOWN switch 6 is pressed without pressing the FL mode setting switch 11 after an enlarged preview of a divided portion of the page rather than the entire page, the setting is made so that the left divided portion is previewed, and in step S33 The display range of the left divided portion is obtained, the bitmap image is stored in the image memory 209a, and reproduction display processing is performed to enlarge the display range in step S34. If the same operation as described above is performed after previewing the leftmost divided portion, the rightmost divided portion on one line is previewed. Further, after previewing the divided portion at the upper left corner of the page, if the same operation as described above is performed, the divided portion at the lower right corner of the page is previewed.
[0097]
When the shutter button 9 is pressed after the reproduction display process in step S34, the print preview process is terminated as shown in step S37, and the process routine is exited.
[0098]
Next, the reproduction / display processing of the bitmap image in the image memory 209a in step S34 will be described with reference to the flowchart of FIG.
[0099]
First, in step S400, the horizontal pixel number P and the vertical pixel number Q of the bitmap image stored in the image memory 209a are acquired, and the horizontal pixel number S that can be displayed on the display unit 10 is obtained. And the number T of pixels in the vertical direction are obtained. For example, if the bitmap image stored in the image memory 209a is an image as shown in FIG. 20, P and Q are acquired as the number of pixels in the horizontal and vertical directions according to the print size. Further, since the number of pixels in the horizontal direction and the vertical direction that can be displayed is known as shown in FIG. Can be done easily.
[0100]
In step S401, the horizontal pixel number P of the bitmap image is larger than the horizontal pixel number S of the display unit 10, or the horizontal pixel number Q of the bitmap image is horizontal. It is determined whether the number of pixels in the direction is larger than T. If the number of pixels in the horizontal direction and the vertical direction of the bitmap image is smaller than the number of pixels in the horizontal direction and the vertical direction of the display unit 10, the process proceeds to step S413, and the bitmap as shown in FIG. The entire image is displayed on the display unit 10, and this routine is terminated. On the other hand, if either the horizontal direction or the vertical direction of the bitmap image is larger than the display unit 10, the size of the bitmap image exceeds the image size that can be displayed on the display unit 10, and so on. In this process, image compression is performed up to a displayable image size.
[0101]
The image size is compressed by, for example, a method of extracting grid points using a grid. The grid interval is the same in the horizontal direction and the vertical direction.
[0102]
In steps S402, S403, and S404, the grid interval G is set so that the compressed image does not protrude beyond the displayable range on the display unit 10. That is, in step S402, it is determined whether the ratio of the number of pixels of the bitmap image to the displayable range in the display unit 10 is larger in the horizontal direction or the vertical direction, and it is determined that the horizontal direction is larger. In step S403, the grid interval G is set so that the horizontal direction of the bitmap image is within the displayable range of the display unit 10 in step S403. On the other hand, if it is determined that the vertical direction is larger, step S404. The grid interval G is set so that the vertical direction of the bitmap image falls within the displayable range of the display unit 10.
[0103]
FIG. 22 is a diagram showing the concept of the reproduction image generation process. By setting the grid interval G, lattice points of the grid interval G are set as shown in FIG. 22B for the bitmap image of FIG.
[0104]
Next, in step S405, as shown in FIG. 22A, an image area having the number of pixels in the horizontal direction and the vertical direction in the display unit 10 is secured in the image memory 209b. The image area of the image memory 209 b is an image area for generating a bitmap image to be displayed on the display unit 10.
[0105]
Here, the color model of each bitmap image is an RGB color model, and the color value (R, G, B) = (r, g, b) in each pixel is represented as RGB (r, g, b).
[0106]
Each pixel included in the image area secured in the image memory 209b is set to black of RGB (0, 0, 0) as an initial value. In other words, in step S405, this corresponds to storing a bitmap image in which each pixel value is black in the image memory 209b.
[0107]
Next, in steps S406 to S411, as shown in FIG. 22, the grid points with the grid interval G are sequentially extracted from the bitmap image in the image memory 209a and overwritten on the bitmap image in the image memory 209b. Then, when the color information about the last grid point is written in the corresponding pixel of the image memory 209b, a compressed bitmap image for the bitmap image stored in the image memory 209a is generated in the image memory 209b.
[0108]
Note that pixels that are not overwritten in the image memory 209b remain black as they are in the compressed bitmap image as shown in FIG. Therefore, even when the compressed bitmap image is displayed on the display unit 10, the portion not overwritten is displayed as black.
[0109]
Finally, in step S412, the compressed bitmap image generated in the image memory 209b is displayed on the display unit 10, and this routine ends.
[0110]
As described above, the digital camera 1 in this embodiment is configured to be able to output print data based on a captured image, and based on the set print content, the print image is used as a preview image. In addition to being able to be displayed on the display unit 10, the preview image displayed on the display unit 10 can be displayed in an enlarged manner. For this reason, even if the resolution gap between the display unit 10 and the printer apparatus is large, it is possible to confirm in advance a detailed image portion when printing is performed by enlarging the display content. Further, for example, even when a print preview in which a plurality of similar images are arranged is displayed in an enlarged manner, the similar images can be easily distinguished from each other.
[0111]
The digital camera 1 also includes an operation unit 250 formed by a plurality of switches as operation input means, and changes the enlargement ratio of the preview image based on input information input by the user via the operation unit 250. Thus, the preview display can be performed at the enlargement ratio desired by the user.
[0112]
The digital camera 1 is configured to continuously generate a preview image for each page and sequentially display it on the display unit 10 when the print content covers a plurality of pages. The operation at the time of printing is simplified, and it is possible to check the contents of printing easily and in a short time.
[0113]
Furthermore, since the page to be displayed as the preview image is changed based on the input information input by the user via the operation unit 250, it is possible to perform the preview display of the page desired by the user. It has been realized.
[0114]
Next, a detailed processing procedure when performing reproduction display processing (step S5) of a captured image instead of print preview in the flowchart of FIG. 9 will be described with reference to the flowcharts of FIGS. When the CPU functioning as the control unit 40 performs the following processing, the above-described function as the reproduction image generation unit 409 is realized.
[0115]
First, a selection screen is displayed on the display unit 10 of the digital camera 1 in step S51. As options, “1: frame number order, 2: index print order, 3: return” is displayed. The frame number order is a reproduction display in which images are displayed in the order of the frame number among a plurality of captured images stored in the memory card 8, and the index print order is a reproduction display in which images are displayed in the order of the index numbers of the index prints. is there. Note that when the user presses the shutter button 9, one of these options is determined. In the initial state, the frame number order is selected. However, by pressing the UP switch 7 or the DOWN switch 6, any option can be selected.
[0116]
Then, in step S52, it is determined whether or not the shutter button 9 has been pressed in a state where "frame number order" is selected. If "YES", after performing frame number order image reproduction display processing in step S53. , Exit this routine.
[0117]
In step S54, it is determined whether or not the shutter button 9 has been pressed with "index print order" selected. If "YES", after performing index print order image reproduction display processing in step S55. , Exit this routine.
[0118]
Further, in step S56, it is determined whether or not the shutter button 9 has been pressed with "Return" selected. If "YES", the routine is exited. On the other hand, if there is no input, the process returns to step S51 to enter an input standby state from the user, and steps S51, S52, S54, and S56 are looped.
[0119]
Next, details of the frame number order image reproduction display processing will be described with reference to the flowchart of FIG. This reproduction display process is a process for displaying captured images sequentially in accordance with the image capturing order.
[0120]
First, in step S531, it is determined whether one or more photographed images are stored in the memory card 8. If there is no photographed image on the memory card 8, it means that photographing has not yet been performed, and there is no image for reproduction display, and thus this processing routine is exited. On the other hand, if at least one image is stored in the memory card 8, the process advances to step S532 to continue the reproduction display process.
[0121]
In step S532, the frame number t of the image to be reproduced and displayed first is initially set to “0”. Further, the maximum frame number L is acquired by examining all the tag information recorded in the memory card 8.
[0122]
Then, in step S533, it is searched whether or not the image of frame number t is stored in the memory card 8. If stored, the reproduction display process of “image t” is performed in step S534, and the file is displayed on the display unit 10. The captured image corresponding to the name “image t” is reproduced and displayed. On the other hand, if not stored, the process proceeds to step S538, where the frame number is incremented by one, and the process from step S533 is repeated for the frame number (t + 1).
[0123]
When the user presses the UP switch 7 after the reproduction display process in step S534, the process proceeds to step S538, where the frame number is incremented by one, and the same process is repeated for the image in which the frame number is increased by one from step S533. . When the frame number t becomes larger than the maximum frame number L due to the increment in step S538, the process proceeds to step S543 and the frame number t is set to zero. That is, the UP switch 7 functions as an operation switch for changing the photographed image to be reproduced and displayed in the order of increasing frame numbers. However, after the photographed image corresponding to the last frame number is reproduced and displayed, the UP switch 7 is used. When is pressed, there is no photographed image with a frame number larger than that, and the photographed image corresponding to the first frame number 0 is reproduced and displayed.
[0124]
When the user presses the DOWN switch 6 after the reproduction display process in step S534, the process proceeds to step S540, where the frame number is decremented by one, and the same processing is performed for the image in which the frame number is decreased by one from step S533. repeat. If the frame number becomes less than 0 due to the decrement in step S540, the frame number is set to the maximum frame number L in step S542.
[0125]
If the shutter button 9 is pressed after the reproduction display process in step S534, the routine is exited.
[0126]
Next, details of the index print order image reproduction display processing will be described with reference to the flowchart of FIG. This reproduction display process is a process for sequentially displaying captured images according to the order of index numbers given to the index print information.
[0127]
First, in step S551, it is determined whether one or more photographed images are stored in the memory card 8. If there is no photographed image on the memory card 8, it means that photographing has not yet been performed, and there is no image for reproduction display, and thus this processing routine is exited. On the other hand, if at least one image is stored in the memory card 8, the process advances to step S552 to continue the reproduction display process.
[0128]
In step S552, the index number i of the image to be reproduced and displayed is initially set to “0”. That is, the image to be reproduced and displayed first is the image assigned to index number 0 of the index print information included in the print information in the memory card 8. Further, the maximum index number L is obtained by examining the print information recorded in the memory card 8.
[0129]
In step S553, it is searched whether the image assigned to the index number i is stored in the memory card 8. If it is stored, the frame number t of the image is checked in step S554, and the image is checked in step S555. The reproduction display process of t is performed, and the captured image corresponding to the file name “image t” is displayed on the display unit 10. On the other hand, if there is no image corresponding to the index number i in the memory card 8, the index number is incremented by one in step S559, and the same applies to the image assigned to the index number (i + 1) from step S553. Repeat the process.
[0130]
When the user presses the UP switch 7 after the reproduction display process in step S555 is finished, the process proceeds to step S559 to increment the index number i by 1, and the image assigned to the index number (i + 1) increased by one. Similar processing from step S553 is repeated. If the index number i becomes larger than the maximum index number L due to the increment in step S559, the index number i is set to 0 in step S561.
[0131]
When the DOWN switch 6 is pressed after the reproduction display process in step S555 is completed, the index number i is decremented by one in step S562, and the image assigned to the index number decremented by one is incremented from step S553. Similar processing is repeated. When the index number becomes less than 0 due to the decrement in step S562, the index number i is set to the maximum index number L in step S564.
[0132]
If the shutter button 9 is pressed after the reproduction display process in step S555, the routine is exited.
[0133]
Note that the same processing procedure as the playback display process shown in FIG. 13 is applied to the playback display process of image t in step S534 in FIG. 15 and the playback display process of image t in step S555 in FIG. be able to. In this case, the image memory 209 a shown in FIG. 13 corresponds to the memory card 8. Then, by applying the reproduction display process of FIG. 13, the captured image can be displayed on the full screen on the display unit 10. In other words, this embodiment is configured such that the user can easily confirm the content of the captured image by displaying the captured image in full screen during the reproduction display of the captured image.
[0134]
As described above, the digital camera 1 according to this embodiment is configured to display the captured image on the display unit 10 in accordance with the arrangement order in the index print when the captured image is reproduced and displayed. It is realized so that the arrangement order of the index prints can be confirmed. Even if the user changes the arrangement order, the changed arrangement order can be easily confirmed visually.
[0135]
Furthermore, when displaying the captured images according to the arrangement order in the index print, the captured image is displayed on the full screen on the display unit 10, so that the user can easily confirm the arrangement order. become. Further, even when there are a plurality of similar images by full screen display, it is realized so that they can be easily distinguished.
[0136]
As described above, the digital camera 1 according to this embodiment can perform a preview display that allows the user to confirm the print contents accurately and easily, and can also perform an array order corresponding to the index print. It is configured so that it can be easily confirmed.
[0137]
In addition, although one Embodiment of this invention was described above, it cannot be overemphasized that this invention is not limited to the content demonstrated above.
[0138]
【The invention's effect】
As described above, according to the first aspect of the present invention, since a preview image in which the print content is enlarged is generated and displayed on the display means, it is possible to confirm detailed print content in advance. .
[0139]
According to the second aspect of the present invention, since the enlargement ratio of the preview image is changed based on the input information from the operation input means, it is possible to enlarge and display the detailed print contents desired by the user. .
[0140]
According to the third aspect of the present invention, when the print content covers a plurality of pages, a preview image for each page is generated and sequentially displayed on the display means. It becomes possible to check the print contents of the page.
[0141]
According to the fourth aspect of the invention, since the page to be displayed on the preview image is changed based on the input information from the operation input means, it is possible to display the print contents of the page desired by the user.
[0142]
According to the fifth aspect of the present invention, since the captured images are sequentially reproduced and displayed on the display unit in accordance with the arrangement order of the images corresponding to the index print, the arrangement order can be easily confirmed.
[0143]
According to the sixth aspect of the present invention, since the captured image is reproduced and displayed on the display unit so as to be displayed on the full screen, it is possible to easily distinguish even when similar images exist. It is.
[Brief description of the drawings]
FIG. 1 is a front view of a digital camera according to an embodiment of the present invention.
FIG. 2 is a rear view of the digital camera according to the embodiment of the present invention.
FIG. 3 is a bottom view of the digital camera according to the embodiment of the present invention.
FIG. 4 is a block diagram showing an overall internal mechanism of the digital camera.
FIG. 5 is a block diagram illustrating a functional configuration of a control unit in the digital camera.
FIG. 6 is a diagram showing a memory map related to information stored in a memory card.
FIG. 7 is a diagram illustrating an example of print contents.
FIG. 8 is a diagram illustrating an example of print contents corresponding to an index print.
FIG. 9 is a flowchart showing a control sequence in the control unit according to the embodiment of the present invention.
FIG. 10 is a flowchart showing a control sequence in the control unit according to the embodiment of the present invention.
FIG. 11 is a flowchart showing a control sequence in the control unit according to the embodiment of the present invention.
FIG. 12 is a flowchart showing a control sequence in the control unit according to the embodiment of the present invention.
FIG. 13 is a flowchart showing a control sequence in the control unit according to the embodiment of the present invention.
FIG. 14 is a flowchart showing a control sequence in the control unit according to the embodiment of the present invention.
FIG. 15 is a flowchart showing a control sequence in the control unit according to the embodiment of the present invention.
FIG. 16 is a flowchart showing a control sequence in the control unit according to the embodiment of the present invention.
FIG. 17 is a diagram illustrating a concept of enlargement or reduction during print preview.
18 is a drawing obtained by extracting (b) of FIG.
FIG. 19 is a diagram illustrating a horizontal length m and a vertical length n of a predetermined page.
FIG. 20 is a diagram illustrating the number of pixels in a horizontal direction and a vertical direction of a display range in a predetermined page.
FIG. 21 is a diagram illustrating the number of pixels in the horizontal direction and the vertical direction in the display unit.
FIG. 22 is a diagram showing a concept of a reproduction image generation process.
FIG. 23 is a diagram illustrating an example of a preview image generated in an image memory.
[Explanation of symbols]
1 Digital camera
2 Camera body
3 Imaging unit
8 Memory card
40 Control unit
209a, 209b Image memory
250 operation unit
408 Print information generation unit
409 Playback image generation unit
410 Print preview image generation unit

Claims (6)

A digital camera capable of outputting print data based on a captured image,
Display means for displaying a preview image for printing;
Print preview image generation means for generating the preview image obtained by enlarging the print contents based on predetermined print information and displaying the preview image on the display means;
A digital camera comprising: The digital camera according to claim 1, wherein
It further comprises an operation input means,
The digital camera according to claim 1, wherein the print preview image generating unit changes the enlargement ratio of the preview image based on input information from the operation input unit. A digital camera capable of outputting print data based on a captured image,
Display means for displaying a preview image for printing;
Print preview image generation means for generating the preview image for each page and sequentially displaying it on the display means when the print content covers a plurality of pages based on predetermined print information;
A digital camera comprising: The digital camera according to claim 3, wherein
It further comprises an operation input means,
The digital preview camera generating unit changes a display page of the preview image based on input information from the operation input unit. A digital camera capable of outputting print data corresponding to an index print in which a plurality of thumbnail images based on each of a plurality of photographed images are arranged according to a predetermined arrangement order,
Display means for displaying captured images;
Reproduction means for sequentially reproducing and displaying the photographed images on the display means according to the arrangement order;
A digital camera comprising: The digital camera according to claim 5, wherein
The digital camera is characterized in that the reproduction means reproduces and displays the photographed image so as to be displayed on the full screen on the display means.

Images