JP2020204955A - Electronic device, control method, program, and recording medium - Google Patents

Abstract

To provide an electronic device which can allocate, to specific operation members, functions for a plurality of operation modes, respectively, and which can easily realize allocation of functions highly convenient for a user.SOLUTION: An electronic device has switching means for switching an operation mode to any one of a plurality of operation modes, allocation means which can allocate allocated functions to be executed in response to respective operations of specific operation members for each operation mode, and control means which, if the switching means allocates a first function for switching the operation modes to the allocated functions in a first operation mode, controls the allocated functions in a second operation mode to be switched to the first functions and which, if a second function is allocated to the allocated functions in the first operation mode, controls the allocated functions in the second operation mode not to be switched to the first functions.SELECTED DRAWING: Figure 5

Description

The present invention relates to electronic devices, control methods, programs, storage media.

Electronic devices that can customize (change) the functions assigned to operating members such as buttons and dials are known in consideration of user operability. Patent Document 1 discloses a technique for individually assigning a function to an operating member for each of a plurality of photographing modes (operation modes).

Further, Patent Document 2 discloses a technique for disabling a customize button to which an arbitrary function can be assigned on a customize screen for performing the assignment. According to this, even if the customize button is accidentally pressed on the customize screen, it is possible to prevent the function corresponding to the button from being executed.

Japanese Unexamined Patent Publication No. 2012-29056 JP-A-2015-39143

However, in the above-mentioned technique in which a function is assigned to each operation mode, a predetermined function is assigned to a certain operation member for a certain operation mode, and the predetermined function is assigned to another operation mode. It can happen that it is not done. Therefore, in order to execute a predetermined function such as the function of changing the operation mode, it may be necessary for the user to press a different button for each operation mode, which may reduce convenience. Further, in order to assign the same function to all operation modes, it is not easy because it is necessary to assign the function individually to all operation modes.

On the other hand, in an electronic device in which the same function is always assigned to a certain operation member for all operation modes, the convenience of the user is improved when the function to be executed by the user differs depending on the operation mode. bad.

Therefore, the present invention is an electronic device capable of assigning a function to a specific operating member for each of a plurality of operation modes, and an electronic device that easily realizes the assignment of a highly convenient function to the user. The purpose is to provide.

One aspect of the present invention is
A switching means for switching to one of a plurality of operation modes including a first operation mode and a second operation mode, and
Allocation means that can assign allocation functions that are executed in response to the operation of a specific operating member for each operation mode, and
When the first function of switching the operation mode is assigned by the switching means as the allocation function in the first operation mode, the allocation function in the second operation mode is transferred to the first function. And change
As the allocation function in the first operation mode, a second function different from the first function
When the function of is assigned, the allocation function in the second operation mode is controlled so as not to be changed to the first function.
Control means and
It is an electronic device characterized by having.

According to the present invention, it is an electronic device capable of assigning a function to a specific operation member for each of a plurality of operation modes, and an electronic device that easily realizes the assignment of a function highly convenient for the user. Can be provided.

It is an external view of the camera which concerns on this embodiment. It is a block diagram of the camera which concerns on this embodiment. It is a figure explaining the function assignment which a problem arises. It is a figure explaining the function assignment which concerns on this embodiment. It is a flowchart of the function assignment process which concerns on this embodiment. It is a figure which shows the screen for function assignment which concerns on this embodiment. It is a flowchart of execution process of the function which concerns on this embodiment.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

<Embodiment>
[Appearance of camera]
First, the appearance of the camera 100 (imaging device), which is an example of the electronic device according to the present embodiment, will be described with reference to FIG.

The liquid crystal monitor 27 is a display unit that displays images and various information. The operation unit 70 is composed of operation members such as various switches, buttons, and dials that receive various operations from the user. The operation unit 70 includes a mode switching button 60, a shutter button 61, a moving image recording button 65, a main electronic dial 71, a sub electronic dial 72, and a four-direction button 73 as operation members. Further, the operation unit 70 includes a power switch 74, a SET button 75, an M-Fn button 85, an AF start button 86, an AE lock button 87, and the like as operation members.

[Camera configuration]
Subsequently, the configuration of the camera 100 according to the present embodiment will be described with reference to FIG.

The shutter 101 is a shutter having an aperture function. The barrier 102 covers the imaging system including the photographing lens 103 of the camera 100 to prevent the imaging system including the photographing lens 103, the shutter 101, and the imaging unit 22 from being soiled or damaged. The photographing lens 103 is a lens group including a zoom lens and a focus lens.

The image pickup unit 22 is an image pickup device composed of a CCD or CMOS element that converts an optical image into an electric signal.

The A / D converter 23 converts an analog signal into a digital signal. The A / D converter 23 is used, for example, to convert an analog signal output from the imaging unit 22 into a digital signal. The data output by the A / D converter 23 is directly written to the memory 32 via the image processing unit 24 and the memory control unit 15 or via the memory control unit 15.

The image processing unit 24 performs resizing processing such as predetermined pixel interpolation and reduction and color conversion processing on the data from the A / D converter 23 or the data output from the memory control unit 15. Further, the image processing unit 24 performs a predetermined calculation process using the captured image data, and the system control unit 50 performs exposure control and distance measurement control based on the obtained calculation result. As a result, TTL (through-the-lens) AF (autofocus) processing, AE (autoexposure) processing, and EF (flash pre-flash) processing can be realized. The image processing unit 24 can also perform a predetermined calculation process using the captured image data, and perform a TTL method AWB (auto white balance) process based on the obtained calculation result.

The memory 32 stores image data acquired by the imaging unit 22 and converted into digital data by the A / D converter 23. Further, the memory 32 stores image data to be displayed on the liquid crystal monitor 27. The memory 32 has a sufficient storage capacity capable of storing a predetermined number of still images, moving images for a predetermined time, and audio. Further, the memory 32 also serves as a memory (video memory) for displaying an image.

The D / A converter 13 converts the image display data stored in the memory 32 into an analog signal and supplies it to the liquid crystal monitor 27. That is, the display image data written in the memory 32 is displayed on the liquid crystal monitor 27 via the D / A converter 13.

The liquid crystal monitor 27 has an LCD or the like, and is a display unit that displays an image according to an analog signal from the D / A converter 13. The digital signal once A / D converted by the A / D converter 23 and stored in the memory 32 is analog-converted by the D / A converter 13 and sequentially transferred to the liquid crystal monitor 27 for display. , Through image display (live view display) can be performed. Further, the liquid crystal monitor 27 may operate as a touch panel that is a part of the operation unit 70, or may accept a touch operation from the user on the liquid crystal monitor 27.

The non-volatile memory 56 is a recording medium (storage medium) that can be electrically erased and recorded. For the non-volatile memory 56, for example, EEPROM or the like is used. The non-volatile memory 56 stores constants, programs, and the like for the operation of the system control unit 50. Here, the program is a computer program for executing various flowcharts described later in the present embodiment.

The system control unit 50 is a control unit that controls the entire camera 100. Each process of the present embodiment is realized by executing the program recorded in the non-volatile memory 56 described above. The system control unit 50 also controls the display by controlling the memory 32, the D / A converter 13, and the like.

Constants and variables for the operation of the system control unit 50 are temporarily stored in the system memory 52, and a program read by the system control unit 50 from the non-volatile memory 56 is developed. For the system memory 52, for example, RAM is used. The system timer 53 is a time measuring unit that measures the time used for various controls and the time (time) of the built-in clock.

When the operation unit 70 receives a user operation, the operation unit 70 outputs an operation signal (operation instruction) corresponding to the operation to the system control unit 50. The system control unit 50 controls each functional unit of the camera 100 in response to an operation signal. The operation unit 70 includes a mode switching button 60, a shutter button 61, a moving image recording button 65, a main electronic dial 71, a sub electronic dial 72, and a four-direction button 73 as operation members. Further, the operation unit 70 includes a power switch 74, a SET button 75, an M-Fn button 85, an AF start button 86, an AE lock button 87, and the like as operation members.

The mode switching button 60 is a button for switching the operation mode of the system control unit 50 to a still image recording mode, a moving image shooting mode, or the like. The modes included in the still image recording mode include auto shooting mode, auto scene discrimination mode, manual (M) mode, various scene modes for shooting settings for each shooting scene, program AE (P) mode, and custom (C) mode. and so on. The modes included in the moving image shooting mode include an auto shooting mode, a manual (M) mode, a program AE (P) mode, a custom (C) mode, and the like.

The shutter button 61 is a button for instructing still image shooting. The moving image recording button 65 is a button for instructing the start and end of moving image shooting.

The first shutter switch 62 is turned on by a so-called half-press (shooting preparation instruction) during the operation of the shutter button 61 provided on the camera 100. When the first shutter switch 62 is turned on, the first shutter switch signal SW1 is generated. The system control unit 50 starts AF (autofocus) processing, AE (autoexposure) processing, AWB (auto white balance) processing, EF (flash pre-flash) processing, and the like by the first shutter switch signal SW1.

The second shutter switch 64 is turned on when the operation of the shutter button 61 is completed, so-called full pressing (shooting instruction). When the second shutter switch 64 is turned on, the second shutter switch signal SW2 is generated. The system control unit 50 starts a series of photographing processes from reading the signal from the imaging unit 22 to writing the image data to the recording medium 200 by the second shutter switch signal SW2.

The main electronic dial 71 and the sub electronic dial 72 are rotation operating members. By turning the main electronic dial 71, setting values such as shutter speed and aperture can be changed. By turning the sub electronic dial 72, the selection frame (focus frame; cursor) can be moved and the image can be advanced. The power switch 74 is a push button for switching between power on and power off.

The M-Fn button 85 is a button for setting white balance, metering mode, and the like. The AF start button 86 is a button for starting AF. The AE lock button 87 is a button for fixing the exposure.

Each operation member of the operation unit 70 is appropriately assigned a function for each screen by performing an operation of selecting an icon displayed on the liquid crystal monitor 27 or the like, and can be used as various function buttons or the like. The function buttons include, for example, a menu button, an end button, a back button, an image feed button, a jump button, a narrowing button, an attribute change button, and the like.

For example, when the menu button is pressed, various settable menu screens are displayed on the liquid crystal monitor 27 or the like. The user can intuitively make various settings by using the up / down / left / right four-direction buttons 73 and the SET button 75 while looking at the displayed menu screen. As described above, a part or all of each operation member of the operation unit 70 has a function different from the above-mentioned function (function in the initial state) by being assigned a function by a user operation for performing customized setting. Is possible.

The power supply control unit 80 includes a battery detection circuit, a DC-DC converter, a switch circuit for switching a block to be energized, and the like. The power supply control unit 80 detects whether or not a battery is installed, the type of battery, and the remaining battery level. Further, the power supply control unit 80 controls the DC-DC converter based on the detection result and the control of the system control unit 50, and supplies a necessary voltage to each functional unit including the recording medium 200 for a necessary period.

The power supply unit 30 is composed of a primary battery such as an alkaline battery or a lithium battery, a secondary battery such as a NiCd battery, a NiMH battery, or a Li battery, an AC adapter, and the like.

The recording medium I / F18 is an interface with a recording medium 200 such as a memory card or a hard disk. The recording medium 200 is a recording medium such as a memory card for recording a captured image, and is composed of a semiconductor memory, an optical disk, a magnetic disk, or the like.

The communication unit 54 connects to the outside of the camera 100 by a wireless or wired cable, and transmits / receives a video signal, an audio signal, and the like. The communication unit 54 can be connected to a network such as a wireless LAN (Local Area Network) or the Internet. The communication unit 54 can transmit, for example, an image (including a through image) captured by the image pickup unit 22 or an image recorded on the recording medium 200, and also receives image data and various other information from an external device. You can also do it.

The posture detection unit 55 detects the posture (orientation) of the camera 100 with respect to the direction of gravity. Based on the posture detected by the posture detection unit 55, the system control unit 50 determines that the image taken by the image pickup unit 22 is an image taken by holding the camera 100 horizontally or an image taken by holding the camera 100 vertically. It is possible to determine whether or not. Further, the system control unit 50 can add orientation information according to the posture detected by the posture detection unit 55 to the image file of the image captured by the image pickup unit 22. Further, the system control unit 50 can rotate and record the image according to the orientation information. An acceleration sensor, a gyro sensor, or the like can be used for the posture detection unit 55.

[Assignment of functions other than this embodiment]
First, problems that may occur in cameras (electronic devices) other than the present embodiment will be described with reference to Tables 301 to 304 shown in FIG. Tables 301 to 304 show functions (assignment functions) assigned to each button for each shooting mode. In this example and the present embodiment, the shooting mode is illustrated as the operation mode, but any operation mode such as an image editing mode or a display mode may be used.

The shooting mode is a mode used when the camera 100 shoots a subject. The shooting modes include Program AE (P), Shutter Priority AE (Tv), Aperture Priority AE (Av), Manual Exposure (M), Valve (Bulb), 1st Custom (C1), 2nd Custom (C2), There is a mode such as the third custom (C3).

The program AE (P) is a mode in which the camera 100 automatically sets the shutter speed and the aperture value according to the brightness of the subject. The shutter priority AE (Tv) is a mode in which the camera 100 automatically sets the aperture value according to the brightness of the subject when the shutter speed is set by the user operation. The aperture priority AE (Av) is a mode in which the camera 100 automatically sets the shutter speed according to the brightness of the subject when the aperture value is set by the user operation. Manual exposure (M) is a mode for the user to determine the shutter speed and the aperture value for shooting. The valve (Bulb) is a mode in which the shutter remains open while the shutter button 61 is pressed, and closes when the shutter button 61 is released. The custom shooting modes of the first custom (C1) to the third custom (C3) are modes in which the user can arbitrarily set the operation and the like.

In this example, one function can be assigned to each button in one group of shooting modes P, Tv, Av, M, and Bubble, and one function can be assigned to each of shooting modes C1, C2, and C3. is there. In this example, any of function 1 (F1) to function 4 (F4) can be assigned to each button. It is assumed that a common (same) function is assigned only to the M-Fn button 85 for all shooting modes. In the following, one group of shooting modes P, Tv, Av, M, and Bubble will be referred to as an "applied mode".

Tables 301 and 302 are tables showing before and after the change of the allocation function for the M-Fn button 85. Table 301 is a table before the change of the assignment function, and the function 3 is assigned to the M-Fn button 85 for all shooting modes. Table 302 is a table after the change of the allocation function. When the function 4 is assigned as a function for the M-Fn button 85 for the application mode by the user operation from the state shown in Table 301, the M-Fn button 85 for the other shooting modes (three custom shooting modes) is similarly assigned. Function 4 is assigned to.

Tables 303 and 304 are tables showing before and after the change of the allocation function for the AE lock button 87. Table 303 is a table before the change of the assignment function, and the function 1 is assigned as the function of the AE lock button 87 for all the shooting modes. Table 304 is a table after the change of the allocation function. From the state shown in Table 303, even if the function 4 is assigned as the function of the AE lock button 87 in the application mode by the user operation, the assignment function of the AE lock button 87 is not changed for the other shooting modes.

In this way, if common functions are assigned to all the shooting modes, there is a problem in user convenience when the user desires to assign different functions for each shooting mode. On the other hand, if the function is individually assigned to each shooting mode, for example, the function of changing the shooting mode may be assigned to a different operation member for each shooting mode. Therefore, when switching to the desired shooting mode, the user Convenience is reduced. Further, conventionally, since it has been possible to set a common function for all of the shooting modes only for a specific operation member, it has not been possible to make the setting for a button desired by the user.

[Assignment of functions according to this embodiment]
Hereinafter, the assignment of functions in the camera 100 according to the present embodiment will be described with reference to Tables 411 to 422 of FIG. Information on function assignment in the camera 100 as shown in Tables 411 to 422 is stored in the non-volatile memory 56. In the following, the change of the function for the M-Fn button 85 will be described, but the same applies to any operation member whose assignment function can be changed (customized) such as the AE lock button 87 and the AF start button 86. Can be changed.

In Table 411, functions 2 (F2) to 4 (F4) other than the function of switching the shooting mode (hereinafter referred to as “mode switching function”) are assigned to the M-Fn button 85 for each shooting mode. It shows that it is done.

Table 412 shows the allocation function after the function assigned to the M-Fn button 85 for the application mode is changed to the "mode switching function" from the state shown in Table 411. From the state shown in Table 411, when the function for the M-Fn button 85 in the application mode is changed to the "mode switching function" by the user operation, the C1, C2, and C3 are also changed to the "mode switching function". This is because it is highly convenient for the user to press the same button multiple times in order to execute the "mode switching function" and change to the desired shooting mode, and the "mode switching function" is common to all shooting modes. This is because it is desirable that "" is assigned (memorized).

Table 413 shows the allocation function after the function assigned to the M-Fn button 85 for the application mode is changed to the function 4 from the state shown in Table 411. Even if the function for the M-Fn button 85 for the application mode is changed to a function other than the "mode switching function" from the state shown in Table 411, the functions in the other shooting modes C1, C2, and C3 remain. Not changed. This is because, for functions other than the "mode switching function", different functions may be required to be executed in each shooting mode, and it is desirable to set (store) each shooting mode individually.

Tables 421 and 422 are examples showing a case where the assignment function is changed from the state in which the "mode switching function" is assigned to the M-Fn button 85. Table 421 shows that the function assigned to the M-Fn button 85 for all shooting modes is the "mode switching function".

Table 422 is a table showing the allocation function after the function for the M-Fn button 85 for the application mode is changed to a function other than the "mode switching function". From the state shown in Table 421, the function for the M-Fn button 85 for the application mode is changed to the function 5 other than the "mode switching function" by the user operation.

Here, if the function of the M-Fn button 85 for C1, C2, and C3 before the change is the "mode switching function", these functions are other than the "mode switching function" and have no function. It is changed to "disabled" (no function), which indicates that it is not assigned. This is because when the function for C1, C2, and C3 is the "mode switching function", the shooting mode is changed to the applied mode by pressing the M-Fn button 85 button, and then the desired shooting mode is set. This is because it is not easy to change.

Table 431 is an example of a table showing shooting modes that can be switched by the "mode switching function". The shooting modes that can be switched by the "mode switching function" can be set (selectable) by user operation, and in Table 431, the switchable shooting modes are marked with "◯". That is, in Table 431, it is shown that only the shooting modes of P, Av, M, Tv, and C1 marked with “◯” can be switched by the “mode switching function”. In this way, by limiting the shooting modes that can be switched so that the user cannot switch to a shooting mode that is not used, erroneous operations can be prevented and the process (step) until the user can select the desired shooting mode. ) Can be reduced.

[Function assignment process]
Next, a process of assigning a function (assignment function) to a button will be described with reference to the flowchart of FIG. This process is realized by expanding the program recorded in the non-volatile memory 56 into the system memory 52 and executing it by the system control unit 50. This process is started when the camera 100 is turned on and a screen as shown in FIG. 6A (a screen for customizing buttons to which functions are assigned to each button) is displayed on the liquid crystal monitor 27. To. As will be described later with reference to FIG. 7, the "mode switching function" includes a "mode sequential switching function" and a "custom mode switching function". Further, although the process of assigning a function to a button will be described below, for example, it may be a process of assigning a function to an arbitrary operation member such as a dial or a switch.

FIG. 6A shows a button customization screen for assigning a function to each button for a plurality of shooting modes. In FIG. 6A, items 601 to 606 indicating the functions of the buttons for the two shooting modes of the program AE (P) and the shutter priority AE (Tv) are displayed. Here, the focus frame 600 indicates (selects) item 605. Further, item 605 indicates that the "mode sequential switching function", which is an example of the "mode switching function", is assigned to the AE lock button 87 for the program AE.

In S500, the system control unit 50 selects the shooting mode and the button to be assigned (customized) the function by the user operation, and stores the shooting mode and the button in the non-volatile memory 56. Here, for example, on the button customization screen as shown in FIG. 6A, when the SET button 75 is pressed by a user operation while the focus frame 600 indicates any item, the item corresponds to the item. The shooting mode and button to be selected are selected. For example, when the SET button 75 is pressed while the focus frame 600 indicates item 605, the program AE (P) is selected as the target shooting mode, and the AE lock button 87 is selected as the target button. To. Hereinafter, the shooting mode selected in S500 is referred to as a “target mode”, and the selected button is referred to as a “target button”.

In S501, the system control unit 50 determines whether or not the function assigned to the target button for the target mode is the "mode switching function". Here, the current function for each button for each shooting mode is stored in the non-volatile memory 56. Regarding the target mode When the "mode switching function" is assigned to the target button, the transition to S502 is performed, and in other cases, the transition to S503 is performed.

In S502, the system control unit 50 displays a setting screen for setting a function assigned to the target button for the target mode on the liquid crystal monitor 27. Here, the setting screen is, for example, a screen as shown in FIG. 6B. FIG. 6B shows an example of a setting screen when the M-Fn button 85 is selected on the button customization screen. Here, the functions 611 to 618 that can be assigned to the M-Fn button 85 are displayed. The function 614 indicates a "mode sequential switching function", and the function 618 indicates a "custom mode switching function". Further, in S502, the focus frame 610 for selecting the assignment function indicates the function currently assigned to the target button for the target mode.

Further, in S502, when the system control unit 50 displays the caution guide 620 (guidance) indicating that the "mode switching function", which is the same function in all shooting modes, is assigned (assigned) on the setting screen. Good. Not limited to the caution guide 620, for example, by changing a symbol such as "!" Or a background color, it may be shown to the user that the "mode switching function" is assigned (assigned). Good.

In S503, the system control unit 50 displays the setting screen on the liquid crystal monitor 27. At this time, the system control unit 50 does not display the caution guide 620 because the function is assigned to the target button for each shooting mode.

In S504, the system control unit 50 determines whether or not the sub electronic dial 72 has been operated in order to move the focus frame 610 for selecting the assignment function. When the sub electronic dial 72 is operated, the transition to S505 is performed, and in other cases, the transition to S509 is performed.

In S505, the system control unit 50 determines whether or not the function indicated by the focus frame 610 is changed to the "mode switching function" as the operation for the sub electronic dial 72. That is, in the example shown in FIG. 6B, it is determined whether or not the operation of changing the position of the focus frame 610 is performed so as to show the function 614 or the function 618. When the operation is performed, the transition to S506 is performed, and in other cases, the transition to S507 is performed. Here, the operation is one of the user operations for assigning the "mode switching function" as the function of the target button for the target mode.

In S506, the system control unit 50 changes the display so that the focus frame 610 on the setting screen indicates the "mode switching function" according to the operation amount for the sub electronic dial 72. At this time, the system control unit 50 displays the caution guide 620 in order to make the user recognize that the function indicated by the focus frame 610 is assigned to all the shooting modes. That is, the caution guide 620 indicates that the function of the target button for all shooting modes is changed to the function indicated by the focus frame 610. Further, at this time, the system control unit 50 may display the function currently assigned to the target button for the shooting modes other than the target mode on the setting screen together with the caution guide 620.

In S507, the system control unit 50 moves the focus frame 610 on the setting screen according to the amount of operation for the sub electronic dial 72. At this time, the system control unit 50 does not display the caution guide 620 because the function indicated by the focus frame 610 is assigned to the target button for each shooting mode.

In S509, the system control unit 50 determines whether or not the SET button 75 has been pressed in order to determine the allocation function. When the SET button 75 is pressed, the transition to S510 is performed, and in other cases, the transition to S515 is performed.

In S510, the system control unit 50 determines whether or not the function indicated by the focus frame 610 is the "mode switching function". When the function is the "mode switching function", the transition is made to S511, and in other cases, the transition is made to S512.

In S511, the system control unit 50 assigns the "mode switching function" indicated by the focus frame 610 to the target buttons for all the shooting modes, and stores them in the non-volatile memory 56. That is, it is set in the same manner as the state of function assignment to the M-Fn button 85 shown in Table 412. When this process is completed, all the processing of this flowchart is completed.

In S512, the system control unit 50 determines whether or not the function currently assigned to the target button for the target mode is the "mode switching function" with reference to the non-volatile memory 56. If the function is the "mode switching function", the transition is made to S513, and if not, the transition is made to S514.

In S513, the system control unit 50 "disables" the function for the target button for a shooting mode (other imaging mode) other than the target mode, and stores the function in the non-volatile memory 56. That is, the system control unit 50 cancels the function assigned to the target button for the other shooting mode.

The system control unit 50 does not necessarily have to change the functions for other shooting modes to "disabled". For example, the initial state function (predetermined function) of the camera 100 or the "mode switching function". May be changed to the function immediately before the assignment.

In S514, the system control unit 50 assigns the function indicated by the focus frame 610 as a function for the target button for the target mode and stores it in the non-volatile memory 56. That is, when the function assigned to the target button for the target mode is other than the "mode switching function", for example, it is set in the same manner as the state of function assignment to the M-Fn button 85 shown in Table 413 and Table 422.

In S515, the system control unit 50 determines whether or not a transition operation has been performed from the setting screen. If the operation is performed, all the processes in this flowchart are completed, and in other cases, the process proceeds to S504.

[Execute assignment function]
Next, the execution of the function of the camera 100 when the button to which the function is assigned is operated will be described with reference to the flowchart of FIG. 7. The processing of this flowchart is realized by expanding the program recorded in the non-volatile memory 56 into the system memory 52 and executing it by the system control unit 50. This process is started when the power of the camera 100 is turned on and the camera 100 is put into a shooting standby state for accepting a shooting operation.

In S701, the system control unit 50 determines whether or not a button for transitioning from the shooting standby state to another state has been pressed. When the button is pressed, all the processes in this flowchart are completed, and in other cases, the process proceeds to S702.

In S702, the system control unit 50 determines whether or not a function-assignable (customizable) button (customize button) has been pressed by a user operation. When the button is pressed, the transition to S703 is performed, and in other cases, the transition to S712 is performed.

In S703, the system control unit 50 determines the function assigned to the pressed button for the current shooting mode. When the assigned function is the "mode sequential switching function", the transition is made to S704, and in other cases, the transition is made to S706.

Here, the "mode sequential switching function" will be described. When the button to which the "mode sequential switching function" is assigned is pressed, the system control unit 50 switches the current shooting mode to the next (other) shooting mode. For example, it is assumed that the shooting modes marked with “◯” in Table 431 are switchable shooting modes. Then, when the button to which the "mode sequential switching function" is assigned is pressed, the current shooting mode is switched to the shooting mode on the right side marked with "○" in Table 431. For example, when the button of the "mode sequential switching function" is pressed when the shooting mode is P, the system control unit 50 switches the shooting mode to Av. When the button is pressed when the shooting mode is Tv, the system control unit 50 further switches the shooting mode on the right to C1 because the bulb on the right is not marked with a circle. Further, in Table 431, there is no shooting mode marked with “◯” to the right of C2. Therefore, when the shooting mode is C2 and the button is pressed, the system control unit 50 switches the shooting mode to P marked with “◯” at the left end.

In S704, the system control unit 50 determines whether or not two or more shooting modes that can be switched by the "mode sequential switching function" are set. That is, the system control unit 50 determines, for example, whether or not “◯” is attached to two or more shooting modes in Table 431. If there is only one shooting mode that can be switched, the screen transitions to S701 because there is no shooting mode to switch to, and in other cases, the screen transitions to S705.

In S705, the system control unit 50 switches the shooting mode from the current shooting mode as described above by the "mode sequential switching function".

In S706, the system control unit 50 determines the function assigned to the pressed button for the current shooting mode. If the assigned function is the "custom mode switching function", the transition is made to S707, and if not, the transition is made to S711.

Here, the "custom mode switching function" will be described. The "custom mode switching function" is a function of switching the current shooting mode to the custom shooting mode in principle when the button to which the function is assigned is pressed. When a switchable function is set as shown in Table 431, when the button to which the "custom mode switching function" is assigned is pressed, the system control unit 50 indicates "○" in the custom shooting mode. Switch to the shooting mode with.

For example, when the shooting mode is P and the button to which the "custom mode switching function" is assigned is pressed, the system control unit 50 switches the shooting mode to C1. Further, the system control unit 50 switches the shooting mode to C2 when the button is pressed while the shooting mode is C1. When the button is pressed while the shooting mode is C2, the system control unit 50 changes to the custom shooting mode by the "custom mode switching function" because "○" is not attached to C3. Switch to P, which is the shooting mode immediately before being shot.

In S707, the system control unit 50 determines whether the current shooting mode is the custom shooting mode, that is, whether the current shooting mode is any of C1, C2, and C3. When the current shooting mode is the custom shooting mode, the transition to S709 occurs, and in other cases, the transition to S708 occurs.

In S708, the system control unit 50 stores the current shooting mode in the system memory 52. That is, the shooting mode set immediately before switching to the custom shooting mode by executing the "custom mode switching function" is stored in the system memory 52.

In S709, the system control unit 50 determines whether or not one or more custom shooting modes are set as switchable shooting modes. If it is not set, the switching destination shooting mode does not exist, so the transition to S701 is performed, and in other cases, the transition to S710 is performed.

In S710, the system control unit 50 switches the current shooting mode to the next switchable custom shooting mode or the shooting mode stored in the system memory 52 in S708.

In S711, the system control unit 50 executes the function assigned to the pressed button for the current shooting mode.

In S712, the system control unit 50 executes a function corresponding to the pressed button for the current shooting mode.

As described above, the camera according to the present embodiment is common (same) to the target button for all imaging modes only when the "mode switching function" is assigned to the target button for a certain shooting mode. Assign "mode switching function". As a result, the user can easily change the shooting mode by pressing the target button a plurality of times, which is very convenient for the user.

On the other hand, when the camera assigns a button other than the "mode switching function" to the target button for a certain shooting mode, the camera changes only the function for the target button for the certain shooting mode. As a result, different functions can be assigned to each shooting mode for functions other than the "mode switching function", which improves convenience for users who desire different functions for each shooting mode.

Since the purpose of the present invention is to improve the convenience of the user, for example, a function that is commonly (same) assigned to a specific operation member for all operation modes can be set by the user operation. It may be. That is, the function corresponding to the "mode change function" in the present embodiment may be arbitrarily set (changed; added) by the user operation. According to this, it is possible to prevent a function that is desirable for the user to be commonly assigned to a specific operation member for all operation modes from being assigned to a different operation member for each operation mode.

The above-mentioned various controls described as being performed by the system control unit 50 may be performed by one hardware, or the entire device may be controlled by sharing the processing among a plurality of hardware. ..

Further, although the present invention has been described in detail based on the preferred embodiment thereof, the present invention is not limited to these specific embodiments, and various embodiments within the scope of the gist of the present invention are also included in the present invention. included. Furthermore, each of the above-described embodiments is merely an embodiment of the present invention, and each embodiment can be combined as appropriate.

Further, in the above-described embodiment, the case where the present invention is applied to a camera has been described as an example, but the present invention is not limited to this example, and functions can be assigned to operating members in a plurality of operation modes. It is applicable if it is a device. That is, the present invention relates to a personal computer, a PDA, a mobile phone terminal, a portable image viewer, a printer device including a display, a digital photo frame, a music player, a game machine, an electronic book reader, a tablet terminal, a smartphone, a projection device, and a display. It can be applied to home appliances and in-vehicle devices equipped with.

(Other Examples)
The present invention supplies a program that realizes one or more functions of the above-described embodiment to a system or device via a network or storage medium, and one or more processors in the computer of the system or device reads and executes the program. It can also be realized by the processing to be performed. It can also be realized by a circuit (for example, ASIC) that realizes one or more functions.

100: Camera, 50: System control unit, 85: M-Fn button

Claims (13)

A switching means for switching to one of a plurality of operation modes including a first operation mode and a second operation mode, and
Allocation means that can assign allocation functions that are executed in response to the operation of a specific operating member for each operation mode, and
When the first function of switching the operation mode is assigned by the switching means as the allocation function in the first operation mode, the allocation function in the second operation mode is transferred to the first function. And change
When a second function different from the first function is assigned as the allocation function in the first operation mode, the allocation function in the second operation mode is transferred to the first function. Control not to change,
Control means and
An electronic device characterized by having. In both the first operation mode and the second operation mode, the control means is assigned in the first operation mode when the first function is assigned as the allocation function. In response to the assignment of the second function as a function, the allocation function in the second operation mode is controlled to be changed from the first function to a function different from the first function. ,
The electronic device according to claim 1. A function different from the first function is a predetermined function.
The electronic device according to claim 2, wherein the electronic device is characterized by the above. The function different from the first function is that the allocation function in the second operation mode is the first in response to the assignment of the first function as the allocation function in the first operation mode. It is a function assigned as the allocation function in the second operation mode immediately before being changed to the function of.
The electronic device according to claim 2, wherein the electronic device is characterized by the above. In both the first operation mode and the second operation mode, the control means is assigned in the first operation mode when the first function is assigned as the allocation function. In response to the assignment of the second function as a function, control is performed so as to cancel the allocation function in the second operation mode.
The electronic device according to claim 1. When the control means receives a user operation for assigning the first function as the allocation function in the first operation mode, the control means changes the allocation function in the second operation mode to the first function. Control to display a guide indicating
The electronic device according to any one of claims 1 to 5, characterized in that. When accepting a user operation for assigning the first function as the allocation function in the first operation mode, the control means is assigned as the allocation function in the second operation mode in addition to the guide. Controls the function to be displayed on the display means.
The electronic device according to claim 6, wherein the electronic device is characterized by the above. The operation mode that can be switched by the switching means can be selected from the plurality of operation modes by a user operation.
The electronic device according to any one of claims 1 to 7, wherein the electronic device is characterized by the above. The specific operating member is a push button.
The electronic device according to any one of claims 1 to 8, wherein the electronic device is characterized by the above. The electronic device according to any one of claims 1 to 9, wherein the plurality of operation modes are modes used when the electronic device shoots a subject. A control method for an electronic device having a switching means for switching to one of a plurality of operation modes including a first operation mode and a second operation mode.
An allocation process that can assign an allocation function that is executed in response to the operation of a specific operating member for each operation mode, and
When the first function of switching the operation mode is assigned by the switching means as the allocation function in the first operation mode, the allocation function in the second operation mode is transferred to the first function. And change
When a second function different from the first function is assigned as the allocation function in the first operation mode, the allocation function in the second operation mode is transferred to the first function. Control not to change,
Control process and
A method for controlling an electronic device, which comprises. A program for causing a computer to function as each means of the electronic device according to any one of claims 1 to 10. A computer-readable storage medium containing a program for causing the computer to function as each means of the electronic device according to any one of claims 1 to 10.

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