CN117130515B - Method and device for creating shortcut entry - Google Patents
Method and device for creating shortcut entry Download PDFInfo
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Abstract
The application provides a method and a device for creating a shortcut entry, wherein the method comprises the following steps: determining and marking common function items according to the use frequency of the function items in a preset period, wherein the use frequency of the common function items in the preset period is greater than or equal to a preset frequency threshold; when the creation operation of the user on the first function item in the common function items is obtained, a desktop shortcut entry of the first function item is created. The scheme mainly includes marking common function items according to the frequency of use, and then creating corresponding shortcut entries when the user creates operation on the common function items. The method can enable the user to know which function items are most commonly used, and can create a shortcut entry in a targeted manner, and the creation mode is not limited to part of the function items, but can be used for creating all the function items, so that the creation requirement of the user can be met.
Description
Technical Field
The present application relates to the field of electronic devices, and in particular, to a method and an apparatus for creating a shortcut entry.
Background
When a user uses a terminal device such as a mobile phone or a tablet computer in daily life, since some common functions are not provided with a desktop shortcut portal (desktop icon), the functions may be collectively called as "system functions", and portals of setting items of the functions are shown in the application of "setting". For users, especially new users, often open a "setup" application to setup or open and use some of the functional items.
That is, if a user performs a certain function setting, the user needs to find a corresponding function from a list of function items of the "setting" application and then click to perform the setting. This operation has a problem of high repeatability. For example, the user wants to set a personalized ring, needs to open "set" - "find" sound and vibration "list item" - "click" incoming ring ", and total 3 steps of operations. For another example, when the user wants to manage the data of the cloud space, the user needs to open the "setting" - "to find the list item of the" user and account "-" click the "user account" - "click the" cloud space "-" click the "manage the cloud storage space", and 5 steps are counted.
In order to improve convenience of function setting, a user can quickly access by clicking a desktop icon by creating the desktop icon of a certain function item. The traditional scheme mainly comprises that a user can set a shortcut key (shortcut) menu by pressing an icon calling system of an application on a desktop for a long time, and then a desktop shortcut entry of a certain function item of the application is created in a dragging mode, but the mode has poor universality, that is, many applications do not have the shortcut menu. Even if the application has the shortcut menu, the shortcut menu is not convenient enough because only at most four functional items exist in the shortcut menu, and the user can know what the functional items of the desktop shortcut entry can be created by the application every time the user presses the application icon for a long time. But also that these items do not include the user's desired items, the user has no way to quickly create a quick entry for the desired items. The above-described series of problems results in that the current solutions do not meet the requirements of the user for creating a quick entry for the functional item well.
Disclosure of Invention
The application provides a method and a device for creating a shortcut entry, which can better meet the requirement of a user for creating the shortcut entry for a function item.
In a first aspect, a method of creating a shortcut entry is provided, the method comprising: determining and marking common function items according to the use frequency of the function items in a preset period, wherein the use frequency of the common function items in the preset period is greater than or equal to a preset frequency threshold; when the creation operation of the user on the first function item in the common function items is obtained, a desktop shortcut entry of the first function item is created.
In the technical scheme of the application, the common function items are marked according to the use frequency, and then the corresponding shortcut entries are created when the creation operation of the user on the common function items is obtained. The method can enable the user to know which function items are most commonly used, and can create a shortcut entry in a targeted manner, and the creation mode is not limited to part of the function items, but can be used for creating all the function items, so that the creation requirement of the user can be met.
The common function item may be marked by adding a corner mark, changing the ground color of the line where the function item is located, changing the text color of the list item, or displaying the list item in the form of text remarks at the blank of the line where the function item is located, etc., without limitation.
The added corner mark can be a symbol representing common use, such as a busy symbol, or a regular shape such as a triangle, or a Chinese character "normal" or "busy", etc., without limitation.
The function items may include any at least one function item of a setup application (app) and/or a file management app. For example, setting WLAN, hot spot, bluetooth, mobile data, desktop theme, desktop wallpaper, incoming call ring, notification ring, etc., in app, and various functional items such as battery, notification, permission, biometric identification, password, and auxiliary functions are not listed one by one. And for example, the functional items such as a secret cabinet, a cloud disk and a network neighbor in the file management app are not listed one by one.
The first function item may be understood as a function item selected by a user among the commonly used function items, and thus the first function item is any function item among the commonly used function items and need not necessarily be a specific function item thereof.
With reference to the first aspect, in some implementations of the first aspect, the creating operation includes a first operation, and when a user's creating operation of a first function item among the common function items is obtained, the step of creating a desktop shortcut portal of the first function item may include:
When a first operation of a user on the first function item is acquired, generating a floating icon of the first function item, wherein the first operation comprises a long-press operation or a double-click operation;
And when the operation that the user moves the floating icon of the first functional item to the response hot zone is acquired, generating a desktop shortcut entry of the first functional item.
The creating operation may include a first operation. The operation of the user moving the floating icon of the first functional item to the response hot zone may also be considered as part of the creation operation.
For a terminal device with touch operation, a single click can be regarded as a single touch operation, and can be simply referred to as a single click; while a double click may be understood as two touches within a preset period of time.
In order to avoid the false touch operation by the user, the first operation may employ a long press operation or a double click operation because the time of the false touch by the user is generally short and the false touch of a short time is not easily recognized as the double click operation. Further, a single click operation has been corresponded to a function of opening the setting interface of the function item in the native logic. Therefore, by adopting long-press operation or double-click operation, false touch can be effectively avoided, and the operation can be effectively distinguished from the operation of single-click function items.
A floating icon is understood to be an icon that is displayed by adding one layer to the original display layer of the interface, or is understood to be a free state or a movable icon, and is understood to be an icon element that is the topmost layer of all elements in the interface.
The response hot zone can be understood as a preset interface area, and the response operation of generating the desktop shortcut portal can be performed after the floating icon is moved to the interface area where the response hot zone is located.
With reference to the first aspect, in certain implementations of the first aspect, the response hot zone is a predefined sized region marked with a desktop corner mark.
Furthermore, the shape of the response hot zone is likewise not limited and may be rectangular, circular or other shapes, for example. Rectangular shapes can be used according to the current habits of many people.
With reference to the first aspect, in certain implementations of the first aspect, moving the floating icon of the first function item to the response hot zone by the user includes: the floating icon of the first function item is pressed and dragged to the response hot zone and then released. The mode adopts widely used pressing and dragging operation, and accords with the habit of a user.
With reference to the first aspect, in certain implementations of the first aspect, moving the floating icon of the first function item to the response hot zone by the user includes: click response anywhere in the hot zone. That is, after the floating icon is generated, the area where the response hot zone is located is displayed in the interface, and it is given that the user can click any position within the response hot zone. At this time, the user can click any position in the response hot zone according to the prompt, so that the floating icon moves into the response hot zone, and the interaction is more convenient compared with the mode of pressing the dragging.
With reference to the first aspect, in certain implementations of the first aspect, the clicking is a single click or a double click. Since the user has performed the first operation, it is explained that the user's intention is to create a shortcut portal, so that the click on the response hot zone is achieved in any way at this time, the user's intention is met, so that it is not necessary to distinguish whether it is a click or a double click, and even a single click caused by a false click is not necessary to mask.
With reference to the first aspect, in certain implementations of the first aspect, the step of generating the floating icon of the first functional item may include:
generating a floating icon of the first function item using the graphic mark when the first function item includes the graphic mark; or alternatively
When the first function item does not comprise the graphic mark, the graphic mark corresponding to the first function item in the preset icon library is utilized to generate a floating icon of the first function item.
For most of the current electronic devices such as mobile phones or tablet computers, the function items of most of the electronic devices are provided with corresponding graphic marks, but the fact that the function items of some electronic devices are only expressed by words and have no corresponding graphic marks is not excluded, and different floating icon generating modes can be adopted for two situations respectively by adopting the implementation mode.
The preset icon library may be pre-stored graphic marks of various functional items, when a certain functional item (here, the first functional item is taken as an example) does not include a graphic mark, the graphic mark corresponding to the same functional item can be found from the preset graphic library to serve as the graphic mark of the functional item, and the found graphic mark is also included in the generated floating icon. The mode can give consideration to the two conditions of whether the graphic marks exist or not, so that the universality is further enhanced.
With reference to the first aspect, in some implementations of the first aspect, the desktop shortcut entry of the first function item further carries a flag for acquiring an application of the creation operation of the first function item. That is, adding a flag to the desktop shortcut portal from which application was created, e.g., by setting an app or by file management app, facilitates the user in distinguishing which application this shortcut portal was created with.
With reference to the first aspect, in some implementations of the first aspect, the desktop shortcut entry of the first function item further carries a flag of an application corresponding to the first function item. This way, the user can know which application the function item is in, and effectively avoid that when the same function item is in a plurality of applications, the user can not determine which application the function item is in.
It should be understood that the two types of marks of the application to which the functional item belongs and the creation application described above may include only one of them, or may include two of them at the same time, and the positions of the marks may be in various manners.
With reference to the first aspect, in certain implementation manners of the first aspect, the method further includes: the common function item is set top in the list interface of the function item. The method can be more convenient for users to search the common function items.
In a second aspect, there is provided an apparatus for creating a shortcut portal, the apparatus comprising means for performing any one of the methods of the first aspect, comprised of software and/or hardware.
In a third aspect, there is provided an electronic device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor being capable of implementing any one of the methods of the first aspect when the computer program is executed.
In a fourth aspect, there is provided a chip comprising a processor for reading and executing a computer program stored in a memory, the computer program being capable of implementing any one of the methods of the first aspect when executed by the processor.
Optionally, the chip further comprises a memory, the memory being electrically connected to the processor.
Optionally, the chip may further comprise a communication interface.
In a fifth aspect, there is provided a computer readable storage medium storing a computer program capable of implementing any one of the methods of the first aspect when the computer program is executed by a processor.
In a sixth aspect, there is provided a computer program product comprising a computer program capable of implementing any one of the methods of the first aspect when the computer program is executed by a processor.
Drawings
FIG. 1 is an example of a desktop shortcut entry for creating a function item using a shortcut menu.
Fig. 2 is a schematic flow chart of a method of creating a shortcut entry in an embodiment of the present application.
FIG. 3 is a schematic flow chart of another method of creating a shortcut entry in an embodiment of the present application.
FIG. 4 is a schematic diagram of an interactive process for creating a shortcut entry in accordance with the present application.
FIG. 5 is a schematic diagram of another interactive process of creating a shortcut entry in accordance with the present application.
FIG. 6 is a schematic diagram of yet another interactive process for creating a shortcut entry in accordance with the present application.
FIG. 7 is a schematic diagram of a response hot zone of an embodiment of the present application.
FIG. 8 is a schematic diagram of a process for moving a floating icon to a responsive hot zone in accordance with an embodiment of the present application.
FIG. 9 is a schematic diagram of another process for moving floating icons to a responsive hot zone in accordance with an embodiment of the present application.
FIG. 10 is a schematic diagram of a shortcut entry with a mark in accordance with an embodiment of the present application.
FIG. 11 is a schematic diagram of different list interfaces for functional items of an embodiment of the present application.
Fig. 12 is a schematic diagram of an apparatus for creating a shortcut entry in an embodiment of the present application.
Fig. 13 is a schematic diagram of a hardware structure of an electronic device according to an embodiment of the present application.
Fig. 14 is a schematic diagram of a hardware structure of another electronic device according to an embodiment of the present application.
Detailed Description
Embodiments of the present application will be described below with reference to the accompanying drawings. The method for creating the shortcut entry can be applied to various scenes needing to deploy the neural network model on the electronic equipment.
FIG. 1 is an example of a desktop shortcut entry for creating a function item using a shortcut menu. When the user presses a setup application (app) icon for a long time at interface 110 in fig. 1, the shortcut menu of the setup app shown at interface 120 may be opened and the user may create a desktop shortcut entry for a function item in the shortcut menu by dragging the icon for that function item to the desktop. Assuming the user drags the icon of the hot spot function to the desktop at interface 120, a shortcut entry to the hot spot is created as shown in interface 130. However, in this way, the icon shape of the created shortcut portal can only be a default fixed shape of the system, cannot be changed, and cannot be changed along with the change of the desktop theme, for example, as shown in the interface 130, the shortcut portal of the hot spot is a black and white circular icon, which is quite different from the conventional application icon and is not harmonious. In addition, since the shortcut menu can only comprise four functional items at most, since the shortcut menu only comprises four functional items at most, and a user can know what the functional items of the desktop shortcut entry can be created by the application every time the user presses the desktop icon of the target application for a long time to open the shortcut menu. Assuming that the app is set in fig. 1 to be changed to another target application, it is possible that this target application does not include a function item at all, and may include a function item, but also at most four unknown function items, such a review is inconvenient. But also that these items do not include the user's desired items, the user has no way to quickly create a quick entry for the desired items.
In order to solve the above problems, the method for creating a shortcut entry according to the embodiments of the present application marks common function items according to usage frequency, and creates a corresponding shortcut entry when a user creates a common function item. The method can enable the user to know which function items are most commonly used, and can create a shortcut entry in a targeted manner, and the creation mode is not limited to part of the function items, but can be used for creating all the function items, so that the creation requirement of the user can be met. For example, a user may create a shortcut entry from a setup app for any of the functional items therein. For another example, the user may also create shortcut entries from the file management app for "secret cabinet," "Yun Pan," "network neighbor," and other functional items.
Fig. 2 is a schematic flow chart of a method of creating a shortcut entry in an embodiment of the present application. The method can be applied to electronic equipment such as mobile phones and tablet computers, which can create a desktop shortcut portal. The steps of fig. 2 are described below.
S201, determining and marking common function items according to the use frequency of the function items in a preset period.
The frequency of use of the common function item in the preset period is greater than or equal to a preset frequency threshold. For example, when the frequency of use of a certain function in time a is greater than or equal to time B, the function item is determined as a commonly used function item. In this example a is an example of a preset period and B is an example of a preset frequency threshold. For example, a=one week, b=3, that is, when the usage frequency in one week of a certain function is greater than or equal to 3 times, the function item is determined as a common function item, in this example, one week is an example of a preset period, and 3 times are examples of a preset frequency threshold. It should be understood that the numerical values herein are for ease of understanding and are not limiting.
The common function item may be marked by adding a corner mark, changing the ground color of the line where the function item is located, changing the text color of the list item, or displaying the list item in the form of text remarks at the blank of the line where the function item is located, etc., without limitation.
The added corner mark can be a symbol representing common use, such as a busy symbol, or a regular shape such as a triangle, or a Chinese character "normal" or "busy", etc., without limitation.
The function items may include any at least one of a setup app and/or a file management app. For example, setting WLAN, hot spot, bluetooth, mobile data, desktop theme, desktop wallpaper, incoming call ring, notification ring, etc., in app, and various functional items such as battery, notification, permission, biometric identification, password, and auxiliary functions are not listed one by one. And for example, the functional items such as a secret cabinet, a cloud disk and a network neighbor in the file management app are not listed one by one.
In one implementation, the commonly used function item may also be the function item that is ranked the top in the list interface of function items. It is also understood to be a set-top function. For example, the function items may be ordered in order of high frequency of use, and then the top-ordered function item or the appropriate number of function items may be marked with the commonly used function items.
It will also be appreciated that the method of fig. 2 may further include: the common function item is set top in the list interface of the function item. The method can be more convenient for users to search the common function items.
S202, when the creation operation of the user on the first function item in the common function items is obtained, creating a desktop shortcut entry of the first function item.
When the user sees the usual function items, the creation operation can be performed on these function items. The creation operation herein may be understood as an operation performed to create a desktop shortcut portal. The scheme shown in fig. 2 mainly considers that by recommending and displaying the most commonly used function items for the user, the user can better understand the own use habit and create a shortcut entry of the function item which meets the own use requirement. The desktop shortcut entry of a function item is created when a user's creation operation of a function item among the common function items is acquired. It should be understood that, although the creation operation of the common function item is emphasized here, the user may still perform the creation operation of the non-common function item, and in this case, the selected function item is only based on the subjective intention of the user during the operation, and the probability of using the function item again is not high, which may be understood as being able to satisfy the subjective intention of the user, but may not satisfy the actual use requirement of the user.
The first function item may be understood as a function item selected by a user among the commonly used function items, and thus the first function item is any function item among the commonly used function items and need not necessarily be a specific function item thereof.
In one implementation, step S202 may include:
S202A, when a first operation of a user on a first function item is acquired, generating a floating icon of the first function item, wherein the first operation comprises a long-press operation or a double-click operation;
S202B, when the operation that the user moves the floating icon of the first function item to the response hot zone is obtained, generating a desktop shortcut entry of the first function item.
The creating operation may include a first operation. The operation of the user moving the floating icon of the first functional item to the response hot zone may also be considered as part of the creation operation.
For a terminal device with touch operation, a single click can be regarded as a single touch operation, and can be simply referred to as a single click; while a double click may be understood as two touches within a preset period of time.
In order to avoid the false touch operation by the user, the first operation may employ a long press operation or a double click operation because the time of the false touch by the user is generally short and the false touch of a short time is not easily recognized as the double click operation. Further, a single click operation has been corresponded to a function of opening the setting interface of the function item in the native logic. Therefore, by adopting long-press operation or double-click operation, false touch can be effectively avoided, and the operation can be effectively distinguished from the operation of single-click function items.
A floating icon is understood to be an icon that is displayed by adding one layer to the original display layer of the interface, or is understood to be a free state or a movable icon, and is understood to be an icon element that is the topmost layer of all elements in the interface.
The response hot zone can be understood as a preset interface area, and the response operation of generating the desktop shortcut portal can be performed after the floating icon is moved to the interface area where the response hot zone is located.
In one implementation, the response hot zone is a predefined sized region marked with a desktop corner mark. The predefined size may be, for example, a suitable proportion of the interface size, such as 1/4,1/5, etc., without limitation. There is no limitation in the position of the response hot zone in the interface, for example, there may be an area near the bottom of the screen, an area near the top of the screen, or an area near the left or right of the screen, or the like. Furthermore, the shape of the response hot zone is likewise not limited and may be rectangular, circular or other shapes, for example. Rectangular shapes can be used according to the current habits of many people.
In one implementation, the operation of the user moving the floating icon of the first functional item to the response hotzone may include: the floating icon of the first function item is pressed and dragged to the response hot zone and then released. The mode adopts widely used pressing and dragging operation, and accords with the habit of a user.
In another implementation, the operation of the user moving the floating icon of the first functional item to the response hotzone may include: click response anywhere in the hot zone. That is, after the floating icon is generated, the area where the response hot zone is located is displayed in the interface, and it is given that the user can click any position within the response hot zone. At this time, the user can click any position in the response hot zone according to the prompt, so that the floating icon moves into the response hot zone, and the interaction is more convenient compared with the mode of pressing the dragging.
In one example, the click operated anywhere in the click response hotzone may be a single click or a double click. Since the user has performed the first operation, it is explained that the user's intention is to create a shortcut portal, so that the click on the response hot zone is achieved in any way at this time, the user's intention is met, so that it is not necessary to distinguish whether it is a click or a double click, and even a single click caused by a false click is not necessary to mask.
For most of the current electronic devices such as mobile phones or tablet computers, the function items of most of the electronic devices have corresponding graphic marks, but the method does not exclude that the function items of some electronic devices have only text expression and have no corresponding graphic marks, and different floating icon generating modes can be adopted for the two cases.
In one implementation, the step of generating a floating icon of the first functional item may include: generating a floating icon of the first function item using the graphic mark when the first function item includes the graphic mark; or alternatively
When the first function item does not comprise the graphic mark, the graphic mark corresponding to the first function item in the preset icon library is utilized to generate a floating icon of the first function item.
The preset icon library may be pre-stored graphic marks of various functional items, when a certain functional item (here, the first functional item is taken as an example) does not include a graphic mark, the graphic mark corresponding to the same functional item can be found from the preset graphic library to serve as the graphic mark of the functional item, and the found graphic mark is also included in the generated floating icon. The mode can give consideration to the two conditions of whether the graphic marks exist or not, so that the universality is further enhanced.
In one implementation, the created desktop shortcut entry of the first function item also carries a mark of the application corresponding to the first function item. This way, the user can know which application the function item is in, and effectively avoid that when the same function item is in a plurality of applications, the user can not determine which application the function item is in.
In another implementation, the created desktop shortcut entry for the first function item also carries a tag for acquiring an application of the creation operation for the first function item. That is, adding a flag to the desktop shortcut portal from which application was created, e.g., by setting an app or by file management app, facilitates the user in distinguishing which application this shortcut portal was created with.
It should be understood that the two labels of the application to which the functional item belongs and the creation application described above may include only one of them, or may include two of them at the same time, and the positions of the labels may be in various manners, which will be described in detail below.
In the scheme shown in fig. 2, the common function items are marked according to the usage frequency, and then corresponding shortcut entries are created when the user's creation operation of the common function items is obtained. The method can enable the user to know which function items are most commonly used, and can create a shortcut entry in a targeted manner, and the creation mode is not limited to part of the function items, but can be used for creating all the function items, so that the creation requirement of the user can be met.
FIG. 3 is a schematic flow chart of another method of creating a shortcut entry in an embodiment of the present application. Fig. 3 may be regarded as an example of the method shown in fig. 2.
S301, opening a setting app.
As described above, the creation of the shortcut portal may be made from the setup app or file management app or possibly also from other applications including functional items, so this may be seen as an example of creation with the setup app.
S302, judging whether a common function item exists, and executing a step S304 when the judgment result is yes; when the determination result is no, step S303 is executed.
S303, displaying a conventional list item in the setting app.
That is, when the function item with higher frequency is not used in the electronic device, or when the common function item does not appear, the display can be performed according to the original display mode of the list item. List items are understood here to be a list of functional items in the display interface after the app is set up. It should be understood that the list items herein do not necessarily have to be the list items of the first hierarchical level, but may also be the list items of the deeper hierarchical level. As more and more function items are currently available, many electronic devices categorize the function items, there are multiple levels of list items in the app, for example, a list item in a first level may include network, sound, etc. options, and when a user clicks on one of the options, the second level of the options is entered. Assuming the user clicks on the voice option, a list of voice items is opened, and this second level list may include functional items such as volume, alarm, etc. Taking the example of opening the setting, clicking the user account, clicking the cloud space, clicking the management cloud storage space, a plurality of levels of list items exist. While some electronic devices have only one hierarchical list of set apps, the functional items are all listed in this hierarchy. The scheme of the embodiment of the present application can be applied regardless of the existence of several levels.
Common list items are not marked in the conventional list items.
S304, marking common function items in the set app.
Steps S302-S304 may be regarded as an example of step S201.
S305, judging whether a creation operation is acquired, and executing a step S307 when the judgment result is yes; when the determination result is no, step S306 is performed.
The creation operation herein is the creation operation of a certain function item by a user, and the method shown in fig. 2 mainly refers to the creation operation of a first function item.
S306, list items of the function items are not changed.
The method can be regarded as maintaining the state of the original list items, and does not modify the marks of common function items, the ordering of the list items and other parameters. Step S306 may be understood as not creating and ending the flow.
S307, creating a desktop shortcut entry through a desktop starter.
Step S307 may be regarded as one example of step S202. When a user's creation operation of a common function item (e.g., the first function item described above) is acquired, a shortcut entry may be created for the common function item through a desktop launcher (launcher).
FIG. 4 is a schematic diagram of an interactive process for creating a shortcut entry in accordance with the present application. Fig. 4 may be regarded as an example of the execution of the method shown in fig. 2 or 3. As shown in fig. 4, a user clicking on an icon of the setup app in interface 410 opens an interface 420 of the home page of the setup app. It should be noted that, in the embodiment of the present application, the clicks that are not specifically described are all clicks, and only the click that is applied to the response hot zone includes both a single click and a double click.
It can be seen that the list of function items shown in interface 420 is exemplified by a list item that sets up that the app includes only one level. It can be seen in interface 420 that the first three functional items (cloud space, sound, and alarm) carry indicia of the usual functional items, i.e., the first three functional items are usual functional items. The labels of commonly used functional items are exemplified herein by a symbol that indicates busy, but it should be understood that any of the other labels described above may be used.
The common function items in the interface 420 may be determined and marked by executing step S201, or may be marked in step S304.
When the user double-clicks or long-presses one of the function items in the interface 420, a floating icon of that function item is generated, here exemplified by the user double-clicking or long-pressing the cloud space. That is, when the user double clicks or long presses the cloud space in the interface 420, a floating icon of the cloud space may be generated, as shown in the interface 430. This process can be regarded as one example of the execution process of step S202A described above.
In one example, the user may be prompted by way of a pop-up window in interface 420 to be able to create a shortcut entry for a function item, such as prompt A shown in interface 420 being exemplified by a pop-up window prompt to create a shortcut entry for the option of "try long press/double click with" busy "symbol. It should be understood that the presentation may be in other expressions in practice. For example, assuming that the creation operation includes only the pressing function item operation and that the labeling manner of the commonly used function item is a corner mark of the word "commonly used", the content of the prompt a here may be "try-out long press" of the function item with the word "commonly used" to create a shortcut entry for it. For another example, assuming that the creation operation includes an operation of double-clicking the function item, and the common function item is marked in such a way that the piece of function item is green-backed, the content of hint a may be "try-on double-clicking the function item whose color is green creates a shortcut entry for it. Other cases are not listed one by one.
After the user further moves the floating icon of the cloud space within the response hot zone as shown by interface 440 in interface 430, a desktop shortcut entry for the cloud space may be generated on the desktop as shown in interface 450. This process can be regarded as one example of the execution process of step S202B described above. The response hot zone in the interface 440 is exemplified by a rectangular area of a predetermined size with a desktop corner mark at the bottom of the interface, but it should be understood that the response hot zone may be an area of other shapes, sizes and/or locations as described above.
In one example, the user may be prompted to move the floating icon by way of a pop-up window in the interface 430. For example, prompt B shown in interface 430 is exemplified by a pop-up prompt "try-drag icon near desktop corner mark or response hot zone". The interface 430 may correspondingly include desktop corner marks and/or response hot zones, as in the case of response hot zones shown in fig. 7 (a), 7 (c), and 7 (d), and as illustrated by way of example in fig. 8. It should be understood that, in practice, the presentation may be in other expressions, which are not listed one by one. For another example, prompt C shown in interface 430 is exemplified by a pop-up prompt as "try single click/double click response hot zone". The interface 430 may correspondingly include a response hot zone, as in the case of the response hot zone shown in fig. 7 (b) and as in the example of the movement of fig. 9. It should be understood that in practice, the prompt content may be other expressions, such as "try double click response hot area" or "try double click lower box", which are not listed. That is, examples of both prompt boxes for prompt B and prompt C are given in interface 430. Prompt B corresponds to the movement of the hold drag, i.e., the movement shown in fig. 8. The hint C corresponds to the movement of the click response hotspots, i.e., the movement shown in FIG. 9. In practical applications, one of them may be selected for use.
It should be noted that, for some functional items, when the electronic device leaves the factory, there may be a desktop icon, that is, the functional item exists as a separate app, in this case, the desktop icon is not marked, for example, as can be seen in the interface 450, the interface 550 below, and the desktop icon of the original application is unmarked, and the icon of the shortcut portal created by the user is a corner mark.
FIG. 5 is a schematic diagram of an interactive process for creating a shortcut entry in accordance with the present application. Fig. 5 may be regarded as an example of the execution of the method shown in fig. 2 or 3. The difference of fig. 5 compared to fig. 4 is that fig. 5 is created in the app of file management.
As shown in fig. 5, an interface 520 is shown in which a user opens the home page of the file management app by clicking on an icon of the file management app in the interface 510.
It can be seen that the list of function items shown in interface 520 is exemplified by a list item in which the file management app includes only one hierarchy. It can be seen in interface 520 that the previous network neighbor is marked with a common function, i.e., the network neighbor is a common function. The labels of commonly used functional items are exemplified herein by a symbol that indicates busy, but it should be understood that any of the other labels described above may be used.
The common function items in the interface 520 may be determined and marked by executing step S201, or may be marked in step S304.
When the user double clicks or long presses one of the function items in the interface 520, a floating icon for that function item is generated, here exemplified by the user double clicking or long pressing on the network neighbor. That is, when the user double clicks or long presses the network neighbor in interface 520, a floating icon of the network neighbor may be generated, as shown in interface 530. This process can be regarded as one example of the execution process of step S202A described above.
In one example, the user may be prompted by way of a pop-up window in interface 520 to be able to create a shortcut entry for a function item, such as prompt A shown in interface 520 being exemplified by a pop-up window prompt to create a shortcut entry for the option of "try long press/double click with" busy "symbol. It should be understood that the presentation may be in other expressions in practice. For example, assuming that the creation operation includes only the pressing function item operation and that the labeling manner of the commonly used function item is a corner mark of the word "commonly used", the content of the prompt a here may be "try-out long press" of the function item with the word "commonly used" to create a shortcut entry for it. For another example, assuming that the creation operation includes an operation of double-clicking the function item, and the common function item is marked in such a way that the piece of function item is green-backed, the content of hint a may be "try-on double-clicking the function item whose color is green creates a shortcut entry for it. Other cases are not listed one by one.
After the user moves the floating icon of the network neighbor further within the response hotpot as shown by interface 540 in interface 530, a desktop shortcut entry for function item A may be generated on the desktop as shown in interface 550. This process can be regarded as one example of the execution process of step S202B described above. The response hot zone in interface 540 is exemplified by a rectangular area of a predetermined size with a desktop corner marker at the bottom of the interface, but it should be understood that the response hot zone may be an area of other shapes, sizes and/or locations as described above.
In one example, the user may be prompted to move the floating icon by way of a pop-up window in the interface 530. For example, prompt B shown in interface 530 is exemplified by a pop-up prompt as "try-drag icon near desktop corner mark or response hot zone". The interface 530 may correspondingly include desktop corner marks and/or response hot zones, as in the case of response hot zones shown in fig. 7 (a), 7 (c), and 7 (d), and as illustrated by way of example in fig. 8. It should be understood that, in practice, the presentation may be in other expressions, which are not listed one by one. For another example, prompt C shown in interface 530 is exemplified by a pop-up prompt as "try single click/double click response hot zone". The interface 530 may correspondingly include a response hot zone, as in the case of the response hot zone shown in fig. 7 (b) and as in the example of the movement of fig. 9. It should be understood that in practice, the prompt content may be other expressions, such as "try double click response hot area" or "try double click lower box", which are not listed. That is, examples of both prompt boxes for prompt B and prompt C are given in interface 530. Prompt B corresponds to the movement of the hold drag, i.e., the movement shown in fig. 8. The hint C corresponds to the movement of the click response hotspots, i.e., the movement shown in FIG. 9. In practical applications, one of them may be selected for use.
FIG. 6 is a schematic diagram of yet another interactive process for creating a shortcut entry in accordance with the present application. Fig. 6 may be regarded as an example of the execution of the method shown in fig. 2 or 3. Fig. 6 may be regarded as an example of a procedure performed when the app is set to include a list item of a plurality of hierarchical levels. For the file management app, similar to this, reference is made to fig. 6 for the relevant content, and so is not separately exemplified.
As shown in fig. 6, clicking an icon of the setup app in interface 610 by the user opens an interface 620 of the home page of the setup app.
The user finds and clicks on the user and account in interface 620 and opens interface 630. The user finds and clicks on the user account opening interface 640 in the interface 630. For brevity, other options in the interface 620 and the interface 630 are omitted appropriately, in practice, other options exist, and the categories of the options also differ according to different product models, manufacturers, and other factors, which have no influence on the implementation process of the scheme of the present application, but only the user finds the difference of the options to be selected from the options.
It can be seen that the list of function items shown in the interface 640 includes a plurality of function items, and the cloud space therein carries a label of the common function item, that is, the cloud space function item is the common function item. The labels of commonly used functional items are exemplified herein by a symbol that indicates busy, but it should be understood that any of the other labels described above may be used.
The common function items in the interface 640 may be determined and marked by executing step S201, or may be marked in step S306. If there are no commonly used function items, there will be no labeled commonly used function items in interface 640, but rather a list of commonly used function items.
When a user double-clicks or long-presses one of the function items in the interface 640, a floating icon of that function item is generated, here exemplified by the user double-clicking or long-pressing the cloud space. That is, when the user double clicks or long presses the cloud space in interface 640, a floating icon of the cloud space may be generated, as shown in interface 650. This process can be regarded as one example of the execution process of step S202A described above.
In one example, the user may be prompted by way of a pop-up window in interface 640 to be able to create a shortcut entry for a function item, such as prompt A shown in interface 640 being exemplified by a pop-up window prompt to create a shortcut entry for the option of "try long press/double click with" busy "symbol. It should be understood that the presentation may be in other expressions in practice. For example, assuming that the creation operation includes only the pressing function item operation and that the labeling manner of the commonly used function item is a corner mark of the word "commonly used", the content of the prompt a here may be "try-out long press" of the function item with the word "commonly used" to create a shortcut entry for it. For another example, assuming that the creation operation includes an operation of double-clicking the function item, and the common function item is marked in such a way that the piece of function item is green-backed, the content of hint a may be "try-on double-clicking the function item whose color is green creates a shortcut entry for it. Other cases are not listed one by one.
After the user further moves the floating icon of the cloud space within the response hot zone as shown by interface 660 in interface 650, a desktop shortcut entry for the cloud space may be generated on the desktop as shown in interface 670. This process can be regarded as one example of the execution process of step S202B described above. The response hot zone in interface 660 is exemplified by a rectangular area of a predetermined size with a desktop corner mark at the bottom of the interface, but it should be understood that the response hot zone may be an area of other shapes, sizes and/or locations as described above.
In one example, the user may be prompted to move the floating icon by way of a pop-up window in interface 650. For example, prompt B shown in interface 650 is exemplified by a pop-up prompt "try-drag icon near desktop corner mark or response hot zone". The interface 650 may correspondingly include desktop corner marks and/or response hot zones, as in the case of response hot zones shown in fig. 7 (a), 7 (c), and 7 (d), and as illustrated by way of example in fig. 8. It should be understood that, in practice, the presentation may be in other expressions, which are not listed one by one.
However, it should be understood that the popup window in the interface 650 may also be the case of the prompt C, and the specific content may be described with reference to fig. 4 and 5, which are not repeated.
FIG. 7 is a schematic diagram of a response hot zone of an embodiment of the present application. As shown in fig. 7 (a), the response hot zone may be a predefined sized region marked with a desktop corner mark, with the region at the bottom of the interface. As shown in fig. 7 (b), the response hotspots may be a predefined sized area including a prompt text, and the area is at the bottom of the interface, where the text prompt corresponds to a prompt when the floating icon is moved by clicking on any location of the response hotspots. As shown in fig. 7 (c), the response hotspots may be areas of predefined size that include alert text and that are located at the bottom of the interface, where the text alert corresponds to an alert when the floating icon is moved by pressing and dragging the floating icon to a release after responding to the hotspots. As shown in fig. 7 (d), the response hot zone may be a predefined sized region marked with a desktop corner mark, with the region at the top of the interface.
It should be appreciated that fig. 7 indicates that several examples of the response hot zone are given and the shape of the response hot zone is rectangular or rounded rectangular, but that the response hot zone may be a region of other shapes, sizes and/or locations as described above in practice.
FIG. 8 is a schematic diagram of a process for moving a floating icon to a responsive hot zone in accordance with an embodiment of the present application. As shown in FIG. 8, when the user holds the floating icon in interface 810 and drags in a direction that is closer to where the popped-up desktop corner mark is located, the floating icon may be moved into a response hot zone centered around the desktop corner mark, as shown in interface 820. Interface 810 corresponds to interface 430, interface 530, and interface 650 described above, and interface 820 corresponds to interface 440, interface 540, and interface 660 described above.
FIG. 9 is a schematic diagram of another process for moving floating icons to a responsive hot zone in accordance with an embodiment of the present application. As shown in FIG. 9, when the user clicks anywhere in the response hotspots in interface 910, the floating icon can be moved into the response hotspots as shown in interface 920. Both a floating icon and a response hot zone are displayed in interface 910, where clicking can perform a single click and/or double click, i.e., movement can be accomplished regardless of whether the user is clicking or double clicking. Interface 910 corresponds to interface 430, interface 530, and interface 650 described above, and interface 920 corresponds to interface 440, interface 540, and interface 660 described above.
FIG. 10 is a schematic diagram of a shortcut entry with a mark in accordance with an embodiment of the present application. As described above, the created shortcut entry may be provided with at least one of the following two markers: an application corresponding to the function item or an application for creating a shortcut entry. Fig. 10 gives examples of several possible scenarios. In fig. 10, a corner mark a and a corner mark B represent marks of applications corresponding to the function items, and a mark corner mark C and a corner mark D represent marks of apps creating the function items. The graphs of the function item a and the function item B are microphones, the function item a is a voice wake-up function of the intelligent assistant app, and the function item B is a recording audio function of the recorder app.
As shown in fig. 10 (a) and 10 (B), a case where a mark including an application to which a function item belongs but not including a mark of an application creating a shortcut entry is included, and both the corner mark a and the corner mark B shown in fig. 10 (a) and 10 (B) are icon shapes of the application to which the function item belongs as corner marks, which are convenient for a user to view. The corner mark a shown in fig. 10 (a) is an icon of the intelligent assistant app, and illustrates that the function item a is one function item in the intelligent assistant app, here, a voice wake-up function item. The corner mark B shown in fig. 10 (B) is an icon of the recorder app, and illustrates that the function item B is one of the function items in the recorder app, here, the recorded audio function item. That is, although the kinds and shapes of the function items are the same or similar in the two shortcut entries shown in fig. 10 (a) and 10 (B), the function is a microphone in the figures, and the functions are all capable of starting sound collection, but the application is different, the function item a shown in fig. 10 (a) is actually a function item of a voice wake-up function in the intelligent assistant app, and the function item B shown in fig. 10 (B) is actually a function item of recording audio of the recording app. Therefore, if the corner mark is not marked, the user cannot distinguish which application the shortcut entry of the function item is in. It should be understood that this is only an example, and does not represent an electronic device in practical use or such icon shape, and there is no limitation on the function item and the app described for the function item.
As shown in (C) in fig. 10 and (D) in fig. 10, a case where the mark including the application that creates the shortcut entry but not the application to which the function item belongs is shown, and the corner mark C and the corner mark D shown in (C) in fig. 10 and (D) in fig. 10 are an icon of setting the app and an icon of the file management app, respectively, the corner mark C shown in (C) in fig. 10 is an icon of setting the app, and the corner mark D shown in (D) in fig. 10 is an icon of the file management app. That is, the shortcut entry shown in (c) of fig. 10 is created from the setup app, and the shortcut entry shown in (d) of fig. 10 is created from the file management app.
As shown in fig. 10 (e) and 10 (f), a case is shown in which a mark including an application to which a function item belongs and a mark of an application creating a shortcut entry are included, and the two marks are corner marks located at different positions of the shortcut entry. The function item a shown in (e) in fig. 10 is a function item in the intelligent assistant app and is the shortcut created in the setup app, and the function item B shown in (f) in fig. 10 is a function item in the recorder app and is the shortcut created in the file management app.
When only one mark is included, it may be a corner mark located at any one of the upper left, lower left, upper right or lower right of the shortcut entrance. When two markers are included, it may be a corner marker located at any two of the several positions described above.
FIG. 11 is a schematic diagram of different list interfaces for functional items of an embodiment of the present application. The above mentioned two cases of marking the list of commonly used function items and the list of conventional function items. As shown in FIG. 11, interface 1110 is an example of a list that includes tagged commonly used function items, and interface 1120 is an example of a conventional list that does not include tagged commonly used function items. The usual function items in interface 1110 may also be set-top, or may be guaranteed to be visible to the user without a sliding down operation.
The method of the embodiment of the present application is mainly described above with reference to the drawings. It should be understood that, although the steps in the flowcharts related to the embodiments described above are shown in order, these steps are not necessarily performed in the order shown in the figures. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in the flowcharts described in the above embodiments may include a plurality of steps or a plurality of stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of the steps or stages is not necessarily performed sequentially, but may be performed alternately or alternately with at least some of the other steps or stages. The following describes an apparatus according to an embodiment of the present application with reference to the accompanying drawings.
Fig. 12 is a schematic diagram of an apparatus for creating a shortcut entry in an embodiment of the present application. As shown in fig. 12, the apparatus 2000 includes a marking unit 2001 and a creating unit 2002. The apparatus 2000 may be integrated in a terminal device such as a mobile phone, a tablet computer, a touch screen notebook computer, etc., for example, integrated in an electronic device shown in fig. 1-11 or fig. 13-14.
The apparatus 2000 can be used to perform any of the methods of creating shortcut entries above. For example, the marking unit 2001 may be used to perform step S201, and the creating unit 2002 is used to perform step S202. For another example, the marking unit may be used to perform steps S302-S304 and the creation unit 2002 may be used to perform steps S305-S307.
In one implementation, the apparatus 2000 may further include a storage unit, configured to store data such as a frequency of use of the function item, a preset icon library, and the like. The memory unit may be integrated in any one of the above units, or may be a unit independent of all the above units.
Fig. 13 is a schematic diagram of a hardware structure of an electronic device according to an embodiment of the present application. Fig. 13 shows a schematic structural diagram of an electronic device 700. As shown in fig. 13, the electronic device 700 may include a processor 710, an external memory interface 720, an internal memory 721, a universal serial bus (universal serial bus, USB) interface 730, a charge management module 740, a power management module 741, a battery 742, an antenna 1, an antenna 2, a mobile communication module 750, a wireless communication module 760, an audio module 770, a speaker 770A, a receiver 770B, a microphone 770C, an earphone interface 770D, a sensor module 780, keys 790, a motor 791, an indicator 792, a camera 793, a display 794, a subscriber identity module (subscriber identification module, SIM) card interface 795, and the like. The sensor module 780 may include, among other things, a pressure sensor 780A, a gyroscope sensor 780B, an air pressure sensor 780C, a magnetic sensor 780D, an acceleration sensor 780E, a distance sensor 780F, a proximity light sensor 780G, a fingerprint sensor 780H, a temperature sensor 780J, a touch sensor 780K, an ambient light sensor 780L, a bone conduction sensor 780M, and the like.
It should be understood that the illustrated structure of the embodiment of the present application does not constitute a specific limitation on the electronic device 700. In other embodiments of the application, electronic device 700 may include more or fewer components than shown, or certain components may be combined, or certain components may be split, or different arrangements of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.
Illustratively, the processor 710 shown in fig. 13 may include one or more processing units, such as: processor 710 may include an application processor (application processor, AP), a modem processor, a graphics processor (graphics processing unit, GPU), an image signal processor (IMAGE SIGNAL processor, ISP), a controller, a memory, a video codec, a digital signal processor (DIGITAL SIGNAL processor, DSP), a baseband processor, and/or a neural Network Processor (NPU), etc. Wherein the different processing units may be separate devices or may be integrated in one or more processors.
The controller may be a neural hub and a command center of the electronic device 700, among others. The controller can generate operation control signals according to the instruction operation codes and the time sequence signals to finish the control of instruction fetching and instruction execution.
A memory may also be provided in the processor 710 for storing instructions and data. In some embodiments, the memory in processor 710 is a cache memory. The memory may hold instructions or data that has just been used or recycled by the processor 710. If the processor 710 needs to reuse the instruction or data, it may be called directly from the memory. Repeated accesses are avoided and the latency of the processor 710 is reduced, thereby improving the efficiency of the system.
In some embodiments, processor 710 may include one or more interfaces. The interfaces may include an integrated circuit (inter-INTEGRATED CIRCUIT, I2C) interface, an integrated circuit built-in audio (inter-INTEGRATED CIRCUIT SOUND, I2S) interface, a pulse code modulation (pulse code modulation, PCM) interface, a universal asynchronous receiver transmitter (universal asynchronous receiver/transmitter, UART) interface, a mobile industry processor interface (mobile industry processor interface, MIPI), a general-purpose input/output (GPIO) interface, a subscriber identity module (subscriber identity module, SIM) interface, and/or a universal serial bus (universal serial bus, USB) interface, among others.
In some embodiments, the I2C interface is a bi-directional synchronous serial bus including a serial data line (SERIAL DATA LINE, SDA) and a serial clock line (derail clock line, SCL). Processor 710 may contain multiple sets of I2C buses. The processor 710 may be coupled to the touch sensor 780K, charger, flash, camera 793, etc., respectively, through different I2C bus interfaces. For example, processor 710 may couple touch sensor 780K through an I2C interface, causing processor 710 to communicate with touch sensor 780K through an I2C bus interface, implementing the touch functionality of electronic device 700.
In some embodiments, the I2S interface may be used for audio communication. Processor 710 may contain multiple sets of I2S buses. The processor 710 may be coupled to the audio module 770 through an I2S bus to enable communication between the processor 710 and the audio module 770.
In some embodiments, the audio module 770 may communicate audio signals to the wireless communication module 760 through an I2S interface to implement a function of answering a call through a bluetooth headset.
In some embodiments, the PCM interface may also be used for audio communication, sampling, quantizing and encoding analog signals. The audio module 770 and the wireless communication module 760 can be coupled through a PCM bus interface.
In some embodiments, the audio module 770 may also communicate audio signals to the wireless communication module 760 through a PCM interface to enable a phone call receiving function through a bluetooth headset. It should be appreciated that both the I2S interface and the PCM interface may be used for audio communication.
In some embodiments, the UART interface is a universal serial data bus for asynchronous communications. The bus may be a bi-directional communication bus. It converts the data to be transmitted between serial communication and parallel communication. UART interfaces are typically used to connect the processor 710 with the wireless communication module 760. For example, the processor 710 communicates with a bluetooth module in the wireless communication module 760 through a UART interface to implement bluetooth functions. In some embodiments, the audio module 770 may transmit an audio signal to the wireless communication module 760 through a UART interface, implementing a function of playing music through a bluetooth headset.
In some embodiments, a MIPI interface may be used to connect processor 710 with peripheral devices such as display 794, camera 793, and the like. The MIPI interfaces include camera serial interfaces (CAMERA SERIAL INTERFACE, CSI), display serial interfaces (DISPLAY SERIAL INTERFACE, DSI), and the like. The processor 710 and the camera 793 communicate through the CSI interface to implement a photographing function of the electronic device 700. Processor 710 and display screen 794 communicate via a DSI interface to implement the display functionality of electronic device 700.
In some embodiments, the GPIO interface may be configured by software. The GPIO interface may be configured as a control signal or as a data signal. GPIO interfaces may be used to connect processor 710 with camera 793, display 794, wireless communication module 760, audio module 770, sensor module 780, and the like. The GPIO interface may also be configured as an I2C interface, an I2S interface, a UART interface, an MIPI interface, etc.
Illustratively, the USB interface 730 is an interface conforming to the USB standard specification, and may specifically be a Mini USB interface, a Micro USB interface, a USB Type C interface, or the like. The USB interface 130 may be used to connect a charger to charge the electronic device 700, or may be used to transfer data between the electronic device 700 and a peripheral device. And can also be used for connecting with a headset, and playing audio through the headset. The interface may also be used to connect other electronic devices, such as AR devices, etc.
It should be understood that the connection between the modules illustrated in the embodiments of the present application is only illustrative, and does not limit the structure of the electronic device 700. In other embodiments of the present application, the electronic device 700 may also use different interfacing manners, or a combination of multiple interfacing manners, as in the above embodiments.
The charge management module 740 is configured to receive a charge input from a charger. The charger can be a wireless charger or a wired charger. In some wired charging embodiments, the charge management module 740 may receive a charging input of a wired charger through the USB interface 730. In some wireless charging embodiments, the charge management module 740 may receive wireless charging input through a wireless charging coil of the electronic device 700. The charging management module 740 may also provide power to the electronic device through the power management module 741 while charging the battery 742.
The power management module 741 is configured to connect the battery 742, and the charge management module 740 and the processor 710. The power management module 741 receives input from the battery 742 and/or the charge management module 740 and provides power to the processor 710, the internal memory 721, the external memory, the display 794, the camera 793, the wireless communication module 760, and the like. The power management module 741 may also be configured to monitor battery capacity, battery cycle number, battery health (leakage, impedance) and other parameters. In other embodiments, the power management module 741 may also be disposed in the processor 710. In other embodiments, the power management module 741 and the charge management module 740 may be disposed in the same device.
The wireless communication function of the electronic device 700 may be implemented by the antenna 1, the antenna 2, the mobile communication module 750, the wireless communication module 760, a modem processor, a baseband processor, and the like.
The antennas 1 and 2 are used for transmitting and receiving electromagnetic wave signals. Each antenna in the electronic device 700 may be used to cover a single or multiple communication bands. Different antennas may also be multiplexed to improve the utilization of the antennas. For example, the antenna 1 may be multiplexed into a diversity antenna of a wireless local area network. In other embodiments, the antenna may be used in conjunction with a tuning switch.
The mobile communication module 750 may provide a solution for wireless communication applied on the electronic device 700, such as at least one of the following: second generation (2th generation,2G) mobile communications solutions, third generation (3 g) mobile communications solutions, fourth generation (4th generation,5G) mobile communications solutions, fifth generation (5th generation,5G) mobile communications solutions. The mobile communication module 150 may include at least one filter, switch, power amplifier, low noise amplifier (low noise amplifier, LNA), etc. The mobile communication module 750 may receive electromagnetic waves from the antenna 1, perform processes such as filtering and amplifying the received electromagnetic waves, and then transmit the electromagnetic waves to a modem processor for demodulation. The mobile communication module 750 may further amplify the signal modulated by the modem processor, and the amplified signal is converted into electromagnetic waves by the antenna 1 and radiated. In some embodiments, at least some of the functional modules of the mobile communication module 150 may be disposed in the processor 710. In some embodiments, at least some of the functional modules of the mobile communication module 750 may be disposed in the same device as at least some of the modules of the processor 710.
The modem processor may include a modulator and a demodulator. The modulator is used for modulating the low-frequency baseband signal to be transmitted into a medium-high frequency signal. The demodulator is used for demodulating the received electromagnetic wave signal into a low-frequency baseband signal. The demodulator then transmits the demodulated low frequency baseband signal to the baseband processor for processing. The low frequency baseband signal is processed by the baseband processor and then transferred to the application processor. The application processor outputs sound signals through an audio device (not limited to the speaker 770A, the receiver 770B, etc.), or displays images or video through the display screen 794. In some embodiments, the modem processor may be a stand-alone device. In other embodiments, the modem processor may be provided in the same device as the mobile communication module 750 or other functional modules, independent of the processor 710.
The wireless communication module 760 may provide solutions for wireless communication including wireless local area network (wireless local area networks, WLAN) (e.g., wi-Fi network, WIRELESS FIDELITY), bluetooth (BT), global navigation satellite system (global navigation SATELLITE SYSTEM, GNSS), frequency modulation (frequency modulation, FM), near Field Communication (NFC), infrared (IR), etc., as applied to the electronic device 700. The wireless communication module 760 may be one or more devices that integrate at least one communication processing module. The wireless communication module 760 receives electromagnetic waves via the antenna 2, frequency modulates and filters the electromagnetic wave signals, and transmits the processed signals to the processor 710. The wireless communication module 760 may also receive signals to be transmitted from the processor 710, frequency modulate them, amplify them, and convert them to electromagnetic waves for radiation via the antenna 2.
In some embodiments, antenna 1 of electronic device 700 is coupled to mobile communication module 750 and antenna 2 of electronic device 700 is coupled to wireless communication module 760 such that electronic device 700 may communicate with networks and other electronic devices through wireless communication techniques. The wireless communication technology may include at least one of the following communication technologies: global system for mobile communications (global system for mobile communications, GSM), general packet radio service (GENERAL PACKET radio service, GPRS), code division multiple access (code division multiple access, CDMA), wideband code division multiple access (wideband code division multiple access, WCDMA), time division code division multiple access (time-division code division multiple access, TD-SCDMA), long term evolution (long term evolution, LTE), BT, GNSS, WLAN, NFC, FM, IR technology. The GNSS may include at least one of the following positioning techniques: global satellite positioning system (global positioning system, GPS), global navigation satellite system (global navigation SATELLITE SYSTEM, GLONASS), beidou satellite navigation system (beidou navigation SATELLITE SYSTEM, BDS), quasi zenith satellite system (quasi-zenith SATELLITE SYSTEM, QZSS), satellite based augmentation system (SATELLITE BASED AUGMENTATION SYSTEMS, SBAS).
The electronic device 700 implements display functions through a GPU, a display screen 794, an application processor, and the like. The GPU is a microprocessor for image processing, and is connected to the display 794 and the application processor. The GPU is used to perform mathematical and geometric calculations for graphics rendering. Processor 710 may include one or more GPUs that execute program instructions to generate or change display information.
The display 794 is used to display images, video, and the like. The display 794 includes a display panel. The display panel may employ a Liquid Crystal Display (LCD) CRYSTAL DISPLAY, an organic light-emitting diode (OLED), an active-matrix organic LIGHT EMITTING diode (AMOLED), a flexible light-emitting diode (flex), mini-Led, micro-oLed, a quantum dot light-emitting diode (quantum dot light-emitting diodes, QLED), or the like. In some embodiments, the electronic device 700 may include 1 or N displays 794, N being a positive integer greater than 1.
The electronic device 700 may implement shooting functions through an ISP, a camera 793, a video codec, a GPU, a display screen 794, an application processor, and the like.
The ISP is used to process the data fed back by the camera 793. For example, when photographing, the shutter is opened, light is transmitted to the camera photosensitive element through the lens, the optical signal is converted into an electric signal, and the camera photosensitive element transmits the electric signal to the ISP for processing and is converted into an image visible to naked eyes. ISP can also optimize the noise, brightness and skin color of the image. The ISP can also optimize parameters such as exposure, color temperature and the like of a shooting scene. In some embodiments, the ISP may be provided in the camera 793.
The camera 793 is used to capture still images or video. The object generates an optical image through the lens and projects the optical image onto the photosensitive element. The photosensitive element may be a charge coupled device (charge coupled device, CCD) or a Complementary Metal Oxide Semiconductor (CMOS) phototransistor. The photosensitive element converts the optical signal into an electrical signal, which is then transferred to the ISP to be converted into a digital image signal. The ISP outputs the digital image signal to the DSP for processing. The DSP converts the digital image signal into an image signal in a standard RGB, YUV, or the like format. In some embodiments, the electronic device 700 may include 1 or N cameras 793, N being a positive integer greater than 1.
The digital signal processor is used for processing digital signals, and can process other digital signals besides digital image signals. For example, when the electronic device 700 is selecting a frequency bin, the digital signal processor is used to fourier transform the frequency bin energy, or the like.
Video codecs are used to compress or decompress digital video. The electronic device 700 may support one or more video codecs. In this way, the electronic device 700 may play or record video in a variety of encoding formats, such as: dynamic picture experts group (moving picture experts group, MPEG) 1, MPEG2, MPEG3, MPEG4, etc.
The NPU is a neural-network (NN) computing processor, and can rapidly process input information by referencing a biological neural network structure, for example, referencing a transmission mode between human brain neurons, and can also continuously perform self-learning. Applications such as intelligent awareness of the electronic device 700 may be implemented through the NPU, for example: image recognition, face recognition, speech recognition, text understanding, etc.
The external memory interface 720 may be used to interface with an external memory card, such as a Secure Digital (SD) card, to enable expanding the memory capabilities of the electronic device 700. The external memory card communicates with the processor 710 via the external memory interface 120 to implement data storage functions. For example, files such as music, video, etc. are stored in an external memory card.
Internal memory 721 may be used to store computer-executable program code, including instructions. The processor 710 executes various functional applications of the electronic device 700 and data processing by executing instructions stored in the internal memory 721. The internal memory 721 may include a storage program area and a storage data area. The storage program area may store an application program (such as a sound playing function, an image playing function, etc.) required for at least one function of the operating system, etc. The storage data area may store data created during use of the electronic device 700 (e.g., audio data, phonebook, etc.), and so on. In addition, the internal memory 721 may include a high-speed random access memory, and may further include a nonvolatile memory such as at least one magnetic disk storage device, a flash memory device, a universal flash memory (universal flash storage, UFS), and the like.
Electronic device 700 may implement audio functions through an audio module 770, a speaker 770A, a receiver 770B, a microphone 770C, an ear-headphone interface 770D, an application processor, and so forth. Such as music playing, recording, etc.
The audio module 770 is used to convert digital audio information to an analog audio signal output and also to convert an analog audio input to a digital audio signal. The audio module 770 may also be used to encode and decode audio signals. In some embodiments, the audio module 770 may be provided in the processor 710, or some of the functional modules of the audio module 770 may be provided in the processor 710.
Speaker 770A, also known as a "speaker," is used to convert audio electrical signals into sound signals. The electronic device 700 may listen to music, or to hands-free conversations, through the speaker 770A.
Receiver 770B, also known as a "receiver," is used to convert the audio electrical signal into a sound signal. When electronic device 700 is answering a telephone call or voice message, voice can be received by placing receiver 770B close to the human ear.
Microphone 770C, also known as a "microphone" or "microphone," is used to convert sound signals into electrical signals. When making a call or sending voice information, the user can sound near the microphone 770C through his/her mouth, inputting a sound signal to the microphone 770C. The electronic device 700 may be provided with at least one microphone 770C. In other embodiments, the electronic device 700 may be provided with two microphones 770C, which may also perform a noise reduction function in addition to collecting sound signals. In other embodiments, the electronic device 700 may also be provided with three, four or more microphones 770C to enable collection of sound signals, noise reduction, identification of sound sources, directional recording functions, etc.
The earphone interface 770D is used to connect a wired earphone. Earphone interface 770D may be a USB interface 730 or a 3.5mm open mobile electronic device platform (open mobile terminal platform, OMTP) standard interface, a American cellular telecommunications industry Association (cellular telecommunications industry association of the USA, CTIA) standard interface.
The pressure sensor 780A is configured to sense a pressure signal and convert the pressure signal into an electrical signal. In some embodiments, pressure sensor 780A may be provided on display 794. The pressure sensor 780A is of a wide variety, such as a resistive pressure sensor, an inductive pressure sensor, a capacitive pressure sensor, and the like. The capacitive pressure sensor may be a capacitive pressure sensor comprising at least two parallel plates with conductive material. When a force is applied to the pressure sensor 780A, the capacitance between the electrodes changes. The electronic device 700 determines the strength of the pressure from the change in capacitance. When a touch operation is applied to the display screen 794, the electronic apparatus 700 detects the touch operation intensity according to the pressure sensor 780A. The electronic device 700 may also calculate the location of the touch based on the detection signal of the pressure sensor 780A. In some embodiments, touch operations that act on the same touch location, but at different touch operation strengths, may correspond to different operation instructions. For example, when a touch operation with a touch operation intensity smaller than a first pressure threshold acts on the short message application icon, an instruction to view the short message is executed. And executing an instruction for newly creating the short message when the touch operation with the touch operation intensity being greater than or equal to the first pressure threshold acts on the short message application icon.
The gyroscope sensor 780B may be used to determine a motion gesture of the electronic device 700. In some embodiments, the angular velocity of electronic device 700 about three axes (i.e., x, y, and z axes) may be determined by gyro sensor 780B. The gyro sensor 780B may be used for photographing anti-shake. Illustratively, when the shutter is pressed, the gyro sensor 780B detects the shake angle of the electronic device 700, calculates the distance to be compensated by the lens module according to the angle, and makes the lens counteract the shake of the electronic device 700 through the reverse motion, thereby realizing anti-shake. The gyro sensor 780B may also be used for navigation, somatosensory of game scenes.
The air pressure sensor 780C is used to measure air pressure. In some embodiments, the electronic device 700 calculates altitude from barometric pressure values measured by the barometric pressure sensor 780C, aiding in positioning and navigation.
The magnetic sensor 780D includes a hall sensor. The electronic device 700 may detect the opening and closing of the flip holster using the magnetic sensor 780D. In some embodiments, when the electronic device 700 is a flip machine, the electronic device 700 may detect the opening and closing of the flip according to the magnetic sensor 780D; and setting the characteristics of automatic unlocking of the flip cover and the like according to the detected opening and closing state of the leather sheath or the detected opening and closing state of the flip cover.
The acceleration sensor 780E may detect the magnitude of acceleration of the electronic device 700 in various directions (typically three axes). The magnitude and direction of gravity may be detected when the electronic device 700 is stationary. The electronic equipment gesture recognition method can also be used for recognizing the gesture of the electronic equipment, and is applied to horizontal and vertical screen switching, pedometers and other applications.
The distance sensor 780F is used to measure distance. The electronic device 700 may measure the distance by infrared or laser. In some embodiments, the scene is photographed and the electronic device 700 can range using the distance sensor 780F to achieve quick focus.
The proximity light sensor 780G may include, for example, a light-emitting diode (LED) and a light detector, such as a photodiode. The light emitting diode may be an infrared light emitting diode. The electronic device 700 emits infrared light outward through the light emitting diode. The electronic device 700 uses a photodiode to detect infrared reflected light from nearby objects. When sufficient reflected light is detected, it may be determined that an object is in the vicinity of the electronic device 700. When insufficient reflected light is detected, the electronic device 700 may determine that there is no object in the vicinity of the electronic device 700. The electronic device 700 may detect that the user holds the electronic device 700 in close proximity to the ear using the proximity light sensor 780G, so as to automatically extinguish the screen for power saving purposes. The proximity light sensor 780G may also be used in holster mode, pocket mode to automatically unlock and lock the screen.
The ambient light sensor 780L is used to sense ambient light level. The electronic device 700 may adaptively adjust the brightness of the display 794 based on the perceived ambient light level. The ambient light sensor 780L may also be used to automatically adjust white balance when taking a photograph. The ambient light sensor 780L may also cooperate with the proximity light sensor 780G to detect if the electronic device 700 is in a pocket to prevent false touches.
The fingerprint sensor 780H is used to collect a fingerprint. The electronic device 700 may utilize the collected fingerprint characteristics to unlock the fingerprint, access the application lock, photograph the fingerprint, answer the incoming call, etc.
The temperature sensor 780J is used to detect temperature. In some embodiments, the electronic device 700 performs a temperature processing strategy using the temperature detected by the temperature sensor 780J. For example, when the temperature reported by temperature sensor 780J exceeds a threshold, electronic device 700 performs a reduction in performance of a processor located near temperature sensor 780J in order to reduce power consumption to implement thermal protection. In other embodiments, when the temperature is below another threshold, the electronic device 700 heats the battery 742 to avoid the low temperature causing the electronic device 700 to shut down abnormally. In other embodiments, when the temperature is below a further threshold, the electronic device 700 performs boosting of the output voltage of the battery 742 to avoid abnormal shutdown caused by low temperatures.
Touch sensor 780K, also referred to as a "touch panel". The touch sensor 780K may be disposed on the display 794, and the touch sensor 780K and the display 794 form a touch screen, which is also called a "touch screen". The touch sensor 780K is used to detect a touch operation acting thereon or thereabout. The touch sensor may communicate the detected touch operation to the application processor to determine the touch event type. Visual output related to touch operations may be provided through the display 794. In other embodiments, the touch sensor 780K may also be disposed on a surface of the electronic device 700 at a different location than the display 794.
The bone conduction sensor 780M may acquire a vibration signal. In some embodiments, bone conduction sensor 780M may acquire a vibration signal of a human vocal tract vibrating bone pieces. The bone conduction sensor 780M may also contact the pulse of the human body to receive the blood pressure pulsation signal. In some embodiments, bone conduction sensor 780M may also be provided in the headset, in combination with an osteoinductive headset. The audio module 770 may analyze the voice signal based on the vibration signal of the sound part vibration bone block obtained by the bone conduction sensor 780M, so as to implement a voice function. The application processor can analyze heart rate information based on the blood pressure beat signals acquired by the bone conduction sensor 780M, so that a heart rate detection function is realized.
The keys 790 include a power key, a volume key, etc. Key 790 may be a mechanical key. Or may be a touch key. The electronic device 700 may receive key inputs, generate key signal inputs related to user settings and function control of the electronic device 700.
The motor 791 may generate a vibration alert. The motor 791 may be used for incoming call vibration alerting as well as for touch vibration feedback. For example, touch operations acting on different applications (e.g., photographing, audio playing, etc.) may correspond to different vibration feedback effects. The motor 791 may also correspond to different vibration feedback effects by touch operations applied to different areas of the display screen 794. Different application scenarios (such as time reminding, receiving information, alarm clock, game, etc.) can also correspond to different vibration feedback effects. The touch vibration feedback effect may also support customization.
The indicator 792 may be an indicator light, may be used to indicate a state of charge, a change in charge, a message indicating a missed call, a notification, etc.
The SIM card interface 795 is used to connect a SIM card. The SIM card may be inserted into the SIM card interface 795, or removed from the SIM card interface 795 to enable contact and separation with the electronic device 700. The electronic device 700 may support 1 or N SIM card interfaces, N being a positive integer greater than 1. The SIM card interface 795 may support a Nano SIM card, micro SIM card, etc. The same SIM card interface 795 may be used to insert multiple cards simultaneously. The types of the plurality of cards may be the same or different. The SIM card interface 795 may also be compatible with different types of SIM cards. SIM card interface 795 may also be compatible with external memory cards. The electronic device 700 interacts with the network through the SIM card to perform functions such as talking and data communication. In some embodiments, the electronic device 700 employs esims, namely: an embedded SIM card. The eSIM card can be embedded in the electronic device 700 and cannot be separated from the electronic device 700.
Fig. 14 is a schematic diagram of a hardware structure of another electronic device according to an embodiment of the present application. As shown in fig. 14, the electronic apparatus 3000 includes: at least one processor 3001 (only one shown in fig. 14), a memory 3002, and a computer program 3003 stored in the memory 3002 and executable on the at least one processor 3001, the processor 3001 implementing steps in any one of the methods described above when executing the computer program 3003.
It will be appreciated by those skilled in the art that fig. 14 is merely an example of an electronic device and is not meant to be limiting, and that in practice an electronic device may include more or fewer components than shown, or may combine certain components, or different components, such as may also include input-output devices, network access devices, etc.
The processor 3001 may be a central processing unit (central processing unit, CPU), other general purpose processor, digital signal processor (DIGITAL SIGNAL processor, DSP), application Specific Integrated Circuit (ASIC), off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic device, discrete hardware components, or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.
Memory 3002 may be an internal storage unit of electronic device 3000 in some embodiments, such as a hard disk or memory of electronic device 3000. The memory 3002 may also be an external storage device of the electronic device 3000 in other embodiments, such as a plug-in hard disk provided on the electronic device 3000, a smart memory card (SMART MEDIA CARD, SMC), a Secure Digital (SD) card, a flash memory card (FLASH CARD), or the like. Optionally, the memory 3002 may also include both internal storage units and external storage devices of the electronic device 3000. The memory 3002 is used for storing an operating system, application programs, boot loader programs, data, and other programs, etc., such as program codes of the computer programs. The memory 3002 may also be used to temporarily store data that has been output or is to be output.
It should be noted that, because the content of information interaction and execution process between the above devices/units is based on the same concept as the method embodiment of the present application, specific functions and technical effects thereof may be referred to in the method embodiment section, and will not be described herein.
It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of the functional units and modules is illustrated, and in practical application, the above-described functional distribution may be performed by different functional units and modules according to needs, i.e. the internal structure of the apparatus is divided into different functional units or modules to perform all or part of the above-described functions. The functional units and modules in the embodiment may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit, where the integrated units may be implemented in a form of hardware or a form of a software functional unit. In addition, the specific names of the functional units and modules are only for distinguishing from each other, and are not used for limiting the protection scope of the present application. The specific working process of the units and modules in the above system may refer to the corresponding process in the foregoing method embodiment, which is not described herein again.
The embodiment of the application also provides electronic equipment, which comprises: at least one processor, a memory, and a computer program stored in the memory and executable on the at least one processor, the processor implementing steps of any of the methods described above when the computer program is executed.
Embodiments of the present application also provide a computer readable storage medium storing a computer program which, when executed by a processor, implements steps for implementing the various method embodiments described above.
Embodiments of the present application provide a computer program product comprising a computer program for performing the steps of the method embodiments described above when the computer program is executed by a processor.
The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the present application may implement all or part of the flow of the method of the above embodiments, and may be implemented by a computer program to instruct related hardware, where the computer program may be stored in a computer readable storage medium, and when the computer program is executed by a processor, the computer program may implement the steps of each of the method embodiments described above. Wherein the computer program comprises computer program code which may be in source code form, object code form, executable file or some intermediate form etc. The computer readable medium may include at least: any entity or device capable of carrying computer program code to a camera device/electronic apparatus, a recording medium, a computer memory, a read-only memory (ROM), a random access memory (random access memory, RAM), an electrical carrier signal, a telecommunications signal, and a software distribution medium. Such as a U-disk, removable hard disk, magnetic or optical disk, etc. In some jurisdictions, computer readable media may not be electrical carrier signals and telecommunications signals in accordance with legislation and patent practice.
In the foregoing embodiments, the descriptions of the embodiments are emphasized, and in part, not described or illustrated in any particular embodiment, reference is made to the related descriptions of other embodiments.
Those of ordinary skill in the art will appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.
In the embodiments provided in the present application, it should be understood that the disclosed apparatus/device and method may be implemented in other manners. For example, the apparatus/device embodiments described above are merely illustrative, e.g., the division of the modules or units is merely a logical functional division, and there may be additional divisions when actually implemented, e.g., multiple units or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection via interfaces, devices or units, which may be in electrical, mechanical or other forms.
The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.
It should be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.
It should also be understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.
As used in the present description and the appended claims, the term "if" may be interpreted as "when..once" or "in response to a determination" or "in response to detection" depending on the context. Similarly, the phrase "if a determination" or "if a [ described condition or event ] is detected" may be interpreted in the context of meaning "upon determination" or "in response to determination" or "upon detection of a [ described condition or event ]" or "in response to detection of a [ described condition or event ]".
Furthermore, the terms "first," "second," "third," and the like in the description of the present specification and in the appended claims, are used for distinguishing between descriptions and not necessarily for indicating or implying a relative importance.
Reference in the specification to "one embodiment" or "some embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the application. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," and the like in the specification are not necessarily all referring to the same embodiment, but mean "one or more but not all embodiments" unless expressly specified otherwise. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.
The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application.
Claims (8)
1. A method of creating a shortcut entry, comprising:
Running a first application on the electronic equipment, and displaying a plurality of functional items in a list interface of the functional items of the first application, wherein the first application is a setting application or a file management application;
determining and marking common function items in the plurality of function items according to the use frequency of each function item in a preset period, and putting the common function items on top in a list interface of the function items, wherein the use frequency of the common function items in the preset period is greater than or equal to a preset frequency threshold;
When the operation that a first function item in the common function items is pressed by a user for a long time to generate a floating icon and the floating icon is dragged to be released after responding to a hot zone is obtained, a desktop shortcut entry of the first function item is created, wherein the first function item is any function item corresponding to any application in the electronic equipment.
2. The method of claim 1, wherein the response hot zone is a predefined sized region marked with a desktop corner mark.
3. The method of claim 1, wherein creating a desktop shortcut portal for the first function item when an operation is obtained in which a user holds and drags a floating icon of the first function item to be released after responding to a hot zone, comprises:
generating a floating icon of the first function item using the graphical marker when the first function item includes the graphical marker; or alternatively
And when the first function item does not comprise the graphic mark, generating a floating icon of the first function item by utilizing the graphic mark corresponding to the first function item in a preset icon library.
4. The method of claim 1, wherein the desktop shortcut entry for the first function item further carries a tag for acquiring an application of a create operation for the first function item.
5. The method of any one of claims 1 to 4, wherein the desktop shortcut entry of the first functional item is further marked with an application corresponding to the first functional item.
6. An apparatus for creating a shortcut entry, comprising:
A marking unit, configured to run a first application on an electronic device, and display a plurality of function items in a list interface of the function items of the first application, where the first application is a setting application or a file management application; determining and marking common function items in the plurality of function items according to the use frequency of each function item in the plurality of function items in a preset period, wherein the use frequency of the common function items in the preset period is greater than or equal to a preset frequency threshold;
The creating unit is used for creating a desktop shortcut entry of a first function item when the operation that a user presses and drags a floating icon of the first function item in the common function items to a response hot zone for a long time is obtained, wherein the first function item is any function item corresponding to any application in the electronic equipment.
7. An electronic device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor implements the method of any one of claims 1 to 5 when executing the computer program.
8. A computer readable storage medium storing a computer program, characterized in that the computer program, when executed by a processor, implements the method according to any one of claims 1 to 5.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202310153447.1A CN117130515B (en) | 2023-02-10 | 2023-02-10 | Method and device for creating shortcut entry |
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