CN110287677B - Control method of application program, electronic device and readable storage medium - Google Patents

Abstract

The application discloses a control method of an application program, electronic equipment and a readable storage medium. The control method of the application program comprises the following steps: under the condition that the electronic equipment is locked, and when a first touch operation on a fingerprint identification area is received, first fingerprint data of a user are acquired through a fingerprint identification module; judging whether the first fingerprint data is matched with any one of the plurality of fingerprint templates; when the first fingerprint data is matched with any one of the plurality of fingerprint templates, judging whether the fingerprint template matched with the first fingerprint data corresponds to an application program; and when the fingerprint template matched with the first fingerprint data corresponds to an application program, unlocking the electronic equipment and starting the application program corresponding to the fingerprint template. According to the application program control method, the electronic equipment can be unlocked and the application program can be started directly, so that safe, quick and personalized operation experience is brought to a user.

Description

Control method of application program, electronic device and readable storage medium

Technical Field

The present application relates to the field of mobile terminal technologies, and in particular, to a control method for an application program, an electronic device, and a readable storage medium.

Background

At present, electronic devices such as mobile phones or tablet computers generally have an underscreen fingerprint recognition function, however, in the related art, when an application program (APP) of the electronic device needs to be started, a user usually clicks an application icon to open the application or draws a specific gesture on a screen, and then directly opens the specific application, however, no matter what way to enter, the electronic device needs to be unlocked first, and the application cannot be directly started while being unlocked, so that the user experience is low.

Disclosure of Invention

The embodiment of the application provides a control method of an application program, electronic equipment and a non-volatile computer readable storage medium.

The application program control method is used for the electronic equipment. The electronic equipment comprises a touch display screen and a fingerprint identification module arranged below the touch display screen, wherein a fingerprint identification area corresponding to the touch display screen of the fingerprint identification module is positioned in a display area of the touch display screen, the fingerprint identification area corresponds to at least one application program, a plurality of fingerprint templates are preset in the electronic equipment, and the fingerprint templates correspond to the at least one application program;

the control method of the application program comprises the following steps:

under the condition that the electronic equipment is locked and when a first touch operation on the fingerprint identification area is received, acquiring first fingerprint data of a user through the fingerprint identification module;

determining whether the first fingerprint data matches any of the plurality of fingerprint templates;

when the first fingerprint data is matched with any one of the plurality of fingerprint templates, judging whether the fingerprint template matched with the first fingerprint data corresponds to one application program;

and when the fingerprint template matched with the first fingerprint data corresponds to one application program, unlocking the electronic equipment and starting the application program corresponding to the fingerprint template.

The electronic equipment comprises a touch display screen and a fingerprint identification module arranged below the touch display screen, wherein the fingerprint identification module is positioned in a display area of the touch display screen corresponding to a fingerprint identification area on the touch display screen, the fingerprint identification area corresponds to at least one application program, a plurality of fingerprint templates are preset in the electronic equipment, and the plurality of fingerprint templates correspond to the at least one application program;

under the condition that the electronic equipment is locked and the touch display screen receives a first touch operation on the fingerprint identification area, the fingerprint identification module is used for acquiring first fingerprint data of a user;

the processor is configured to determine whether the first fingerprint data matches any of the plurality of fingerprint templates and, when the first fingerprint data matches any of the plurality of fingerprint templates, determine whether a fingerprint template matching the first fingerprint data corresponds to one of the application programs and, when the fingerprint template matching the first fingerprint data corresponds to one of the application programs, unlock the electronic device and open the application program corresponding to the fingerprint template.

The non-transitory computer-readable storage medium of embodiments of the present application contains computer-readable instructions. The computer readable instructions, when executed by a processor, cause the processor to perform the control method of the application program described above.

In the application program control method, the electronic device and the non-volatile computer-readable storage medium according to the embodiments of the application program, a plurality of fingerprint templates correspond to at least one application program, when a first touch operation in a fingerprint identification area corresponding to the application program is received, first fingerprint data is collected, then the first fingerprint data is matched with the plurality of fingerprint templates, and after the matching is successful, if it is determined that the application program corresponds to the fingerprint template of the first fingerprint data, the electronic device is unlocked and the corresponding application program is started. Therefore, the electronic equipment can be directly started to open the application program while being unlocked, and the user does not need to unlock the electronic equipment and then click to enter the electronic equipment by himself, so that the operation experience of safety, rapidness and personalized requirements is brought to the user.

Additional aspects and advantages of embodiments of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic flow chart diagram of a method for controlling an application according to some embodiments of the present application;

FIG. 2 is a schematic structural diagram of an electronic device according to some embodiments of the present application;

fig. 3 to 6 are schematic views of scenes of a control method of an application program according to some embodiments of the present application;

FIGS. 7-11 are flow diagrams illustrating methods of controlling an application according to certain embodiments of the present disclosure;

FIG. 12 is a schematic diagram of a scenario of a control method of an application program according to some embodiments of the present application;

FIG. 13 is a schematic flow chart diagram illustrating a method for controlling an application according to some embodiments of the present application;

FIG. 14 is a schematic diagram of a scenario illustrating a method for controlling an application according to some embodiments of the present application;

FIG. 15 is a schematic flow chart diagram illustrating a method for controlling an application program in accordance with certain embodiments of the present application;

FIG. 16 is a schematic view of a stacking structure of a capacitive fingerprint module, a display screen and a cover plate according to some embodiments of the present disclosure;

FIG. 17 is a schematic view of a stacking structure of an optical fingerprint module, a display screen and a cover plate according to some embodiments of the present disclosure;

FIG. 18 is a schematic diagram of the interaction of a non-volatile computer readable storage medium and a processor of certain embodiments of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the embodiments of the present application, and are not to be construed as limiting the embodiments of the present application. Furthermore, in the description of the application, it is to be understood that the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 3, the present application provides a method for controlling an application program. The control method of the application program may be used for the electronic apparatus 100. The electronic device 100 includes a touch display 30 and a fingerprint identification module 10 disposed below the touch display 30. The fingerprint identification module 10 corresponds to the fingerprint identification area a2 on the touch display screen 30 and is located in the display area a1 of the touch display screen 30, the fingerprint identification area a2 corresponds to at least one application program, the electronic device 100 is preset with a plurality of fingerprint templates, and the plurality of fingerprint templates correspond to the at least one application program. The control method of the application program comprises the following steps:

step 011: under the condition that the electronic device 100 is locked and receives a first touch operation on the fingerprint identification area a2, acquiring first fingerprint data of a user through the fingerprint identification module 10;

step 012: judging whether the first fingerprint data is matched with any one of the plurality of fingerprint templates; and

step 013: when the first fingerprint data is matched with any one of the plurality of fingerprint templates, judging whether the fingerprint template matched with the first fingerprint data corresponds to an application program;

step 014: when the fingerprint template matched with the first fingerprint data corresponds to an application program, the electronic device 100 is unlocked and the application program is opened.

It should be noted that the opened application is an application corresponding to the fingerprint template matched with the first fingerprint data.

Referring to fig. 2 and fig. 3, an electronic device 100 is also provided. The electronic device 100 includes a touch screen 30, a processor 20, and a fingerprint identification module 10 disposed below the touch screen 30. The fingerprint identification module 10 is located in the display area a1 of the touch display screen 30 corresponding to the fingerprint identification area a2 on the touch display screen 30. Step 011 can be implemented by the fingerprint identification module 10. Steps 012 through 014 may all be implemented by processor 20. That is, in a situation where the electronic device 100 is locked, and when the touch display screen 30 receives a first touch operation to the fingerprint identification area a2, the fingerprint identification module 10 may acquire first fingerprint data of the user. The processor 20 is operable to determine whether the first fingerprint data matches any of the plurality of fingerprint templates, and when the first fingerprint data matches any of the plurality of fingerprint templates, determine whether the fingerprint template matching the first fingerprint data corresponds to an application, and when the fingerprint template matching the first fingerprint data corresponds to an application, unlock the electronic device 100 and open the application corresponding to the fingerprint template.

The electronic device 100 may be a mobile phone, a tablet computer, an intelligent wearable device (smart watch, smart bracelet, smart helmet, smart glasses, etc.), a virtual reality device, a head display device, and so on. The electronic device 100 is described as a mobile phone in the present application, but the form of the electronic device 100 is not limited to the mobile phone. The application may be a pre-installed application installed on the electronic device 100 (e.g., photo album, phone, etc.) or a third party application installed on the electronic device 100 (e.g., WeChat and QQ, etc.).

The fingerprint recognition module 10 can be a capacitive fingerprint module 12 (shown in fig. 16), an optical fingerprint module 15 (shown in fig. 17), an ultrasonic fingerprint module, and so on. When the fingerprint identification module 10 is disposed under the touch display screen 30, the fingerprint identification module 10 corresponds to the fingerprint identification area a2 on the touch display screen 30 and is located in the display area a1 of the touch display screen 30. Specifically, the fingerprint identification module 10 corresponds fingerprint identification area a2 on the touch display screen 30 and can be a partial display area a1 (area fingerprint) of the touch display screen 30, and can also be a whole display area a1 (full-screen fingerprint) of the touch display screen 30, as long as the ratio of the fingerprint identification module 10 corresponding to the fingerprint identification area a2 on the touch display screen 30 and the display area a1 of the touch display screen 30 is greater than a predetermined ratio, so as to ensure that the fingerprint identification area a2 can place at least one finger.

In addition, a plurality of fingerprint templates are the fingerprint data that are logged in advance through fingerprint identification module 10 and are stored in processor 20. The plurality of fingerprint templates may be fingerprint data previously entered into the electronic device 100 by the user through different fingers, including, for example, a first fingerprint template generated when a thumb fingerprint is entered, a second fingerprint template generated when an index finger fingerprint is entered, a third fingerprint template generated when a middle finger fingerprint is entered, and so on. Each of the plurality of fingerprint templates may correspond to an application, e.g., a fingerprint template for a thumb corresponds to a WeChat, a fingerprint template for an index finger corresponds to a QQ, etc. Of course, only a part of the fingerprint template may correspond to the application, and a part of the fingerprint template does not correspond to the application, and is not particularly limited.

Taking fig. 3 as an example, in the scenario shown in fig. 3, first, the electronic device 100 is in a locked and lighted state, a fingerprint identification area a2 is displayed in the display area a1 of the touch display screen 30, and an icon of an application program corresponding to at least one of a plurality of fingerprint templates may be displayed in the fingerprint identification area a2, for example, in fig. 3, the icon in the fingerprint identification area a2 is a WeChat, and a user only needs to perform fingerprint identification in the fingerprint identification area a2, and when the fingerprint template matching the fingerprint data is the fingerprint template corresponding to the WeChat, the electronic device 100 may be unlocked and the WeChat may be directly started. It can be understood that if the fingerprint template matched with the fingerprint data is not the fingerprint template corresponding to the WeChat, only the electronic device is unlocked, and the WeChat is not opened.

It is understood that in some embodiments, the fingerprint identification area a2 may also correspond to a plurality of applications, and specifically, referring to fig. 4, the fingerprint identification area a2 may be divided into a plurality of sub-areas A3, each sub-area A3 corresponds to an application, and each application corresponds to a fingerprint template. In such an embodiment, the user only needs to touch the sub-area A3 where the application that the user wants to open with a finger, and if the fingerprint template matching the fingerprint data corresponds to the application in the corresponding sub-area A3, the application corresponding to the corresponding sub-area A3 is opened while the electronic device 100 is unlocked. Of course, it can be understood that in such an embodiment, it is necessary to determine whether all the areas touched by the first touch operation are in the corresponding sub-area A3, or whether the ratio of the areas touched by the first touch operation to the corresponding sub-area A3 is greater than a preset value, so as to determine the sub-area A3 touched by the user. For example, in fig. 4, the user may touch the sub-area a3 where the WeChat is located with a finger, and when the application corresponding to the fingerprint template matched with the fingerprint data is the WeChat, the electronic device 100 unlocks and directly starts the WeChat.

Furthermore, it will be appreciated that in such an embodiment, each sub-region A3 has a corresponding application and fingerprint template, i.e., there is a one-to-one correspondence between sub-region A3-application-fingerprint template, and among these, as long as a condition is not met, the application in sub-region A3 will not be opened. For example, if only the fingerprint template that matches the fingerprint data only corresponds to the application, and the sub-region a3 that corresponds to the application does not, then only the electronic device will be unlocked and the application will not be opened.

At present, electronic equipment 100 such as a mobile phone or a tablet computer generally has an underscreen fingerprint recognition function, however, in the related art, when an application program (APP) of the electronic equipment 100 needs to be started, a user usually clicks an application icon to open the application or draws a specific gesture on a screen, and then directly opens the specific application, however, whether the user enters in that manner, the electronic equipment 100 needs to be unlocked first, the application cannot be directly started while the application is unlocked, and user experience is low.

According to the application program control method, the plurality of fingerprint templates correspond to at least one application program, when first touch operation on a fingerprint identification area is received, first fingerprint data are collected, then the first fingerprint data are matched with the plurality of fingerprint templates, and after the matching is successful, if the application program corresponding to the fingerprint template of the first fingerprint data is determined, the electronic equipment is unlocked and the corresponding application program is started. Therefore, the electronic equipment can be directly started to open the application program while being unlocked, and the user does not need to unlock the electronic equipment and then click to enter the electronic equipment by himself, so that the operation experience of safety, rapidness and personalized requirements is brought to the user. Meanwhile, each application program corresponds to one fingerprint template, and only when the fingerprint data is matched with the fingerprint template corresponding to the application program, the corresponding application program can be started while the electronic equipment is unlocked, so that the application program can be started more safely, and the application program cannot be started mistakenly when the fingerprint data is matched with other fingerprint templates which do not correspond to the application program or correspond to other application programs.

Specifically, when the touch display screen 30 receives a first touch operation, the fingerprint identification module 10 obtains first fingerprint data of a finger (including a thumb, an index finger, a middle finger, and the like) of a user. Fingerprint identification module 10 sends first fingerprint data for treater 20, and after treater 20 received first fingerprint data, match first fingerprint data with a plurality of fingerprint template of logging in advance. If the matching is successful, whether the matched fingerprint template corresponds to the application program is judged, if yes, the electronic equipment is unlocked, the corresponding application program is started, and if not, only the electronic equipment is unlocked.

In some embodiments, referring to fig. 5 and fig. 6, the receiving of the first touch operation in step 011 can be the touch display 30 receiving the first operation in the on state, or the touch display 30 receiving the first touch operation in the off state, which is not limited herein. In the example shown in fig. 5, the touch display screen 30 is in a lighting state, at this time, the application icon is displayed in the fingerprint identification area a2, in the example shown in fig. 6, the touch display screen 30 is in a lighting-off state, the fingerprint identification area a2 is not displayed with the application icon but only with gray lines to indicate the position of the fingerprint identification area a2 and to indicate the position of the sub-area A3 to guide the user to perform fingerprint identification, and at the same time, the power consumption is very low due to the gray lines.

Referring to fig. 7, in some embodiments, the method for controlling an application further includes:

step 015: and when the fingerprint template matched with the first fingerprint data does not correspond to an application program, unlocking the electronic equipment but not opening the application program.

Referring back to fig. 2, in some embodiments, step 015 may be implemented by processor 20. That is, the processor 20 may be configured to unlock the electronic device 100 but not open an application when the fingerprint template matching the first fingerprint data does not correspond to the application. That is, in the present embodiment, only the application corresponding to the fingerprint template matching the first fingerprint data is enabled while the electronic device 100 is unlocked, and only the electronic device 100 is unlocked if the fingerprint template does not correspond to the application.

Referring to fig. 8, after the step 011, the method for controlling the application further includes:

step 016: judging whether the first touch operation is matched with a preset operation or not;

and when the first touch operation is matched with the preset operation and the fingerprint template matched with the first fingerprint data corresponds to an application program, unlocking the electronic equipment and starting the application program. That is, in the present embodiment, only when the determination result of step 016 is yes and the determination result of step 013 is yes, the routine proceeds to step 014. That is, only when the template matched with the first fingerprint data corresponds to the application program and the first touch operation matches the preset operation, the application is started while the electronic device is unlocked, and if one of the two conditions is not satisfied, only the electronic device is unlocked and the application program is not started.

Referring to fig. 2, in some embodiments, step 016 can be implemented by the processor 20. That is, the processor 20 may be configured to determine whether the first touch operation matches a preset operation, and unlock the electronic device and start an application program when the first touch operation matches the preset operation and a fingerprint template matching the first fingerprint data corresponds to the application program.

It should be noted that, in the illustrated embodiment, step 016 is performed after step 013, but it is understood that, in this embodiment, step 016 and step 013 do not have an absolute sequence, step 016 and step 013 can be performed simultaneously or sequentially, and the sequence of the two steps is not limited herein.

In addition, the preset operation may be a pre-entered operation, for example, when the fingerprint identification area a2 is a whole without dividing the sub-area A3, the preset operation may be an operation in which the ratio of the area of the touched area of the fingerprint identification area a2 to the area of the touched area of the whole touch display screen is greater than or equal to a preset value when the user touches the fingerprint identification area a2, and when the ratio is greater than or equal to the preset value, the processor 20 determines that the first touch operation matches the preset operation. For another example, when the fingerprint identification area a2 is divided into a plurality of sub-areas A3, each sub-area A3 corresponds to an application, and may be an operation of presetting whether a ratio of a touch area of the first touch operation in the sub-area A3 to an entire touch area of the first touch operation in the fingerprint identification area is greater than or equal to a preset value, and when the ratio is greater than or equal to the preset value, the processor 20 determines that the first touch operation matches the preset operation.

Referring to fig. 4 and 9, in some embodiments, the fingerprint identification area a2 includes a plurality of sub-areas A3, each sub-area A3 corresponding to a fingerprint template, and the step 016 includes:

step 0161: judging whether the ratio of the touch area of the first touch operation in the sub-area A3 to the whole touch area of the first touch operation in the fingerprint identification area is greater than or equal to a preset value;

step 0162: and when the ratio is greater than or equal to a preset value, determining that the first touch operation is matched with the preset operation.

That is, step 016 can be implemented by step 0161 and step 0162 described above.

Referring back to fig. 2, in some embodiments, both steps 0161 and 0162 can be implemented by processor 20. That is, the processor 20 may be configured to determine whether a ratio of a touch area of the first touch operation in the sub area A3 to an entire touch area of the first touch operation in the fingerprint identification area a2 is greater than or equal to a preset value, and determine that the first touch operation matches the preset operation when the ratio is greater than or equal to the preset value.

Specifically, in a general case, referring to fig. 4, the sub-region A3 is obtained by dividing the fingerprint identification region a2 equally, that is, the area of each sub-region A3 is equal, and a user can set the number of the sub-regions A3 by a customized setting, for example, 1, 2, 4 or more, and the area of each sub-region A3 is larger than the area of a finger, so that each sub-region A3 can sufficiently accommodate one finger for fingerprint identification. It will be appreciated that in some embodiments, each sub-region A3 may be non-uniform or partially uniform in size, and the area of each sub-region A3 may be no greater than the area of a finger, as long as fingerprint recognition is enabled. Each sub-area A3 corresponds to a fingerprint template, that is, the sub-area A3, fingerprint template, and application program are related to each other.

It can be understood that, in the present embodiment, the purpose of determining whether the first touch operation matches the preset operation is mainly to determine which sub-region A3 is touched by the user, and if the touched area of one of the sub-regions A3 occupies a great part of the whole touched area, this sub-region A3 is the sub-region A3 touched by the user. At this time, if the fingerprint template matching the first fingerprint data corresponds to the sub-area A3 and also corresponds to the application program corresponding to the sub-area A3, the electronic device enters the corresponding application program while being unlocked. That is, if the fingerprint template matching the first fingerprint data does not correspond to the sub-area a3 touched by the user, only the electronic device is unlocked, and the application program is not opened.

In one example, the preset value may be set to 80%, that is, when the ratio of the touch area of the first touch operation in the sub area A3 to the entire touch area in the fingerprint identification area a2 is greater than or equal to 80%, it is determined that the first touch operation matches the preset operation.

Specifically, taking the example shown in fig. 4 as an example, when the first touch operation is performed in the fingerprint identification area a2, if it is detected that the touch area of the sub-area A3 corresponding to the WeChat accounts for 80% or more than 80% of the entire touch area, for example, the entire touch area of the first touch operation on the entire fingerprint identification area a2 is 2cm2, and the touch mask on the sub-area A3 corresponding to the WeChat is 1.7cm2, that is, the above ratio is 85%, then it indicates that the first touch operation matches the preset operation (that is, the first touch operation touches the sub-area A3 desired to be touched by the user). If the template matched with the first fingerprint data corresponds to the subregion A3 where the WeChat is located and also corresponds to the WeChat, the electronic device is unlocked and the WeChat is opened, and if the fingerprint template matched with the first fingerprint data does not correspond to the subregion A3 where the WeChat is located, the electronic device is unlocked only and the WeChat is not opened.

Referring to fig. 10, in some embodiments, the method for controlling an application further includes:

step 017: when a first operation on the touch display screen 30 is received, displaying a fingerprint identification area A2;

step 018: upon receiving a second operation to the touch display screen 30, the fingerprint identification area a2 is divided into a plurality of sub-areas A3.

Referring to FIG. 2, in certain embodiments, steps 017 and 018 may be implemented by processor 20. That is, the processor 20 is configured to display the fingerprint identification area a2 when receiving the first operation on the touch display screen 30, and divide the fingerprint identification area a2 into a plurality of sub-areas A3 when receiving the second operation on the touch display screen 30.

It will be appreciated that in this embodiment, the fingerprint identification area a2 may be divided into a plurality of sub-areas A3 by steps 017 and 018 as described above.

Specifically, in one example, the first operation may be a series of click operations by the user on the touch display screen 30. For example, the user may click on a settings entry interface and then enter a settings interface that divides the fingerprint identification area A2. The second operation may be a click operation or an output operation by the user on the setting interface, for example, the setting interface may display the fingerprint identification area a2 divided into several sub-areas A3, for example, the numbers 1, 2, 3 and 4 may be displayed for the user to select. For another example, the user can also input a numerical value corresponding to the number of the sub-regions A3 to be divided, so as to define the number of the sub-regions A3. It should be noted that the specific number of the sub-area A3 is not limited, and it is only necessary that each sub-area A3 is capable of performing fingerprint identification.

It should be noted that, step 017 and step 018 may be performed before step 011, or may be performed in any state after the electronic device 100 is unlocked, and the specific sequence is not limited herein. That is, as long as the electronic device 100 is in the unlocked state, it can be customized by the plurality of sub-regions A3 of the fingerprint identification region A2 in steps 017 and 018.

Referring to fig. 11, in some embodiments, the method for controlling an application further includes:

step 019: when a third operation on the touch display screen 30 is received, displaying a fingerprint identification area A2;

step 020: when a fourth operation on the touch display screen 30 is received, moving the icon of the application program to the fingerprint identification area A2 and collecting second fingerprint data of the user;

step 021: judging whether the second fingerprint data is matched with any one of the plurality of fingerprint templates;

step 022: when the second fingerprint data matches any one of the plurality of fingerprint templates, the correspondence between the application program and the fingerprint template matching the second fingerprint data and the correspondence between the fingerprint identification area a2 and the fingerprint template matching the second fingerprint data are established and saved, and the correspondence between the application program and the fingerprint identification area a2 is established and saved.

Referring to fig. 2, in some embodiments, steps 019 through 022 can be implemented by the processor 20. That is, the processor 20 is configured to control the touch display screen 30 to display the fingerprint identification area a2 when the touch display screen 30 receives the third operation, and control the touch display screen 30 to move the icon of the application program to the fingerprint identification area a2 and obtain the second fingerprint data of the user through the fingerprint identification module 10 when the touch display screen 30 receives the fourth operation. The processor 20 is further operable to determine whether the second fingerprint data matches any of the plurality of fingerprint templates, and when the second fingerprint data matches any of the plurality of fingerprint templates, establish and store a correspondence between the application and the fingerprint template matching the second fingerprint data, and a correspondence between the fingerprint identification area a2 and the fingerprint template matching the second fingerprint data, and establish and store a correspondence between the application and the fingerprint identification area a 2.

It is understood that in the illustrated embodiment, steps 019 through 022 are performed before step 011, which is merely exemplary. In addition, it can be further understood that steps 019 to 022 have no absolute precedence relationship with step 011, and steps 019 to 022 may also be performed after step 014, and as long as the electronic device 100 is in the unlocked state, the electronic device 100 may receive the user operation at any time to enter steps 019 to 022.

Specifically, the third operation may be a long-press operation on a blank portion of the display area a1 of the touch display screen 30, for example, a long-press operation of 1.5S, 2S, or 3S, or the like, in a case where the electronic device 100 is in the unlocked state and the touch display screen 30 displays the application icon. After the long press, the touch display screen 30 displays the fingerprint identification area a 2. The fourth operation may be a long-press and drag operation on the application icon, for example, the user may make the application icon movable by long-pressing the application icon and then drag the application icon into the fingerprint identification area a 2. It should be noted that the third operation and the fourth operation of "long press" and "drag" are only examples, and the third operation and the fourth operation may also be other touch manners, and are not limited herein.

It is understood that, in an example, if the user does not divide the fingerprint identification area a2 into a plurality of sub-areas A3, the user can drag the icon into the fingerprint identification area a2 after pressing the icon of the application program, and at this time, the fingerprint identification module 10 will obtain the second fingerprint data of the user. Then, the processor 20 determines whether the second fingerprint data matches any of the plurality of fingerprint templates, and if so, the processor 20 establishes a correspondence between the fingerprint template matching the second fingerprint data and the application, and establishes a correspondence between the application and the fingerprint identification area. That is to say, after having established the corresponding relation between fingerprint template and the application that corresponds with second fingerprint data, then can make when carrying out the fingerprint identification unblock, only the fingerprint template that first fingerprint data that fingerprint identification module 10 discerned and second fingerprint data match, just can open corresponding application when unblock electronic equipment. For example, if the application corresponding to the fingerprint template matching the second fingerprint data is WeChat, the electronic device will be unlocked and WeChat opened only when the first fingerprint data matches the fingerprint template matching the second fingerprint data, and only the electronic device will be unlocked if the first fingerprint data matches the other fingerprint templates.

In another example, if the user divides the fingerprint identification area a2 into a plurality of sub-areas A3 in advance, the user may drag an icon of an application program into any one of the sub-areas A3, and then the processor 20 may determine whether the second fingerprint data matches any one of the plurality of fingerprint templates, and if so, the processor 20 may establish a fingerprint template and an application program that match the second fingerprint data, and a correspondence between the fingerprint template that matches the second fingerprint data and the sub-area A3 where the application program is located, and may also establish a correspondence between the application program and the sub-area A3. It is to be understood that each sub-area A3 may be distinguished by a dashed line, a solid line, or a number in order to facilitate user identification of the plurality of sub-areas A3.

For example, referring to FIG. 12, in one example, a user divides the fingerprint identification area A2 into 4 sub-areas A3. In the figure, the user can drag the icon of the application into any one of the sub-areas a3 by long-pressing and dragging the icon of the application. Then, the fingerprint identification module 10 may obtain the second fingerprint data of the user, and if the second fingerprint data matches any one of the plurality of fingerprint templates, the processor 20 may establish and store a corresponding relationship between the fingerprint template matching the second fingerprint data and the application program, and establish and store a corresponding relationship between the fingerprint template matching the second fingerprint data and the corresponding sub-area a 3. That is, the fingerprint template matching the second fingerprint data has a one-to-one correspondence relationship with the application program and the corresponding sub-area A3, and when the fingerprint unlocking is performed, the electronic device is unlocked and the application program corresponding to the sub-area A3 is opened only when the acquired fingerprint data matches the fingerprint template corresponding to the application program and the fingerprint template corresponding to the sub-area A3 at the same time.

For example, in the figure, the user may drag the icon of the WeChat into the first sub-area A3, and then the fingerprint recognition module 10 may obtain the fingerprint data of the user, and if the fingerprint data matches any one of the fingerprint templates, the corresponding relationship between the fingerprint template matching the fingerprint and the WeChat and the corresponding sub-area A3 may be established and stored. When fingerprint unlocking is carried out, the electronic equipment is unlocked and the WeChat is opened only when the acquired fingerprint data is matched with the fingerprint template corresponding to the WeChat and the fingerprint template corresponding to the subregion A3. It is understood that if it is necessary to establish correspondence between other applications (such as news, telephone calls, photos, etc.) and the fingerprint template and the sub-area a3, the operation flow is consistent with the above description, and will not be repeated herein for the sake of avoiding redundancy.

In addition, it can be understood that, in the present embodiment, after dragging the icon of the application program into the fingerprint identification area a2, the icon in the original position still exists, so that when the user only performs unlocking, the user still enters the corresponding application program by clicking the desktop icon, and the user experience is improved.

In addition, in some embodiments, each sub-region A3 may also correspond to the same application, that is, the user may customize and set the application corresponding to each sub-region A3 to be the same or different, or to be partially the same or all of the same or different, and the details are not limited. In addition, the fingerprint templates corresponding to different sub-areas A3 may be the same or different, that is, in some embodiments, the user may touch different sub-areas A3 with the same finger to open the corresponding application while unlocking.

It will be appreciated that after the user has established the correspondence between the application and fingerprint identification area a2, the user may exit the custom function and enter the desktop by returning to the button.

Referring to fig. 13, in some embodiments, a method for controlling an application includes:

step 023: when a fifth operation on the touch display screen 30 is received, displaying a fingerprint identification area A2, wherein icons of at least one application program corresponding to the fingerprint identification area A2 are displayed in the fingerprint identification area A2;

and 024: when the sixth operation of the touch display screen 30 is received, the icon of the at least one application program is moved out of the fingerprint identification area, the corresponding relation between the at least one application program and the fingerprint identification area is released, and the corresponding relation between the at least one application program and the fingerprint template corresponding to the application program is released.

Referring to fig. 2, in some embodiments, step 023 and step 024 may both be implemented by processor 20. That is, the processor 20 is configured to control the touch display screen 30 to display the fingerprint identification area a2 when the touch display screen 30 receives the fifth operation. The processor 20 is further configured to, when the touch display screen 30 receives the sixth operation, control the touch display screen 30 to move the icon of the at least one application out of the fingerprint identification area a2 and release the corresponding relationship between the at least one application and the fingerprint template corresponding to the application.

Specifically, the fifth operation may be a long-press operation on a blank portion of the display area a1 of the touch display screen 30, for example, a long-press operation of 1.5S, 2S, or 3S, or the like, when the electronic device 100 is in the unlocked state and the touch display screen 30 displays the application icon. After the long press, the touch display screen 30 displays the fingerprint identification area a2 and an icon of an application corresponding to the fingerprint identification area a2 is displayed in the fingerprint identification area a 2. The sixth operation may be a dragging operation of the application icon located in the fingerprint identification area a2, for example, the user may drag the application icon in the fingerprint identification area a2 out of the fingerprint identification area a2, so as to release the corresponding relationship between the dragged application and the fingerprint identification area a 2.

It can be understood that, if the user does not divide the fingerprint identification area a2 into a plurality of sub-areas A3, the user can drag the icon directly out of the fingerprint identification area a2 to release the correspondence between the application program and the fingerprint identification area a2 and the correspondence between the application program and the fingerprint template corresponding to the application program. If the user divides the fingerprint identification area a2 into a plurality of sub-areas A3 in advance, the user can drag the icon of the application program in any one of the sub-areas A3 to the other area of the fingerprint, thereby removing the correspondence between the application program and the corresponding sub-area A3 and the correspondence between the application program and the fingerprint template corresponding to the application program, and also removing the correspondence between the sub-area A3 and the fingerprint template matching the second fingerprint data.

Referring to fig. 14, in one example, a user divides the fingerprint identification area a2 into 4 sub-areas A3. For example, in the figure, the first sub-area A3 corresponds to WeChat, the second sub-area A3 corresponds to take a picture, the third sub-area A3 corresponds to news, and the fourth sub-area A3 corresponds to telephone. For example, when the correspondence between the WeChat and the first subregion A3 needs to be released, the user may drag out the icon of the WeChat to the outside of the fingerprint identification region a2, thereby releasing the correspondence between the WeChat and the corresponding subregion A3 and the correspondence between the WeChat and the fingerprint template corresponding to the WeChat, and simultaneously releasing the correspondence between the subregion A3 and the fingerprint template corresponding to the WeChat. It is understood that the corresponding relationship between the application program in the other sub-area A3 and the corresponding sub-area A3 may be released by similar operations.

It is to be understood that in the illustrated embodiment, steps 023 and 024 are performed after step 014, which is merely exemplary. It is understood that step 023 and step 024 have no absolute precedence in step 014, and in some embodiments, step 023 and step 024 may be performed before step 011, and as long as electronic device 100 is in the unlocked state, electronic device 100 may receive the operation of the user at any time to enter step 023.

Referring to fig. 15, in the above embodiment, after the step 023 and before the step 024, the method for controlling the application program may further include the steps of:

step 025: when receiving a second touch operation on the fingerprint identification area a2, acquiring third fingerprint data of the user through the fingerprint identification module 10;

step 026: judging whether the third fingerprint data is matched with any one of the plurality of fingerprint templates;

upon determining that the third fingerprint data matches any of the plurality of fingerprint templates, go to step 024.

Referring to fig. 2, in some embodiments, step 025 can be implemented by the fingerprint recognition module 10, and step 026 can be implemented by the processor 20. That is, the fingerprint identification module 10 acquires the third fingerprint data of the user when receiving the second touch operation on the fingerprint identification area a 2. The processor 20 may be configured to determine whether the third fingerprint data matches any of the plurality of fingerprint templates, and the processor 20 may be further configured to release the correspondence between the at least one application program and the fingerprint identification area and release the correspondence between the at least one application program and the fingerprint template corresponding to the application program when it is determined that the third fingerprint data matches any of the plurality of fingerprint templates and when a sixth operation on the touch display screen 30 is received.

It should be noted that the second touch operation and the first touch operation may be touch operations of the user in the fingerprint identification area a2 by the same finger or different fingers, and it can be determined that the third fingerprint data matches any fingerprint template of the plurality of fingerprint templates as long as the third fingerprint data matches any fingerprint template. In addition, third fingerprint data can be the same or different with first fingerprint data, in an example, a plurality of fingerprint templates can include the fingerprint template of thumb, the fingerprint template of forefinger etc., first fingerprint data and third fingerprint data all can be when the thumb touches fingerprint identification area A2, the fingerprint data that fingerprint identification module 10 gathered, also can be when first fingerprint data is thumb touch fingerprint identification area A2, the fingerprint data that fingerprint identification module 10 gathered, when third fingerprint data is forefinger touch fingerprint identification area A2, the fingerprint data that fingerprint identification module 10 gathered.

Specifically, in the present embodiment, when it is necessary to release the correspondence between the application program and the fingerprint identification area a2, the user is required to perform fingerprint authentication in the fingerprint identification area a2, and the icon of the application program in the fingerprint identification area a2 can be dragged only when the acquired third fingerprint data matches the fingerprint template, and if authentication fails, the release operation cannot be performed. It can be understood that, at this time, the second touch operation does not need to be matched with the preset operation, and only the third fingerprint data needs to be matched with the fingerprint template.

In this way, when the corresponding relationship between the application program and the fingerprint identification area a2 is removed, secondary authentication of fingerprint identification is added, so that a user who does not enter a fingerprint can be prevented from removing the corresponding relationship between the application program and the fingerprint identification area a2 randomly or mistakenly, and the safety performance and the user experience are improved.

As mentioned above, the fingerprint recognition module 10 can be a capacitive fingerprint module 12, an optical fingerprint module 15, or an ultrasonic fingerprint module.

Referring to fig. 16, in one example, the fingerprint recognition module 10 is a capacitive fingerprint module 12. The electronic device 100 further comprises a cover plate 40. Along the light emitting direction of the touch display screen 30 (integrated with the display and touch functions), the touch display screen 30, the capacitive fingerprint module 12 and the cover plate 40 are sequentially stacked. The capacitive fingerprint module 12 and the cover plate 40 are bonded together through an optical adhesive layer 50, and the thickness of the optical adhesive layer 50 is 0.05 mm-0.01 mm. The capacitive fingerprint module 12 includes a substrate and a plurality of sensors (not shown) arranged in an array for forming capacitance with the surface of a finger, the sensors are fabricated on the substrate by a Thin Film Transistor (TFT) process, and the sensors may be made of a transparent material, such as indium tin oxide. When the user put the finger on apron 40, the surface of finger forms the electric capacity with a plurality of sensors in capacitanc fingerprint module 12 respectively, and the capacitance value of different electric capacities can be different along with the difference of the crest and the trough of fingerprint, and capacitanc fingerprint module 12 can form the fingerprint image according to the capacitance value of a plurality of electric capacities. Capacitive fingerprint module 12 is disposed below cover plate 40, and a receiving hole for placing a capacitive fingerprint does not need to be formed in display area a1 of electronic device 100, thereby facilitating the increase of screen occupation ratio of electronic device 100. Moreover, the sensor of the capacitive fingerprint module 12 is made of transparent materials, light rays emitted by the touch display screen 30 cannot be shielded by the sensor, and the influence on display of the touch display screen 30 can be avoided.

Referring to fig. 17, in another example, the fingerprint recognition module 10 is an optical fingerprint module 15. The optical fingerprint module 15 includes a photosensitive chip 150, and the photosensitive chip 150 includes a substrate 151 and a plurality of photosensitive pixel units 152 arranged on the substrate 151. The substrate 151 may be made of glass or a flexible polyimide material, and the light sensing pixel unit 152 may be fabricated on the substrate 151 using a TFT process. The optical fingerprint module 15 uses the touch screen 30 (e.g. OLED screen) as a light source. In the fingerprint input process, the touch display screen 30 emits light, the light emitted by the touch display screen 30 reaches the surface of the finger and is reflected, and the reflected light can be received by the photosensitive pixel unit 152. The light reflected by the peaks and the valleys has different reflection amounts, and the plurality of photosensitive pixel units 152 can receive the light with different reflection amounts. The optical fingerprint module 15 can form a fingerprint image according to the light received by the plurality of photosensitive pixel units 152.

Specifically, along the light emitting direction of the touch display screen 30, the optical fingerprint module 15, the touch display screen 30, and the cover plate 40 are stacked in sequence. Place optical fingerprint module 15 in touch display screen 30 below, can promote the screen of electronic equipment 100 and account for than. The touch display screen 30 includes a display surface 31 facing the user and a back surface 32 opposite the display surface 31. The substrate 151 is stacked on a side of the touch display screen 30 near the back surface 32, and the plurality of light-sensing pixel units 152 are located on a side of the substrate 151 facing the touch display screen 30. The optical fingerprint module 15 further comprises a collimating layer 153. The collimating layer 153 is located on a side of the back surface 32 away from the display surface 31, and the collimating layer 153 completely covers the photosensitive area of the photosensitive chip 150. The collimating layer 153 can transmit the light reflected by the finger to the photosensitive chip 150 to reduce the interference of stray light, and improve the quality of the fingerprint image acquired by the photosensitive chip 150. The thickness of the collimating layer 153 is 0.3mm to 0.5 mm. The collimating layer 153 includes a first surface 1532 facing the back side 32 and a second surface 1533 opposite the first surface 1532. The light reflected by the finger to the collimating layer 153 is transmitted to the second surface 1533 through the first surface 1532, and is emitted from the second surface 1533 to the photosensitive chip 150, and is focused on the photosensitive chip 150, so that the photosensitive chip 150 can obtain an image of the fingerprint. A first optical glue layer 61 is arranged between the first surface 1532 of the collimating layer 153 and the back surface 32. The first optical adhesive layer 61 can adhere the collimating layer 153 to the touch display screen 30, the first optical adhesive layer 61 has high transmittance, and light reflected by a finger can be incident on the photosensitive chip 150 through the first optical adhesive layer 61. A second optical adhesive layer 62 is disposed between the second surface 1533 of the collimating layer 153 and the photosensitive chip 150, the collimating layer 153 is adhered to the photosensitive chip 150 by the second optical adhesive layer 62, the second optical adhesive layer 62 also has a high transmittance, and light reflected by a finger can sequentially penetrate through the first optical adhesive layer 61 and the second optical adhesive layer 62 and be incident on the photosensitive chip 150.

Illustratively, the collimating layer 153 has a plurality of through holes 1531 formed thereon, and the plurality of through holes 1531 are used for focusing the light reflected by the finger on the light sensing chip 150. The plurality of through holes 1531 penetrates from the first surface 1532 to the second surface 1533. A plurality of through holes 1531 are arranged in an array on the collimating layer 153, with at least one through hole 1531 for each light-sensitive pixel cell 152, such that at least one through hole 1531 is present to focus light onto a light-sensitive pixel cell 152. Illustratively, each light-sensing pixel cell 152 corresponds to two or more through holes 1531, which prevents light passing through the through holes 1531 from deviating from the light-sensing pixel cell 152. Of course, in other examples, the collimating layer 153 may also be a convex lens, a concave lens, a combination of a convex lens and a concave lens, and the like.

Further, the fingerprint identification module 10 further includes an infrared filter 154, the infrared filter 154 is attached to one side of the collimating layer 153 away from the photosensitive chip 150, and the infrared filter 154 is used for filtering out infrared rays. In this way, each photosensitive pixel unit 152 can only receive visible light, and interference of infrared light to fingerprint image acquisition can be avoided.

Referring to FIG. 18, the present application also provides a non-transitory computer readable storage medium 200 containing computer readable instructions. The computer readable instructions, when executed by the processor 300, cause the processor 300 to execute the control method of the application program according to any one of the above embodiments. For example, referring to fig. 1, the computer readable instructions, when executed by the processor 300, cause the processor 300 to perform the steps of:

step 011: under the condition that the electronic device 100 is locked and receives a first touch operation on the fingerprint identification area a2, acquiring first fingerprint data of a user through the fingerprint identification module 10;

step 012: judging whether the first fingerprint data is matched with any one of the plurality of fingerprint templates; and

step 013: when the first fingerprint data is matched with any one of the plurality of fingerprint templates, judging whether the fingerprint template matched with the first fingerprint data corresponds to an application program;

step 014: when the fingerprint template matching the first fingerprint data corresponds to an application, the electronic device 100 is unlocked and the application corresponding to the fingerprint template is opened.

It will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program, which can be stored in a non-volatile computer readable storage medium, and when executed, can include the processes of the above embodiments of the methods. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), or the like.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example" or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and the scope of the preferred embodiments of the present application includes other implementations in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present application.

Although embodiments of the present application have been shown and described above, it is to be understood that the above embodiments are exemplary and not to be construed as limiting the present application, and that changes, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present application.

Claims (13)

1. The electronic equipment is characterized by comprising a touch display screen and a fingerprint identification module arranged below the touch display screen, wherein the fingerprint identification module corresponds to a fingerprint identification area on the touch display screen and is positioned in a display area of the touch display screen, the fingerprint identification area corresponds to at least one application program, a plurality of fingerprint templates are preset in the electronic equipment, and the plurality of fingerprint templates correspond to at least one application program;

the control method of the application program comprises the following steps:

under the condition that the electronic equipment is locked and when a first touch operation on the fingerprint identification area is received, acquiring first fingerprint data of a user through the fingerprint identification module;

determining whether the first fingerprint data matches any of the plurality of fingerprint templates;

when the first fingerprint data is matched with any one of the plurality of fingerprint templates, judging whether the fingerprint template matched with the first fingerprint data corresponds to one application program;

when the fingerprint template matched with the first fingerprint data corresponds to one application program, unlocking the electronic equipment and starting the application program corresponding to the fingerprint template;

when receiving the first touch operation to the fingerprint identification area, after the step of obtaining the first fingerprint data of the user through the fingerprint identification module, the control method of the application program comprises the following steps:

judging whether the first touch operation is matched with a preset operation or not;

when the first touch operation is matched with the preset operation and the fingerprint template matched with the first fingerprint data corresponds to one application program, unlocking the electronic equipment and starting the application program;

the fingerprint identification area comprises a plurality of sub-areas, each sub-area corresponds to one fingerprint template, and the sub-areas, the application programs and the fingerprint templates are in one-to-one correspondence, wherein whether the first touch operation is matched with a preset operation or not is judged to judge which sub-area the user touches;

the step of judging whether the first touch operation is matched with a preset operation comprises the following steps:

judging whether the ratio of the touch area of the first touch operation in the sub-area to the whole touch area of the first touch operation in the fingerprint identification area is larger than or equal to a preset value or not;

when the ratio is larger than or equal to the preset value, determining that the first touch operation is matched with the preset operation so as to determine which sub-area the user touches;

when the first touch operation is matched with the preset operation and the fingerprint template matched with the first fingerprint data corresponds to one application program, unlocking the electronic device and starting the application program, including:

when the sub-area touched by the user is determined, and the fingerprint template matched with the first fingerprint data corresponds to the sub-area and also corresponds to the application program corresponding to the sub-area, unlocking the electronic equipment and entering the corresponding application program.

2. The method for controlling an application program according to claim 1, further comprising:

unlocking the electronic device but not opening the application when the fingerprint template matching the first fingerprint data does not correspond to one of the applications.

3. The method for controlling an application program according to claim 1, further comprising:

when a first operation on the touch display screen is received, displaying the fingerprint identification area;

when a second operation on the touch display screen is received, the fingerprint identification area is divided into the plurality of sub-areas.

4. The method for controlling an application program according to claim 1, further comprising:

when a third operation on the touch display screen is received, displaying the fingerprint identification area;

when a fourth operation on the touch display screen is received, moving the icon of the application program to the fingerprint identification area and collecting second fingerprint data of the user;

judging whether the second fingerprint data is matched with any one of the plurality of fingerprint templates;

when the second fingerprint data is matched with any one of the plurality of fingerprint templates, establishing and storing a corresponding relation between the application program and the fingerprint template matched with the second fingerprint data, and a corresponding relation between the fingerprint identification area and the fingerprint template matched with the second fingerprint data, and establishing and storing a corresponding relation between the application program and the fingerprint identification area.

5. The method for controlling an application according to claim 1, comprising:

when a fifth operation on the touch display screen is received, displaying the fingerprint identification area, wherein icons of at least one application program corresponding to the fingerprint identification area are displayed in the fingerprint identification area;

when a sixth operation on the touch display screen is received, moving the icon of at least one application program out of the fingerprint identification area, releasing the corresponding relation between the at least one application program and the fingerprint identification area, and releasing the corresponding relation between the at least one application program and the fingerprint template corresponding to the application program.

6. The method for controlling the application program according to claim 5, wherein after the step of displaying the fingerprint identification area when receiving the fifth operation on the touch display screen, and before the step of moving the icon of at least one of the application programs out of the fingerprint identification area and releasing the corresponding relationship between at least one of the application programs and the fingerprint template corresponding to the application program when receiving the sixth operation on the touch display screen, the method for controlling the application program comprises:

when a second touch operation on the fingerprint identification area is received, acquiring third fingerprint data of the user through the fingerprint identification module;

determining whether the third fingerprint data matches any of the plurality of fingerprint templates;

when the third fingerprint data is determined to be matched with any one of the plurality of fingerprint templates and a sixth operation on the touch display screen is received, moving the icon of at least one application program out of the fingerprint identification area, and releasing the corresponding relation between the at least one application program and the fingerprint identification area and the corresponding relation between the at least one application program and the fingerprint template corresponding to the application program.

7. An electronic device is characterized by comprising a touch display screen, a processor and a fingerprint identification module arranged below the touch display screen, wherein the fingerprint identification module corresponds to a fingerprint identification area on the touch display screen and is positioned in a display area of the touch display screen, the fingerprint identification area corresponds to at least one application program, a plurality of fingerprint templates are preset in the electronic device, and the plurality of fingerprint templates correspond to at least one application program;

under the condition that the electronic equipment is locked and the touch display screen receives a first touch operation on the fingerprint identification area, the fingerprint identification module is used for acquiring first fingerprint data of a user;

the processor is used for judging whether the first fingerprint data is matched with any one of the plurality of fingerprint templates and judging whether the fingerprint template matched with the first fingerprint data corresponds to one application program when the first fingerprint data is matched with any one of the plurality of fingerprint templates and unlocking the electronic equipment and starting the application program corresponding to the fingerprint template when the fingerprint template matched with the first fingerprint data corresponds to one application program;

the processor is used for judging whether the first touch operation is matched with a preset operation or not and unlocking the electronic equipment and starting the application program when the first touch operation is matched with the preset operation and the fingerprint template matched with the first fingerprint data corresponds to one application program;

the fingerprint identification area comprises a plurality of sub-areas, each sub-area corresponds to one application program, and the sub-areas, the application programs and the fingerprint templates are in one-to-one correspondence, wherein whether the first touch operation is matched with a preset operation or not is judged to judge which sub-area the user touches;

the processor is further configured to determine whether a ratio of a touch area of the first touch operation in the sub-area to a total touch area of the first touch operation in the fingerprint identification area is greater than or equal to a preset value, and when the ratio is greater than or equal to the preset value, determine that the first touch operation matches the preset operation to determine which sub-area the sub-area touched by the user is;

the fingerprint identification area comprises a plurality of sub-areas, and each sub-area corresponds to one application program;

the processor is further configured to determine whether a ratio of a touch area of the first touch operation in the sub-area to a whole touch area of the first touch operation in the fingerprint identification area is greater than or equal to a preset value, and determine that the first touch operation is matched with the preset operation when the ratio is greater than or equal to the preset value;

the processor is further configured to unlock the electronic device and enter a corresponding application program when the sub-area touched by the user is determined, and the fingerprint template matched with the first fingerprint data corresponds to the sub-area and also corresponds to the application program corresponding to the sub-area.

8. The electronic device of claim 7, wherein the processor is configured to unlock the electronic device but not open the application when the fingerprint template matching the first fingerprint data does not correspond to one of the applications.

9. The electronic device of claim 7, wherein the processor is configured to control the touch display to display the fingerprint identification area when the touch display receives a first operation, and control the touch display to divide the fingerprint identification area into the plurality of sub-areas when the touch display receives a second operation.

10. The electronic device according to claim 7, wherein the processor is further configured to control the touch display to display the fingerprint identification area when the touch display receives a third operation, control the touch display to move the icon of the application to the fingerprint identification area and collect second fingerprint data of the user through the fingerprint identification module when the touch display receives a fourth operation, determine whether the second fingerprint data matches any one of the plurality of fingerprint templates, and establish and store a correspondence relationship between the application and a fingerprint template matching the second fingerprint data and a correspondence relationship between the fingerprint identification area and a fingerprint template matching the second fingerprint data when the second fingerprint data matches any one of the plurality of fingerprint templates, and establishing and storing the corresponding relation between the application program and the fingerprint identification area.

11. The electronic device according to claim 7, wherein the processor is further configured to control the touch display screen to display the fingerprint identification area when the touch display screen receives a fifth operation, an icon of at least one application corresponding to the fingerprint identification area is displayed in the fingerprint identification area, and control the touch display screen to move the icon of at least one application out of the fingerprint identification area and release the corresponding relationship between at least one application and the fingerprint template corresponding to the application when the touch display screen receives a sixth operation.

12. The electronic device of claim 11, wherein the fingerprint identification module is further configured to obtain third fingerprint data of the user when receiving a second touch operation on the fingerprint identification area;

the processor is further configured to determine whether the third fingerprint data matches any of the plurality of fingerprint templates, and when it is determined that the third fingerprint data matches any of the plurality of fingerprint templates and a fifth operation on the touch display screen is received, move at least one icon of the application out of the fingerprint identification area and remove a correspondence between the at least one application and the fingerprint template corresponding to the application.

13. A non-transitory computer-readable storage medium containing computer-readable instructions, wherein the computer-readable instructions, when executed by a processor, cause the processor to execute the control method of the application program according to any one of claims 1 to 6.

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