CN107239096B - Method and device for realizing timer in electronic equipment and electronic equipment - Google Patents

Abstract

The invention provides a method and a device for realizing a timer in electronic equipment and the electronic equipment, wherein the method comprises the steps of setting up the timer, wherein the timer comprises a plurality of time nodes and a plurality of continuous timing intervals formed by the time nodes; associating each of the time nodes with at least one application in the electronic device; starting the timer, and timing each timing interval in sequence; when the timing is carried out to each time node, running the application program associated with the time node. The user can realize continuous timing of a plurality of timing intervals, the application program automatically runs and displays when the timing is carried out to the preset time node, the user does not need to switch the application program or re-set a new timer, the continuity of user operation can be improved, and the user experience is improved.

Description

Method and device for realizing timer in electronic equipment and electronic equipment

Technical Field

The invention relates to the technical field of mobile terminals, in particular to a method and a device for realizing a timer in electronic equipment and the electronic equipment.

Background

In the current electronic equipment, a timer function is set in a clock application to help a user to count time in a forward direction or a reverse direction and remind the user, so that the user can conveniently master the time of an event.

However, in the prior art, the timer functions can only be set up one by one, that is, a user can only set up a timing interval for a timing event, then start timing, start an alarm to remind the user when the timing is finished, and set up the next timer for the next timing time after the user confirms that the timing is stopped, and need to reset the timer, so that the plurality of timers do not have continuity, and when the user uses the electronic device to perform a plurality of timing events, the user needs to repeatedly switch among the timers and other application programs, that is, the continuity among the plurality of events is destroyed, and the operation of the user is also inconvenient.

Disclosure of Invention

In light of the above deficiencies of the prior art, it is desirable to provide a method and an apparatus for implementing a timer in an electronic device, and an electronic device.

The invention provides a method for realizing a timer in electronic equipment, which comprises the following steps:

setting up a timer, wherein the timer comprises a plurality of time nodes and a plurality of continuous timing intervals formed by the time nodes;

preferably, the timer comprises at least four time nodes and at least three consecutive timing intervals formed by the at least four time nodes;

associating each of the time nodes with at least one application in the electronic device;

starting the timer, and timing each timing interval in sequence;

when timing is carried out to each time node, running an application program associated with the time node;

when the timing is carried out to the time node, sending out prompt information;

when the timing is carried out to the last time node, sending out prompt information;

and after receiving a closing instruction of a user, closing the timer.

In an embodiment, the method further comprises:

and performing data refreshing or data caching on the application program associated with the time node in advance.

Specifically, the method further comprises:

setting up a child time node before the time node;

when the timing is carried out to the sub time node, carrying out data refreshing or data caching on the application program associated with the next time node of the sub time node

In one embodiment of the present invention, the substrate is,

said associating each said time node with at least one application in said electronic device comprises:

associating each of the time nodes with one or more files in the application;

or

Associating each of the time nodes with one or more functions in the application.

In one embodiment of the present invention, the substrate is,

the running and displaying the application program associated with the time node comprises:

opening one or more files in the application;

or

One or more functions in the application are executed.

In an embodiment, the method further comprises:

setting up a priority event;

automatically aborting the timer timing when the priority event occurs;

and when the priority event is ended, the timer continues to count time.

The invention also provides a device for realizing the timer in the electronic equipment, which comprises:

the timing unit is used for setting up a timer, and the timer comprises a plurality of time nodes and a plurality of continuous timing intervals formed by the time nodes;

preferably, the timer comprises at least four time nodes and at least three consecutive timing intervals formed by the at least four time nodes;

a processing unit to associate each of the time nodes with at least one application in the electronic device;

the processing unit is further configured to start the timer and time each of the timing intervals in sequence;

when timing is conducted to each time node, the processing unit is further used for controlling the electronic equipment to run an application program associated with the time node;

when the timing is carried out to the last time node, the processing unit is also used for controlling the electronic equipment to send out prompt information;

the processing unit is further used for closing the timer after receiving a closing instruction of a user.

In one embodiment of the present invention, the substrate is,

the processing unit is further used for carrying out data refreshing or data caching on the application program associated with the time node in advance.

Specifically, the timing unit is configured to set up a child time node before the time node of the timer;

when the timing is carried out to the sub time node, the processing unit is further used for controlling the electronic equipment to carry out data refreshing or data caching on the application program associated with the later time node of the sub time node.

In one embodiment of the present invention, the substrate is,

the processing unit is configured to associate each of the time nodes with at least one application in the electronic device, including:

associating each of the time nodes with one or more files in the application;

or

Associating each of the time nodes with one or more functions in the application.

In one embodiment of the present invention, the substrate is,

the processing unit is further configured to control the electronic device to run and display an application program associated with the time node, including:

opening one or more files in the application;

or

One or more functions in the application are executed.

The invention also provides electronic equipment, and the electronic equipment is provided with the device for realizing the timer in the electronic equipment.

The invention has the beneficial effects that:

according to the timer implementation method, the timer implementation device and the electronic equipment provided by the embodiment of the invention, a user can implement continuous timing of a plurality of timing intervals, the application program automatically runs and displays when the timing is carried out to the preset time node, the user does not need to switch the application program or re-set a new timer, and the application program can be cached in advance according to the preset time before being displayed, so that the waiting time of the user is reduced, the continuity of user operation can be improved, and the user experience is improved.

Drawings

Fig. 1 is a flowchart illustrating a method for implementing a timer in an electronic device according to an embodiment of the present invention;

fig. 2 is another schematic flow chart of a method for implementing a timer in an electronic device according to an embodiment of the present invention;

fig. 3 is an exemplary schematic diagram of an implementation method of a timer in an electronic device according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of an implementation apparatus of a timer in an electronic device according to an embodiment of the present invention.

Detailed Description

The following description is of some of the many possible embodiments of the invention and is intended to provide a basic understanding of the invention and is not intended to identify key or critical elements of the invention or to delineate the scope of the invention. It is easily understood that, according to the technical solution of the present invention, other alternative implementations may be suggested by those skilled in the art without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are merely illustrative of the technical aspects of the present invention, and should not be construed as all of the present invention or as limitations or limitations on the technical aspects of the present invention.

In the following description, for clarity and conciseness of description, not all of the components of the air conditioner control system are shown in the drawings, emphasis being placed upon illustrating the various components of the air conditioner control system that would be fully within the capabilities of one of ordinary skill in the art and the operation of many of which would be familiar and obvious to those of ordinary skill in the art.

The invention will be further described with reference to the accompanying drawings in which:

example 1:

fig. 1 to fig. 2 illustrate a method for implementing a timer in an electronic device, where the method is executed in an electronic device having a timer and other applications, and the method includes the following steps:

s10 sets up a timer, which includes a plurality of time nodes and a plurality of consecutive timing intervals formed by the time nodes.

Preferably, the timer comprises at least four time nodes and at least three consecutive timing intervals formed by the at least four time nodes;

illustratively, the at least four time nodes include a first time node, a second time node, a third time node, and a fourth time node, and the at least three consecutive timing intervals include a first timing interval, a second timing interval, and a third timing interval, the first timing interval being formed between the first time node and the second time node, the second timing interval being formed between the second time node and the third time node, and the third timing interval being formed between the third time node and the fourth time node. It is understood that the number of the time nodes and the number of the timing intervals may be set according to the actual requirement of the user, for example, 5 timing intervals or 100 timing intervals.

The method comprises the steps that a user opens a timer, an electronic device realizes a timer setting interface, the user can firstly set the timer with fixed duration, then the timer is divided into at least three continuous timing intervals according to the user self plan, and the at least three continuous timing intervals are formed by at least four time nodes of the timer; or the user can set up at least three timing intervals one by one, and the length of each timing interval is set up according to the planning of the user, so that a timer with fixed duration is formed by connection. The setting mode is nimble, and the user of being convenient for sets up according to different demands, and convenience of customers operates, and the user's demand of laminating more.

S20 associates each of the time nodes with at least one application in the electronic device.

The application may be a timer application in an electronic device and/or other applications, such as a video playback application, a social application, a document editing application, and so forth.

Specifically, the method further comprises the following steps:

s21 associates each of the time nodes with one or more files in the application program, or associates each of the time nodes with one or more functions in the application program. For example, a video file in a video playing application, a plurality of document files in a document editing application, a chat window with a friend in a social application, and a function in a timer application.

S30 starts the timer, and times each of the timing intervals in turn.

S40, when the timing is carried out to each time node, running and displaying the application program associated with the time node; or running in the background but not displaying the application associated with the time node for pre-caching, etc. Meanwhile, when the timing is carried out to each time node, prompt information is sent out, so that a user can master the progress of the timer, and the user can select pause, close and the like according to needs.

In a time interval, an application associated with the time node at which the time interval starts is run and displayed.

Specifically, the method further comprises the following steps:

s41 opens one or more files in the application program, or performs one or more functions in the application program. For example, opening a video file in a video playing application, opening a plurality of document files in a document editing application, opening a chat window with a friend in a social application, and resetting the timing time of a timer application.

S42 automatically suspends or stops running the application program associated with the previous time node when the timer is timed to the next time node, and hides it in the background. The user does not need to stop manually, the memory occupation is reduced, and the running smoothness of the electronic equipment is improved.

And S50 sending out prompt information when the timing is carried out to the last time node.

The prompt message may be, for example, a text prompt message displayed on the display interface of the electronic device, a vibration generated, or a prompt sound played.

And S60, closing the timer after receiving a closing instruction of the user.

Illustratively, the user starts a timer, starts timing a first timing interval, and runs and displays an application program associated with a first time node; when the timing of the first timing interval is finished, timing a second timing interval, and simultaneously automatically running and displaying an application program associated with a second time node; when the timing of the second timing interval is finished, starting timing the second timing interval, and simultaneously automatically running and displaying the application program associated with the second time node; when the timing of the timing interval in the third timing interval is finished, starting an alarm to remind a user or continuing to start timing the next timing interval, simultaneously running and displaying an application program associated with the next time node until the timing of the timer is finished, and then starting the alarm to remind the user; and after receiving a closing instruction of a user, closing the timer. Therefore, after the user starts the timer, the associated application programs can sequentially and automatically run according to the timing interval and are automatically switched to the next application program at the next time node, the user can directly perform corresponding operation on the application program, the user does not need to manually switch the application program, the timer does not need to be re-set again and the application program starts, the timing requirements of the user on a plurality of events are met, meanwhile, the continuity of user operation is improved, and the user experience is improved.

Optionally, in an embodiment of the present invention, before the running and displaying the application program associated with the time node, the method further includes the steps of:

s31 performs data refreshing or data caching on the application program associated with the time node in advance.

Illustratively, when the first timing interval is about to be timed out and a second time node is about to be reached, the data refreshing or the data caching is carried out on the application program associated with the second time node in advance. For example, caching a video file in a video playing application, refreshing the latest messages of a social application. Therefore, when the application program runs and displays, the latest data information or the cached files can be directly displayed, the waiting time of a user is reduced, the continuity of user operation is improved, and the user experience is improved.

Specifically, the step further comprises the steps of:

s22 setting up child time nodes before the time node;

and S32, when the timing is carried out to the child time node, carrying out data refreshing or data caching on the application program associated with the time node.

The sub-time nodes and the subsequent time nodes form sub-timing intervals, and the length of each sub-timing interval can be set according to the application program associated with the subsequent time node, for example, a longer sub-timing interval is set for a video playing application program to cache a larger video file in advance. Therefore, different data refreshing or data caching time is available before different application programs run, successful caching or refreshing of large files or data information can be guaranteed, occupation of the application programs on the memory can be reduced to the greatest extent for small files or data information, running efficiency and smoothness of the application programs are improved, and user experience is improved.

Optionally, in an embodiment of the present invention, before starting the timer, the method further includes the steps of:

setting a priority event, automatically stopping the timer for timing when the priority event occurs, and continuing timing when the priority event is ended.

Illustratively, the priority event is an incoming call, and when the incoming call is received in the process of timing, the timer is automatically stopped to time, and when the call is disconnected, the timer is continuously timed. Therefore, the method and the device can ensure timely processing of the priority events, can also ensure the accuracy and continuity of the timing of the timer, do not need a user to reset or restart the timer, ensure the continuity of the timing and improve the user experience.

In order that those skilled in the art will better understand the technical solution of the present invention, the following detailed description will be given of the technical solution of the present invention by means of specific examples.

Fig. 3 is an exemplary schematic diagram of a containment interface of the timer in the present embodiment. The user plans to work for 2 hours first, then rest for 1 hour, and finally work for 2 hours within 5 hours, and finally prompts the user after finishing. In the working timing interval, a document A is opened and edited, and in the rest timing interval, a video file B is opened and viewed. First, the user opens the timer application, displays the timer application setting interface, and sets up a timer, as shown in fig. 3, first adds the first time node a1 and the fourth time node a4 in the setting area a, slides the first time node a1 or directly inputs 05:00:00 in the setting area B1, and inputs 00 in the setting area B4: 00:00 the timing interval between the first time node a1 and the fourth time node a4 is 5 hours. The addition of the second time node A2 and the third time node A3 was continued by sliding the time nodes or entering 03:00:00 in the setup area B2 and 02:00:00 in the setup area B3 to make the first time interval 2 hours, the second time interval 1 hour, and the third time interval 2 hours. The first sub-time node A21 is added before the second time node A2, formed between the first sub-time node A21 and the second time node A2, and the input 03:30:00 is set in the setting zone B21, so that the first sub-timing interval is 30 minutes. The first time node A1 is associated with document A in the document editing application through setting area D1, the second time node A2 is associated with video file B in the video playback application through setting area D2, the third time node A3 is associated with document A in the document editing application through setting area D3, the fourth time node A4 is associated with the timer application through setting area D4, and is set to play alert sound function through setting area C.

The user starts by clicking on button E to start the timer, the document editing application associated with the first time node a1 is automatically launched and displayed and automatically opens document a, and the user starts working to edit document a. When the timer times out to the first child time node a21, the video playback application begins caching video file B in the background. When the user works for 2 hours, i.e., the timer counts up to the second time node a2, the video playback application associated with the second time node a2 automatically runs and displays, and automatically opens the playback video file B, while the document editing application is paused and hidden to the background. When the user takes a rest of 1 hour, i.e., the timer counts up to the third time node A3, the document editing application associated with the third time node A3 automatically runs and displays and automatically opens the document a, the user continues to work and continue editing the document a while the video playback application is paused and hidden to the background. When the user continues to work for two hours, namely the timer counts to the fourth time node A4, the timer application program associated with the fourth time node A4 automatically runs and displays, automatically plays the prompt sound to prompt the user that the timer is timed out, the user confirms and clicks the button H to close, the timer is closed, and the timing is finished. And when an incoming call is received in the timing process, the timer is automatically suspended, and when the call is ended, the button G is clicked to continue timing. During the time counting, the user can also click the button F to pause, pausing the timer.

According to the method for realizing the timer in the electronic equipment, provided by the embodiment of the invention, the user can realize continuous timing of the working time and the rest time, the application program automatically runs and displays in the timing process, the user does not need to switch or re-set a new timer, and the application program can be cached in advance according to the preset time before being displayed, so that the waiting time of the user is reduced, the continuity of user operation can be improved, and the user experience is improved.

Example 2:

fig. 4 is a device 40 for implementing a timer in an electronic device according to the present invention, where the device 40 includes a timing unit 41 and a processing unit 42.

The timing unit is used for setting up a timer, and the timer comprises a plurality of time nodes and a plurality of continuous timing intervals formed by the time nodes;

preferably, the timer comprises at least four time nodes and at least three consecutive timing intervals formed by the at least four time nodes;

a processing unit to associate each of the time nodes with at least one application in the electronic device;

the processing unit is further configured to start the timer and time each of the timing intervals in sequence;

when timing is conducted to each time node, the processing unit is further used for controlling the electronic equipment to run an application program associated with the time node; or running in the background but not displaying the application associated with the time node for pre-caching, etc. And meanwhile, when the timing is carried out to the time node, sending out prompt information.

When the timing is carried out to the last time node, the processing unit is also used for controlling the electronic equipment to send out prompt information;

the processing unit is further used for closing the timer after receiving a closing instruction of a user.

Optionally, in an embodiment of the present invention, the processing unit is further configured to perform data refreshing or data caching on an application program associated with the time node in advance.

Specifically, the timing unit is configured to set up a child time node before the time node of the timer;

when the timing is carried out to the sub time node, the processing unit is further used for controlling the electronic equipment to carry out data refreshing or data caching on the application program associated with the later time node of the sub time node.

Specifically, in one embodiment of the present invention,

the processing unit is configured to associate each of the time nodes with at least one application in the electronic device, including:

associating each of the time nodes with one or more files in the application;

or

Associating each of the time nodes with one or more functions in the application.

Correspondingly, the processing unit is further configured to control the electronic device to run and display the application program associated with the time node, including:

opening one or more files in the application;

or

One or more functions in the application are executed.

According to the device for realizing the timer in the electronic equipment, provided by the embodiment of the invention, a user can realize continuous timing of working time and rest time, the application program automatically runs and displays in the timing process, the user does not need to switch or re-set a new timer, and the application program can be cached in advance according to the preset time before being displayed, so that the waiting time of the user is reduced, the continuity of user operation can be improved, and the user experience is improved.

Example 3:

the embodiment of the invention provides electronic equipment, wherein the electronic equipment is provided with a device for realizing a timer in the electronic equipment as described in embodiment 2.

The electronic device can be a mobile phone, a computer, a tablet computer and the like.

According to the electronic equipment provided by the embodiment of the invention, a user can realize continuous timing of a plurality of timing intervals, the application program automatically runs and displays when the timing is carried out to the preset time node, the user does not need to switch the application program or re-set a new timer, and the application program can be cached in advance according to the preset time before being displayed, so that the waiting time of the user is reduced, the continuity of user operation can be improved, and the user experience is improved.

Of course, the foregoing is only a preferred embodiment of the invention and should not be taken as limiting the scope of the embodiments of the invention. The present invention is not limited to the above examples, and equivalent changes and modifications made by those skilled in the art within the spirit and scope of the present invention should be construed as being included in the scope of the present invention.

Claims (6)

1. A method for implementing a timer in an electronic device is characterized by comprising the following steps:

setting a timer, wherein the timer comprises a plurality of time nodes and a plurality of continuous timing intervals formed by the time nodes;

associating each of the time nodes with at least one application in the electronic device;

starting the timer, and timing each timing interval in sequence;

when timing is carried out to each time node, running an application program associated with the time node;

when the timing is carried out to the time node, sending out prompt information;

when the timing is carried out to the next time node, automatically suspending or stopping running the application program associated with the previous time node, and hiding the application program to the background;

prior to running an application associated with the time node, the method further comprises:

performing data refreshing or data caching on the application program associated with the time node in advance;

after said associating each said time node with at least one application in said electronic device, said method further comprises:

setting up a sub-time node before the time node, forming sub-timing intervals between the sub-time node and a subsequent time node, wherein the length of each sub-timing interval is set according to an application program associated with the subsequent time node;

when timing is carried out to the child time node, data refreshing or data caching is carried out on an application program associated with a time node after the child time node;

said associating each said time node with at least one application in said electronic device comprises:

associating each of the time nodes with one or more files in the application;

or

Associating each of the time nodes with one or more functions in the application;

the running the application program associated with the time node comprises:

opening one or more files in the application;

or

One or more functions in the application are executed.

2. The method of claim 1,

when the timing is carried out to the last time node, sending out prompt information;

and after receiving a closing instruction of a user, closing the timer.

3. The method according to claim 1 or 2, characterized in that the method further comprises:

setting up a priority event;

automatically aborting the timer timing when the priority event occurs;

and when the priority event is ended, the timer continues to count time.

4. An apparatus for implementing a timer in an electronic device, comprising:

the timing unit is used for setting up a timer, and the timer comprises a plurality of time nodes and a plurality of continuous timing intervals formed by the time nodes;

a processing unit to associate each of the time nodes with at least one application in the electronic device;

the processing unit is further configured to start the timer and time each of the timing intervals in sequence;

when timing is conducted to each time node, the processing unit is further used for controlling the electronic equipment to run an application program associated with the time node;

when the timing is carried out to the time node, the processing unit is also used for controlling the electronic equipment to send out prompt information;

when the timing is carried out to the next time node, automatically suspending or stopping running the application program associated with the previous time node, and hiding the application program to the background;

the processing unit is further used for carrying out data refreshing or data caching on the application program associated with the time node in advance before the application program associated with the time node is operated;

the timing unit is used for setting up sub-time nodes before the time node of the timer after associating each time node with at least one application program in the electronic equipment, sub-time nodes and subsequent time nodes form sub-timing intervals, and the length of each sub-timing interval is set according to the application program associated with the subsequent time node;

when the timing is carried out to the sub time node, the processing unit is further used for controlling the electronic equipment to carry out data refreshing or data caching on the application program associated with the later time node of the sub time node;

the processing unit is configured to associate each of the time nodes with at least one application in the electronic device, including:

associating each of the time nodes with one or more files in the application;

or

Associating each of the time nodes with one or more functions in the application;

the processing unit is further configured to control the electronic device to run an application program associated with the time node, including:

opening one or more files in the application;

or

One or more functions in the application are executed.

5. The apparatus of claim 4,

when the timing is carried out to the last time node, the processing unit is also used for controlling the electronic equipment to send out prompt information;

the processing unit is further used for closing the timer after receiving a closing instruction of a user.

6. An electronic device, characterized in that the electronic device is provided with the implementation device of the timer in the electronic device according to any one of claims 4 to 5.

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