CN109151305B - Method for controlling mobile terminal to continuously shoot, storage device and mobile terminal - Google Patents

Abstract

The invention discloses a method for controlling a mobile terminal to continuously shoot, a storage device and the mobile terminal, wherein the method comprises the following steps: when the operation of continuously touching the screen is detected, generating 1 first level signal and N-1 second level signals according to the touch times N; and controlling the mobile terminal to start to photograph through the first level signal, and controlling the mobile terminal to continue to photograph for N-1 times through the N-1 second level signals. The invention solves the problem that the conventional mobile terminal cannot effectively recognize the loss of the photo shooting times caused by the screen touch operation.

Description

Method for controlling mobile terminal to continuously shoot, storage device and mobile terminal

Technical Field

The invention relates to the technical field of mobile terminals, in particular to a method for controlling a mobile terminal to continuously shoot, a storage device and the mobile terminal.

Background

At present, people often take pictures with mobile devices such as mobile phones and the like, especially when the people face wonderful lenses, people often want to catch each mirror image, which requires that the mobile terminal of the mobile phone has a sensitive and fast continuous shooting capability, but after the user continuously and fast triggers the shooting of the existing mobile terminal, because the speed is too fast, the processor cannot effectively recognize and read the triggering action to control the camera to shoot, and the target lens is easily missed. That is, although the user quickly touches or presses the screen-taking key enough, the taken picture is less than the number of presses, resulting in a feeling that the picture is lost.

Therefore, the prior art has yet to be modified and developed.

Disclosure of Invention

The invention aims to provide a method for controlling a mobile terminal to continuously shoot, a storage device and the mobile terminal, and aims to solve the problem that the shooting times of pictures are lost due to the fact that screen touch operation cannot be effectively identified in the conventional mobile terminal.

The technical scheme of the invention is as follows:

a method for controlling a mobile terminal to continuously take pictures comprises the following steps:

detecting the operation of a touch screen when the mobile terminal is in a photographing mode;

when the operation of continuously touching the screen is detected, generating 1 first level signal and N-1 second level signals according to the touch times N;

and controlling the mobile terminal to start to photograph through the first level signal, and controlling the mobile terminal to continue to photograph for N-1 times through the N-1 second level signals.

The method for controlling the mobile terminal to continuously photograph is characterized in that the step of controlling the mobile terminal to start photographing through the first level signal and controlling the mobile terminal to continue photographing for N-1 times through the N-1 second level signals comprises the following steps:

generating N-1 clock control nodes through the N-1 second level signals;

and controlling the mobile terminal to start to photograph according to the first level signal and photograph 1 time on each of the N-1 clock control nodes.

The method for controlling the mobile terminal to continuously take the picture is characterized in that the first level signal is lower than the second level signal.

The method for controlling the mobile terminal to continuously photograph comprises the steps of generating a pulse signal every time the screen is touched, controlling an initial pulse signal to generate a first level signal, and controlling a pulse signal behind the initial pulse signal to generate a second level signal.

According to the method for controlling the mobile terminal to continuously take the pictures, when the operation of touching the screen once is detected, the mobile terminal is controlled to take the pictures for 1 time.

A memory device having a plurality of instructions stored thereon, wherein the instructions are adapted to be loaded by a processor and to perform the steps of:

detecting the operation of a touch screen when the mobile terminal is in a photographing mode;

when the operation of continuously touching the screen is detected, generating 1 first level signal and N-1 second level signals according to the touch times N;

and controlling the mobile terminal to start to photograph through the first level signal, and controlling the mobile terminal to continue to photograph for N-1 times through the N-1 second level signals.

The storage device of, wherein the instructions are adapted to be loaded by a processor and further perform:

generating N-1 clock control nodes through the N-1 second level signals;

and controlling the mobile terminal to start to photograph according to the first level signal and photograph 1 time on each of the N-1 clock control nodes.

The storage device of, wherein the instructions are adapted to be loaded by a processor and further perform:

and generating a pulse signal every time of the operation of touching the screen, controlling the initial pulse signal to generate a first level signal, and controlling the pulse signal after the initial pulse signal to generate a second level signal.

The storage device of, wherein the instructions are adapted to be loaded by a processor and further perform:

and when the operation of touching the screen for a single time is detected, controlling the mobile terminal to take a picture for 1 time.

A mobile terminal, comprising:

a processor adapted to implement instructions; and

the storage device is suitable for storing a plurality of instructions which are suitable for being loaded by the processor and executing the method for controlling the mobile terminal to continuously take the pictures.

Has the advantages that: the method for controlling the mobile terminal to continuously shoot provided by the invention converts N times of touch screen operation into 1 first level signal and N-1 second level signals, controls the mobile terminal to start shooting according to the first level signal, and controls the mobile terminal to shoot for N-1 times according to the second level signal, thereby shooting for N times and obtaining N pictures with the same number of times as the touch screen. The invention solves the problem that the conventional mobile terminal cannot effectively recognize the loss of the photo shooting times caused by the screen touch operation.

Drawings

Fig. 1 is a flowchart illustrating a method for controlling a mobile terminal to continuously photograph according to a preferred embodiment of the present invention.

Fig. 2 is a block diagram of a mobile terminal according to a preferred embodiment of the present invention.

Detailed Description

The invention provides a method for controlling a mobile terminal to continuously shoot, a storage device and the mobile terminal, and the invention is further described in detail below in order to make the purpose, technical scheme and effect of the invention clearer and clearer. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides a method for controlling a mobile terminal to continuously take pictures, wherein as shown in figure 1, the method comprises the following steps:

s1, when the mobile terminal is in the photographing mode, detecting the operation of the touch screen;

s2, when the operation of continuously touching the screen is detected, generating 1 first level signal and N-1 second level signals according to the touch times N;

and S3, controlling the mobile terminal to start to take pictures through the first level signal, and controlling the mobile terminal to continue to take pictures for N-1 times through the N-1 second level signals.

In step S1, it is first required to ensure that the mobile terminal is in the photographing mode, and when the mobile terminal is in the photographing mode, that is, when it is detected that the camera is started, the mobile terminal constantly monitors the screen to see whether there is an operation of continuously and rapidly touching the screen, specifically, whether there is an operation of continuously and rapidly touching a photographing trigger area on the screen is detected, and if so, it indicates that the user needs to continuously and rapidly photograph the mobile terminal, and then the subsequent steps are performed; and if the operation of the photographing triggering area on the quick touch screen is not detected, the state of the monitoring screen is continuously kept, and if the mobile terminal is judged not to be in the photographing mode, the operation is executed according to an operation instruction in the prior art.

In step S2, when the operation of continuously touching the screen is detected, 1 first level signal and N-1 second level signals are generated according to the number of touches N, where the generation of the second level signals is a dynamic process, that is: when the user continuously touches the screen for 1 time, 1 second level signal is added, the touch screen operation is continuously carried out, and the number of the second level signals is continuously increased by 1 and increased progressively; and reducing 1 second level signal when the mobile terminal is controlled to photograph for 1 time, and continuously controlling the mobile terminal to photograph, continuously reducing 1 second level signal until the number of the second level signals is reduced to zero.

In the invention, the first level signal is different from the second level signal and is used for distinguishing the triggering of the photographing starting action and the subsequent continuous photographing action, and the N-1 second level signals can be the same or different, preferably, the N-1 second level signals have the same size so as to be convenient for the detection processing of the processor. Preferably, the first level signal is lower than the second level signal, that is, when the first level signal is detected, the photographing is triggered to start and the photographing is continued when the second level signal is detected, for example, the first level signal may be set to 0V, and the second level signals are both 1.8V.

In the step S3, the mobile terminal is controlled to start photographing through the first level signal, and the mobile terminal is controlled to continue photographing for N-1 times through the N-1 second level signals, that is, the first level signal is a trigger point for continuous photographing, and then photographing control is continued to be performed on the mobile terminal through the subsequent N-1 second level signals, and each second level signal controls photographing for 1 time, so that total N times of photographing are realized, and N photos are also obtained.

In the method for controlling the mobile terminal to continuously photograph, because a pulse signal is generated every time the screen is touched, the first level signal and the second level signal are both generated by the control of the pulse signal, and preferably, the intensity of the pulse signal can be set to be 1.2V. Specifically, an initial pulse signal is controlled to generate a first level signal, a pulse signal after the initial pulse signal is controlled to generate a second level signal, namely, the first pulse signal is controlled to generate the first level signal just at the beginning, the mobile terminal is controlled to start photographing while the first level signal is generated, and then the second level signal is correspondingly generated by a pulse signal generated by subsequent touch operation to control the mobile terminal to perform subsequent photographing action.

Preferably, the step S3 specifically includes:

s31, generating N-1 clock control nodes through the N-1 second level signals;

and S32, controlling the mobile terminal to start to take pictures according to the first level signal and take pictures on the N-1 clock control nodes for 1 time respectively.

N-1 second level signals generate N-1 clock control nodes in sequence according to generation, and the clock control node of the first level signal is the current time, so that the mobile terminal is controlled by the clock control node to shoot according to the first level signal, then the mobile terminal shoots on the N-1 clock control nodes corresponding to the N-1 second level signals, and the subsequent N-1 touch screen operations are effectively and orderly distinguished to control the mobile terminal to shoot, so that the shooting is carried out on the current time and the subsequent N-1 time points, N pictures are shot in total, and the condition that omission or the shooting frequency is less than the touch screen frequency is avoided.

According to the method for controlling the mobile terminal to continuously take the pictures, when the operation of touching the screen once is detected, the mobile terminal is controlled to take the pictures for 1 time.

Based on the above method, the present invention further provides a storage device having a plurality of instructions stored thereon, wherein the instructions are adapted to be loaded by a processor and to perform the following steps:

detecting the operation of a touch screen when the mobile terminal is in a photographing mode;

when the operation of continuously touching the screen is detected, generating 1 first level signal and N-1 second level signals according to the touch times N;

and controlling the mobile terminal to start to photograph through the first level signal, and controlling the mobile terminal to continue to photograph for N-1 times through the N-1 second level signals.

The storage device of, wherein the instructions are adapted to be loaded by a processor and further perform:

generating N-1 clock control nodes through the N-1 second level signals;

and controlling the mobile terminal to start to photograph according to the first level signal and photograph 1 time on each of the N-1 clock control nodes.

The storage device of, wherein the instructions are adapted to be loaded by a processor and further perform:

and generating a pulse signal every time of the operation of touching the screen, controlling the initial pulse signal to generate a first level signal, and controlling the pulse signal after the initial pulse signal to generate a second level signal.

The storage device of, wherein the instructions are adapted to be loaded by a processor and further perform:

and when the operation of touching the screen for a single time is detected, controlling the mobile terminal to take a picture for 1 time.

Based on the above method, the present invention further provides a mobile terminal, wherein the method includes:

a processor 100 adapted to implement instructions; and

the storage device 200 is adapted to store a plurality of instructions adapted to be loaded by the processor and to perform the method of controlling a mobile terminal to continuously take a picture as described above.

Technical details and advantages with respect to the above mobile terminal and storage device have been set forth in the above method and will not be described again here.

In summary, the method for controlling the mobile terminal to continuously photograph according to the present invention converts N times of operations of touching the screen into 1 first level signal and N-1 second level signals, controls the mobile terminal to start photographing according to the first level signal, and controls the mobile terminal to photograph N-1 times according to the second level signal, so as to photograph N times, and obtain N photographs with the same number of times as that of touching the screen. The invention solves the problem that the conventional mobile terminal cannot effectively recognize the loss of the photo shooting times caused by the screen touch operation.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (10)

1. A method for controlling a mobile terminal to continuously shoot is characterized by comprising the following steps:

detecting the operation of a touch screen when the mobile terminal is in a photographing mode;

when the operation of continuously touching the screen is detected, generating 1 first level signal and N-1 second level signals according to the touch times N;

controlling the mobile terminal to start to shoot through the first level signal, and controlling the mobile terminal to continue to shoot for N-1 times through the N-1 second level signals;

when the touch screen operation is detected to be continued for 1 time, adding 1 second level signal, and when the touch screen operation is detected to be continued, continuously adding 1 to the number of the second level signals to increase progressively; and reducing 1 second level signal when the mobile terminal is controlled to photograph for 1 time, and continuously controlling the mobile terminal to photograph, and continuously reducing 1 second level signal until the number of the second level signals is reduced to zero.

2. The method of claim 1, wherein the step of controlling the mobile terminal to start photographing through the first level signal and controlling the mobile terminal to continue photographing for N-1 times through the N-1 second level signals comprises:

generating N-1 clock control nodes through the N-1 second level signals;

and controlling the mobile terminal to start to photograph according to the first level signal and photograph 1 time on each of the N-1 clock control nodes.

3. The method of claim 1, wherein the first level signal is lower than the second level signal.

4. The method of claim 1, wherein each touch operation of the screen generates a pulse signal, and the initial pulse signal is controlled to generate a first level signal, and the pulse signal after the initial pulse signal is controlled to generate a second level signal.

5. The method of claim 1, wherein when the operation of touching the screen once is detected, the mobile terminal is controlled to take 1 photo.

6. A memory device having a plurality of instructions stored thereon, the instructions adapted to be loaded by a processor and to perform the steps of:

detecting the operation of a touch screen when the mobile terminal is in a photographing mode;

when the operation of continuously touching the screen is detected, generating 1 first level signal and N-1 second level signals according to the touch times N;

controlling the mobile terminal to start to shoot through the first level signal, and controlling the mobile terminal to continue to shoot for N-1 times through the N-1 second level signals;

when the touch screen operation is detected to be continued for 1 time, adding 1 second level signal, and when the touch screen operation is detected to be continued, continuously adding 1 to the number of the second level signals to increase progressively; and reducing 1 second level signal when the mobile terminal is controlled to photograph for 1 time, and continuously controlling the mobile terminal to photograph, and continuously reducing 1 second level signal until the number of the second level signals is reduced to zero.

7. The memory device of claim 6, wherein the instructions are adapted to be loaded by a processor and further perform:

generating N-1 clock control nodes through the N-1 second level signals;

and controlling the mobile terminal to start to photograph according to the first level signal and photograph 1 time on each of the N-1 clock control nodes.

8. The memory device of claim 6, wherein the instructions are adapted to be loaded by a processor and further perform:

and generating a pulse signal every time of the operation of touching the screen, controlling the initial pulse signal to generate a first level signal, and controlling the pulse signal after the initial pulse signal to generate a second level signal.

9. The memory device of claim 6, wherein the instructions are adapted to be loaded by a processor and further perform:

and when the operation of touching the screen for a single time is detected, controlling the mobile terminal to take a picture for 1 time.

10. A mobile terminal, comprising:

a processor adapted to implement instructions; and

a storage device adapted to store a plurality of instructions, the instructions being adapted to be loaded by a processor and to perform the method for controlling a mobile terminal to continuously take pictures as claimed in any one of claims 1 to 5.

Images