CN107368252B - Mobile terminal, multi-application touch screen data processing method thereof and storage medium - Google Patents
Mobile terminal, multi-application touch screen data processing method thereof and storage medium Download PDFInfo
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- CN107368252B CN107368252B CN201710536519.5A CN201710536519A CN107368252B CN 107368252 B CN107368252 B CN 107368252B CN 201710536519 A CN201710536519 A CN 201710536519A CN 107368252 B CN107368252 B CN 107368252B
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- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
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Abstract
The invention discloses a mobile terminal, a multi-application touch screen data processing method thereof and a storage medium, wherein the method comprises the following steps: storing frequency values of data acquired from the touch screen corresponding to each function in the mobile terminal in advance; the mobile terminal detects the current starting and displaying function on the screen; according to the detected function which is started currently and displayed on the screen, a frequency value which is correspondingly adapted to the function which is started currently and displayed on the screen is obtained, the touch screen is controlled to feed back touch data at the correspondingly adapted frequency, and the data fed back by the touch screen is controlled to be sent at the frequency which is adapted to the function displayed on each screen. The invention sends the data fed back by the touch screen at the frequency which can be adapted to the application displayed on each screen, thereby effectively saving the energy consumption of the touch screen, reasonably utilizing the resources and being more beneficial to energy conservation.
Description
Technical Field
The invention relates to the field of mobile terminals, in particular to a mobile terminal, a multi-application touch screen data processing method and a storage medium thereof.
Background
At present, a touch screen is generally adopted by a mobile terminal as an input device, although compared with the traditional keyboard input, the input form is more diversified, and the input area is also more enlarged, because the current mobile terminal is increasingly large-screen, almost one surface of the whole mobile terminal is a touch screen and a display screen area; under such a condition, the mobile terminal often has a condition that two applications are operated simultaneously in one screen; for example, the upper part and the lower part of the screen of the mobile terminal are divided into two parts, the upper part is used for WeChat chat, and the lower part is used for playing games; the two applications use the touch screen in common.
However, there are problems in that: the processing requirements of each application on the data detected by the touch screen are different, and like game applications, users often need continuous touch operation, so that the touch screen is required to feed back touch data at a high frequency; and like the application of typing chat class, the typing speed generally can not reach more than one hundred characters per minute, therefore can require the touch-sensitive screen to feed back the touch data with very low frequency, even the touch-sensitive screen feeds back the touch data with higher frequency and believe can be handled and waste the system resource, promptly the touch-sensitive screen detection frequency among the prior art sets up unreasonablely, is unfavorable for energy-conservation.
Accordingly, the prior art is yet to be improved and developed.
Disclosure of Invention
The present invention provides a mobile terminal, a multi-application touch screen data processing method thereof, and a storage medium, aiming at the above-mentioned defects in the prior art. The invention sends the data fed back by the touch screen at the frequency which can be adapted to the application displayed on each screen, can reasonably utilize resources and is more beneficial to energy conservation.
The technical scheme adopted by the invention for solving the technical problem is as follows:
a multi-application touch screen data processing method of a mobile terminal comprises the following steps:
A. storing frequency values of data acquired from the touch screen corresponding to each function in the mobile terminal in advance;
B. the mobile terminal detects the current starting and displaying function on the screen;
C. according to the detected function which is started currently and displayed on the screen, a frequency value which is correspondingly adapted to the function which is started currently and displayed on the screen is obtained, the touch screen is controlled to feed back touch data at the correspondingly adapted frequency, and the data fed back by the touch screen is controlled to be sent at the frequency which is adapted to the function displayed on each screen.
The mobile terminal multi-application touch screen data processing method comprises the following specific steps:
a1, configuring a touch screen, a counter and a timer on the mobile terminal in advance;
a2, and storing frequency values of the data acquired from the touch screen corresponding to the functions in the mobile terminal in advance.
The multi-application touch screen data processing method of the mobile terminal, wherein the step B further comprises the following steps:
and B1, when the mobile terminal starts a certain function which needs to use the touch screen, clearing the counter and resetting the overtime time of the timer.
The multi-application touch screen data processing method of the mobile terminal, wherein the step B further comprises the following steps:
and B2, when the mobile terminal is closed and a certain function of the touch screen is needed, clearing the counter and resetting the overtime time of the timer.
The multi-application touch screen data processing method of the mobile terminal, wherein the step C further comprises:
and C1, when the timer is started, if the timer is overtime, acquiring data from the touch screen and distributing the data to each function.
The multi-application touch screen data processing method of the mobile terminal, wherein the step B1 comprises the following three steps:
b11, acquiring a function which is started currently and displayed on a screen, and acquiring a frequency value f of data acquired from the touch screen correspondingly;
b12, if any function needing to use the touch screen is not started at present, setting the overtime time of the timer as t; and starting a timer; wherein t = 1/f;
b13, if one or more functions of the touch screen required to be used are opened currently, obtaining frequency values f1, f2 and … … of data obtained from the touch screen corresponding to the opened functions; obtaining the greatest common divisor t of the reciprocal of the frequency values; setting the overtime time of a timer as t; if the counter is not started, the counter is reset and the counter is started, if the counter is started, the counter is reset, and the timer is restarted.
The multi-application touch screen data processing method of the mobile terminal, wherein the step B2 comprises the following steps:
b21, if the function is closed and the function of the touch screen is not needed, closing the timer;
b22, if only one function needing to use the touch screen is left after the function is closed, setting the overtime time of the timer as t; closing the counter and restarting the timer; wherein t =1/f, and f is a frequency value of data acquired from the touch screen corresponding to the remaining function of the touch screen;
b23, if a plurality of functions needing to be used by the touch screen are left after the function is closed, obtaining frequency values f1, f2 and … … of data obtained from the touch screen corresponding to the left functions; obtaining the greatest common divisor t of the reciprocal of the frequency values; setting the overtime time of a timer as t; the counter is cleared and a timer is started.
The multi-application touch screen data processing method of the mobile terminal, wherein the step C1 comprises the following steps:
c11, if only one function needing the touch screen is started currently, the data is directly transmitted to the function;
c12, if a plurality of functions needing to use the touch screen are started at present, adding one to the value of the counter, and directly transmitting the data to the corresponding functions; the corresponding functions refer to: 1/(t f ') is a function which can be divided by the counter, t is the overtime set by the timer, f' is the frequency value of data acquired by the function from the touch screen, and the counter is the value of the counter.
A mobile terminal comprising a processor, and a memory coupled to the processor,
the memory stores a computer program which realizes the steps of any one of the mobile terminal multi-application touch screen data processing methods when being executed by the processor;
the processor is used for calling the program instructions in the memory so as to execute the steps of the mobile terminal multi-application touch screen data processing method.
A storage medium, wherein the storage medium stores a computer program which, when executed by a processor, implements the steps of any of the mobile terminal multi-application touch screen data processing methods.
The mobile terminal, the multi-application touch screen data processing method and the storage medium thereof provided by the invention have the advantages that the touch screen, the counter and the timer are configured on the mobile terminal; storing frequency values of data acquired from the touch screen corresponding to each function in the mobile terminal; if the user starts a certain function needing to use the touch screen, clearing the counter and resetting the overtime time of the timer; if the user closes a certain function needing to use the touch screen, clearing the counter and resetting the overtime time of the timer; after the timer is started, if the timer is overtime, data is acquired from the touch screen and distributed to various functions. The data fed back by the touch screen is sent at a frequency which can be adapted to the application displayed on each screen, so that the energy consumption of the touch screen can be effectively saved, the resources are reasonably utilized, and the energy conservation is facilitated.
Drawings
FIG. 1 is a flowchart illustrating a method for processing multi-application touch screen data of a mobile terminal according to a preferred embodiment of the present invention.
Fig. 2 is a functional block diagram of a mobile terminal according to the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Example one
Referring to fig. 1, fig. 1 is a flowchart illustrating a method for processing data of a multi-application touch screen of a mobile terminal according to a preferred embodiment of the present invention. As shown in fig. 1, the method for processing data of a multi-application touch screen of a mobile terminal according to an embodiment of the present invention includes the following steps:
and step S100, storing frequency values of the data acquired from the touch screen corresponding to each function in the mobile terminal in advance.
In the embodiment of the invention, the frequency values of the data acquired from the touch screen corresponding to each function need to be stored in the mobile terminal in advance. For example, the frequency value of the corresponding data obtained from the touch screen for the WeChat chat function is set to a first frequency value (e.g., 10 times per second, i.e., every 1/10 seconds; and the frequency value of the corresponding data obtained from the touch screen for the game play function is set to a second frequency value (e.g., 15 times per second, i.e., every 1/15 seconds).
Thus, in the implementation of the present invention, such as the application like game, continuous touch operation is required, so that the touch screen is required to feed back touch data at a very high frequency, so that the second frequency value is set, for example, 15 times per second, that is, every 1/15 seconds; for typing chat applications, the typing speed is typically not higher than one hundred words per minute, and the touch screen is required to feed back touch data at a low frequency, so the first frequency value may be set to, for example, 10 times per second, i.e., 1/10 seconds.
And step S200, the mobile terminal detects the currently started function displayed on the screen.
The mobile terminal detects a function currently activated and displayed on the screen, for example, whether it is a game function or a typed chat function currently activated and displayed on the screen.
Step S300, according to the detected function which is currently started and displayed on the screen, obtaining a frequency value which is correspondingly adapted to the function which is currently started and displayed on the screen, and controlling the touch screen to feed back touch data at the correspondingly adapted frequency so as to control the data fed back by the touch screen to be sent at the frequency which is adapted to the function displayed on each screen.
In this step, for example, as described above, when it is detected that the currently activated and displayed function is the game function, and the frequency value corresponding to the currently activated and displayed function is obtained as the second frequency value, the touch screen is controlled to feed back the touch data at the corresponding adapted frequency second frequency value, for example, 15 times per second, that is, at 1/15 seconds.
When it is detected that the currently activated and on-screen function is a typed chat function, the touch screen is controlled to feed back touch data at the correspondingly adapted frequency first frequency value, for example 10 times per second, i.e. every 1/10 seconds.
Therefore, the invention sends the data fed back by the touch screen at the frequency which can be adapted to the application displayed on each screen, can effectively save the energy consumption of the touch screen, reasonably utilizes the resources and is more beneficial to energy conservation.
Example two
The process of the invention is explained in further detail below by means of a specific application example:
the method for processing the multi-application touch screen data of the mobile terminal in the specific application embodiment comprises the following steps:
j0, storing frequency values of data acquired from the touch screen corresponding to each function in the mobile terminal in advance, and configuring the touch screen, a counter and a timer on the mobile terminal in advance;
j1, when the mobile terminal starts a certain function which needs to use the touch screen, the counter is cleared, and the overtime time of the timer is reset.
In the embodiment of the invention, the zero clearing counter is set, and the overtime time of the reset timer is used as a reset function and is used for resetting.
For example, the original counter has counted 10 times, the timer has counted 10 milliseconds, and when the new function is started, the counter and the timer need to be reset again
Wherein the step J1 includes the following three steps:
j11, acquiring a function which is started currently and displayed on a screen, and a corresponding frequency value f of data acquired from the touch screen; the first frequency value and the second frequency value.
J12, if any function needing to use the touch screen is not started at present, setting the overtime time of the timer to be t; and starting a timer; wherein t = 1/f;
j13, if one or more functions of the touch screen required to be used are started currently, obtaining frequency values f1, f2 and … … of data obtained from the touch screen corresponding to the started functions; obtaining the greatest common divisor t of the reciprocal of the frequency values; setting the overtime time of a timer as t; if the counter is not started, the counter is reset and the counter is started, if the counter is started, the counter is reset, and the timer is restarted.
J3, when the mobile terminal is closed and a certain function of the touch screen is needed, clearing the counter and resetting the overtime time of the timer.
Wherein the step J3 comprises the steps of:
j31, if the function is closed and the function of the touch screen is not needed, closing the timer;
j32, if only one function needing to use the touch screen is left after the function is closed, setting the overtime time of the timer as t; closing the counter and restarting the timer; wherein t =1/f, and f is a frequency value of data acquired from the touch screen corresponding to the remaining function of the touch screen;
j33, if a plurality of functions needing to be used on the touch screen are left after the function is closed, obtaining frequency values f1, f2 and … … of data obtained from the touch screen corresponding to the left functions; obtaining the greatest common divisor t of the reciprocal of the frequency values; setting the overtime time of a timer as t; the counter is cleared and a timer is started.
J4, when the timer is started, if the timer times out, acquiring data from the touch screen and distributing to each function.
Wherein the step J4 comprises the steps of:
j41, if only one function needing the touch screen is started currently, the data is directly transmitted to the function;
j42, if a plurality of functions needing to use the touch screen are started at present, adding one to the value of the counter, and directly transmitting data to the corresponding functions; the corresponding functions refer to: 1/(t f ') is a function which can be divided by the counter, t is the overtime set by the timer, f' is the frequency value of data acquired by the function from the touch screen, and the counter is the value of the counter.
The specific application examples are as follows: in step J0, frequency values of the data acquired from the touch screen corresponding to the respective functions are stored in the mobile terminal in advance, wherein the frequency values are 10 times per second, i.e. every 1/10 seconds, when in the typing function and 15 times per second, i.e. every 1/15 seconds, when in the gaming function.
When the process is started, the timer and the counter are reset;
data should then be obtained from the touch screen every 1/30 seconds (30 is the least common multiple of 10 and 15, which may be described improperly in the cross), by setting a timer to read the data from the touch screen every 1/30 seconds, then incrementing the counter by 1 each time the timer times out, and sending the touch screen data to an application when the counter value satisfies a multiple of X for that application.
X is the least common multiple divided by the frequency value of the data obtained from the touch screen by an application in step J0, for example, typing is 30/10=3, and the game is 30/15= 2;
the method comprises the following specific steps:
the first 1/30 second counter is 1,
the second 1/30 second counter is a multiple of 2, and the touch screen data received at this time is addressed to the game
The third 1/30 second counter is a multiple of 3, and the data received from the touch screen is addressed for typing
The fourth 1/30 second counter is a multiple of 4 and is a multiple of 2, and the touch screen data received at this time is addressed to the game
The fifth 1/30 second counter is 5,
the sixth 1/30 second counter is 6 times 2 or 3, and the touch screen data received is addressed for gaming and typing
………………
The first two, three, four, five, six are the count values of the counters.
Example III,
The multi-application touch screen data processing method of the mobile terminal in another embodiment of the invention comprises the following steps:
(1) when receiving a notice that a user opens an application function needing to be used by the touch screen, executing the following steps:
s1, obtaining the application function from the memory, obtaining the frequency value of the data from the touch screen, and after adding the application function and the frequency value of the data from the touch screen, executing step S2;
s2, resetting the timer, and clearing the counter, namely counter = 0;
wherein, the resetting the timer in step S2 specifically includes:
s201, storing frequency values of data acquired from the touch screen corresponding to each application function, obtaining the greatest common divisor of the reciprocals of the frequency values, setting the greatest common divisor as t, setting the overtime time of the timer as t, and restarting the timer.
(2) When receiving a notice that a user closes an application function needing to be used by the touch screen, executing the following steps:
s3, controlling to delete the application function and the frequency value of the data acquired from the touch screen; then step S4 is executed;
s4, judging the number of the saved started application functions, and if the number is zero, closing the timer; if not, resetting the timer, and clearing the counter, namely counter = 0;
the resetting of the timer 110 in step S4 specifically includes:
s401, storing frequency values of data acquired from the touch screen corresponding to each application function, calculating to obtain the greatest common divisor of the reciprocals of the frequency values, setting the greatest common divisor as t, setting the timeout time of the timer as t, and restarting the timer.
(3) When receiving the notice that the timer is overtime, executing the following steps:
s5, acquiring the sensed touch data from the touch screen; then step S6 is executed;
s6, judging the number of the started application functions, if the number is one, executing the step S7, otherwise executing the step S8;
s7, transmitting the touch data to the started unique application function through data distribution;
s8, adding one to the counter, i.e. counter = counter + 1; then step S9 is executed;
s9, obtaining frequency values of data obtained from the touch screen corresponding to each application function; then step S10 is executed;
and S10, transmitting the touch data to an application function of which 1/(t f ') can be evenly divided by a counter through data distribution, wherein t is the overtime set by a timer, f' is the frequency value of the data acquired by the function from the touch screen, and the counter is the value of a counter.
Namely, when the flow is started, the timer and the counter are reset;
data should then be obtained from the touch screen every 1/30 seconds (30 is the least common multiple of 10 and 15, which may be described improperly in the cross), by setting a timer to read the data from the touch screen every 1/30 seconds, then incrementing the counter by 1 each time the timer times out, and sending the touch screen data to an application when the counter value satisfies a multiple of X for that application.
X is the least common multiple divided by the frequency value of the data obtained from the touch screen by an application in step J0, for example, typing is 30/10=3, and the game is 30/15= 2;
the method comprises the following specific steps:
the first 1/30 second counter is 1,
the second 1/30 second counter is a multiple of 2, and the touch screen data received at this time is addressed to the game
The third 1/30 second counter is a multiple of 3, and the data received from the touch screen is addressed for typing
The fourth 1/30 second counter is a multiple of 4 and is a multiple of 2, and the touch screen data received at this time is addressed to the game.
The fifth 1/30 second counter is 5,
the sixth 1/30 second counter is 6 times 2 or 3, and the touch screen data received is addressed for gaming and typing
………………
The first two, three, four, five, six are the count values of the counters.
As can be seen from the above, in the embodiment of the present invention, for example, as described above, when it is detected that the currently started function displayed on the screen is the game function, and the frequency value corresponding to the currently started function displayed on the screen is obtained as the second frequency value, the touch screen is controlled to feed back the touch data at the second frequency value corresponding to the adapted frequency, for example, 15 times per second, that is, at 1/15 seconds.
When it is detected that the currently activated and on-screen function is a typed chat function, the touch screen is controlled to feed back touch data at the correspondingly adapted frequency first frequency value, for example 10 times per second, i.e. every 1/10 seconds.
Therefore, the invention sends the data fed back by the touch screen at the frequency which can be adapted to the application displayed on each screen, can effectively save the energy consumption of the touch screen, reasonably utilizes the resources and is more beneficial to energy conservation.
Of course, 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 instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.
Example four
An embodiment of the present invention further provides a mobile terminal, as shown in fig. 2, including a processor 10, and a memory 20 connected to the processor 10,
the memory 20 stores a computer program, which when executed by the processor 10, implements the steps of the mobile terminal multi-application touch screen data processing method according to any one of the above embodiments;
the processor 10 is configured to call the program instructions in the memory to execute the steps of the multi-application touch screen data processing method of the mobile terminal according to any one of the above embodiments.
EXAMPLE five
The storage medium stores a computer program, and the computer program realizes the steps of the multi-application touch screen data processing method of the mobile terminal when being executed by the processor 10.
In summary, in the mobile terminal, the multi-application touch screen data processing method and the storage medium thereof provided by the present invention, the touch screen, the counter and the timer are configured on the mobile terminal; storing frequency values of data acquired from the touch screen corresponding to each function in the mobile terminal; if the user starts a certain function needing to use the touch screen, clearing the counter and resetting the overtime time of the timer; if the user closes a certain function needing to use the touch screen, clearing the counter and resetting the overtime time of the timer; after the timer is started, if the timer is overtime, data is acquired from the touch screen and distributed to various functions. The data fed back by the touch screen is sent at a frequency which can be adapted to the application displayed on each screen, so that resources can be reasonably utilized, and the energy conservation is facilitated.
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 (7)
1. A multi-application touch screen data processing method of a mobile terminal is characterized by comprising the following steps:
step A, storing frequency values of data acquired from a touch screen corresponding to each function in a mobile terminal in advance;
the step A specifically comprises the following steps:
step A1, configuring a touch screen, a counter and a timer on the mobile terminal in advance;
step A2, storing frequency values of the data acquired from the touch screen corresponding to each function in the mobile terminal in advance;
b, the mobile terminal detects the current function which is started and displayed on the screen;
the step B further comprises the following steps:
step B1, when the mobile terminal starts a certain function needing to use the touch screen, clearing the counter and resetting the overtime time of the timer;
the step B1 includes the steps of:
step B11, acquiring a function which is started currently and displayed on a screen and a corresponding frequency value f of data acquired from the touch screen;
step B12, if any function needing to use the touch screen is not started at present, setting the overtime time of the timer as t; and starting a timer; wherein, t is 1/f;
step B13, if one or more functions of the touch screen which are needed to be used are opened currently, frequency values f1, f2 and … … of data acquired from the touch screen corresponding to the opened functions are acquired; obtaining the greatest common divisor t of the reciprocal of the frequency values; setting the overtime time of a timer as t; if the counter is not started, resetting the counter and starting the counter, if the counter is started, resetting the counter and restarting the timer;
and step C, according to the detected currently started and displayed functions on the screen, obtaining a frequency value correspondingly adapted to the currently started and displayed functions on the screen, controlling the touch screen to feed back touch data at the correspondingly adapted frequency, and simultaneously sending the data fed back by the touch screen at the frequency adapted to each function displayed on the screen.
2. The method for processing the data of the multi-application touch screen of the mobile terminal according to claim 1, wherein the step B further comprises:
and step B2, when the mobile terminal is closed and a certain function of the touch screen is needed, clearing the counter and resetting the overtime time of the timer.
3. The method for processing the data of the multi-application touch screen of the mobile terminal according to claim 2, wherein the step C further comprises:
and step C1, when the timer is started, if the timer is overtime, acquiring data from the touch screen and distributing the data to each function.
4. The multi-application touch screen data processing method of claim 2, wherein the step B2 comprises the steps of:
step B21, if the function is closed and the function of the touch screen is not needed, closing the timer;
step B22, if only one function needing to use the touch screen is left after the function is closed, setting the overtime time of the timer as t; closing the counter and restarting the timer; wherein t is 1/f, and f is a frequency value of data acquired from the touch screen corresponding to the remaining function needing to use the touch screen;
step B23, if a plurality of functions needing to be used by the touch screen are left after the function is closed, frequency values f1, f2 and … … of data obtained from the touch screen corresponding to the left functions are obtained; obtaining the greatest common divisor t of the reciprocal of the frequency values; setting the overtime time of a timer as t; the counter is cleared and a timer is started.
5. The multi-application touch screen data processing method of claim 3, wherein the step C1 comprises the steps of:
step C11, if only one function needing to use the touch screen is started at present, the data is directly transmitted to the function;
step C12, if a plurality of functions needing to use the touch screen are started at present, adding one to the value of the counter, and directly transmitting the data to the corresponding functions; the corresponding functions refer to: 1/(t f ') is a function which can be divided by the counter, t is the overtime set by the timer, f' is the frequency value of data acquired by the function from the touch screen, and the counter is the value of the counter.
6. A mobile terminal comprising a processor, and a memory coupled to the processor,
the memory stores a computer program which, when executed by the processor, implements the steps of the mobile terminal multi-application touch screen data processing method of any one of claims 1-5;
the processor is used for calling the program instructions in the memory to execute the steps of the mobile terminal multi-application touch screen data processing method of any one of the claims 1-5.
7. A storage medium, characterized in that the storage medium stores a computer program which, when executed by a processor, implements the steps of the mobile terminal multi-application touch screen data processing method according to any one of claims 1 to 5.
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