CN106575177A

CN106575177A - Method and terminal for controlling number of touch panel reporting points

Info

Publication number: CN106575177A
Application number: CN201580042068.9A
Authority: CN
Inventors: 陈苑锋; 钟光华
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2015-09-14
Filing date: 2015-09-14
Publication date: 2017-04-19
Anticipated expiration: 2035-09-14
Also published as: CN106575177B; WO2017045094A1

Abstract

Provided in the present invention are a method and terminal for controlling the number of touch panel reporting points, the method comprising: an MCU acquires interface area information of a current interface; the interface area information comprises a first mapping relationship between an identifier of every interface area and coordinate information of every interface area, and a second mapping relationship between an identifier of every interface area and reporting results corresponding to every interface area; the MCU receives reporting information reported by a touch panel TP processor, and on the basis of the first mapping relationship determines that a position of the current interface corresponding to the reporting information is positioned in a first interface area; and, on the basis of the identifier of the first interface area and the second mapping relationship, the MCU determines the reporting results corresponding to the first interface area. The method provided in the embodiments of the present invention reduces the power consumption of an AP, saving system resources.

Description

Control method and terminal for touch screen point reporting quantity

Technical Field

The invention relates to a communication technology, in particular to a control method and a terminal for touch screen reporting number.

Background

With the development of smart phones, a capacitive Touch screen (TP for short) is widely used, and more mobile phones are used for TP operations, such as input methods, game buttons, and the like.

Generally, for any operation (for example, clicking, sliding, etc.) performed by a user on a TP, a TP Processor obtains coordinate information according to the user operation, reports the coordinate information to an Application Processor (AP) inside the terminal, and the AP responds to the user operation according to the coordinate information. The coordinate information is actually a report point of TP.

In the prior art, as long as a user performs corresponding operation on a TP, the TP needs to report detailed coordinate information to an AP; however, for some special scenes, no matter whether the TP processor reports the coordinate information or not, the response of the AP to the user operation is the same, for example, the user clicks randomly on an empty interface, if the TP processor does not report the coordinate information of the click operation, the AP will not respond to the click operation naturally, and if the TP processor reports the coordinate information of the click operation, the AP will perform corresponding judgment processing according to the coordinate information to obtain a result of "click operation no response needed", so the AP will not respond to the click operation. Therefore, for some special scenes, according to the method in the prior art, the power consumption of the AP is increased undoubtedly, and the system resources are wasted.

Therefore, how to control the number of reporting points of the TP (i.e., control the number of reported coordinate information) to reduce the power consumption of the AP and save system resources is a technical problem to be solved.

Disclosure of Invention

The method and the terminal for controlling the touch screen report number are used for solving the technical problems that in the prior art, the report number of the TP cannot be controlled, so that the power consumption of an AP (access point) is increased, and system resources are wasted.

In a first aspect, the present invention provides a method for controlling touch screen reporting number, including:

the method comprises the steps that a microprocessor MCU obtains interface area information of a current interface; the current interface comprises at least one interface area; the interface area information comprises a first mapping relation between the identifier of each interface area and the coordinate information of each interface area, and a second mapping relation between the identifier of each interface area and the reporting result corresponding to each interface area; the reporting result is that the MCU does not report to an application processor AP, or the MCU reports to the AP and reports to the AP; the identification of the interface area carries the touch characteristic of the interface area;

the MCU receives report point information reported by the touch screen TP processor, and determines that the position of the report point information corresponding to the current interface is positioned in a first interface area according to the first mapping relation;

and the MCU determines a reporting result corresponding to the first interface area according to the identifier of the first interface area and the second mapping relation.

With reference to the first aspect, in a first possible implementation manner of the first aspect, the acquiring, by the MCU, interface area information of a current interface includes:

the MCU divides the current interface into at least one interface area according to the touch characteristics, and establishes an identifier for each interface area according to the touch characteristics of each interface area; wherein the touch characteristics include: at least one of an AP response characteristic, a click characteristic, a slide left and right characteristic, a slide up and down characteristic and a click-slide composite characteristic is not required; the click-slide composite characteristic is a combination characteristic of a click characteristic, a vertical slide characteristic and a horizontal slide characteristic;

the MCU establishes the first mapping relation according to the acquired coordinate information of each interface area and the identification of each interface area;

and the MCU establishes the second mapping relation according to the identifier of each interface area and a reporting result set of the current interface, wherein the reporting result set comprises at least one reporting result.

With reference to the first possible implementation manner of the first aspect, in a second possible implementation manner of the first aspect, the determining, by the MCU according to the identifier of the first interface region and the second mapping relationship, a report result corresponding to the first interface region specifically includes:

if the MCU determines that the touch characteristic of the first interface area is the AP response-free characteristic according to the identifier of the first interface area, the MCU determines that the report result determined according to the second mapping relation is not reported to the AP;

or,

if the MCU determines that the touch characteristic of the first interface area is a click-and-slip composite characteristic according to the identifier of the first interface area, the MCU reports the report point information to the AP according to the report result determined by the second mapping relation;

or,

if the MCU determines that the touch characteristic of the first interface area is any one of the touch characteristics except the AP response-free characteristic and the click-slip composite characteristic according to the identifier of the first interface area, the MCU determines that the report result according to the second mapping relation is the event content corresponding to the report point information reported to the AP; the event content corresponding to the report point information is used for indicating the user operation corresponding to the report point information to the AP and indicating the AP to respond to the user operation.

With reference to the second possible implementation manner of the first aspect, in a third possible implementation manner of the first aspect, if the MCU determines, according to the identifier of the first interface, that the touch characteristic of the first interface region is any one of the touch characteristics, except for the AP-less response characteristic and the click-and-slip composite characteristic, the reporting result determined by the MCU according to the second mapping relationship is to report, to the AP, event content corresponding to the report point information, and the method specifically includes:

if the MCU determines that the touch characteristic of the first interface area is a click characteristic according to the identifier of the first interface area, the MCU reports a click event to the AP according to the report result determined by the second mapping relation, wherein the click event is used for indicating the user operation as a click operation and indicating the AP to make a first response to the click operation;

or,

if the MCU determines that the touch characteristic of the first interface area is a left-right sliding characteristic according to the identifier of the first interface area, the MCU reports a left-right sliding event to the AP according to the reporting result determined by the second mapping relation, wherein the left-right sliding event is used for indicating the user operation as a left-right sliding operation and indicating the AP to make a second response to the left-right sliding operation;

or,

if the MCU determines that the touch characteristic of the first interface area is the up-down sliding characteristic according to the identifier of the first interface area, the MCU determines that the report result is the up-down sliding event reported to the AP according to the second mapping relation, and the up-down sliding event is used for indicating the user operation to be the up-down sliding operation and indicating the AP to make a third response to the up-down sliding operation.

With reference to any one of the first aspect to the third possible implementation manner of the first aspect, in a fourth possible implementation manner of the first aspect, the interface region information further includes: a third mapping relation between the identifier of each interface area and touch speed recognition operation and TP gesture recognition operation; the MCU receives the report point information reported by the touch screen TP processor, and after determining that the position of the report point information corresponding to the current interface is located in the first interface region according to the first mapping relationship, the method further includes:

and the MCU determines whether to execute the touch speed recognition operation and the TP gesture recognition operation according to the identifier of the first interface area and the third mapping relation.

With reference to any one of the first aspect to any one of the fourth possible implementation manners of the first aspect, in a fifth possible implementation manner of the first aspect, after the MCU acquires the interface area information of the current interface, the method further includes:

and the MCU configures an asynchronous sampling rate conversion ASRC parameter for each interface area according to the touch characteristic of each interface area, wherein the ASRC parameter is used for filtering out coordinate information with the change trend smaller than a preset threshold value in the report point information.

With reference to the fifth possible implementation manner of the first aspect, in a sixth possible implementation manner of the first aspect, after the MCU determines, according to the first mapping relationship, that the position of the report point information corresponding to the current interface is located in the first interface area, the method further includes:

and the MCU filters the coordinate information of which the change trend is smaller than a preset threshold value in the report point information according to the ASRC parameters corresponding to the first interface area.

In a second aspect, the present invention provides a terminal, comprising:

the acquisition module is used for acquiring interface area information of a current interface; the current interface comprises at least one interface area; the interface area information comprises a first mapping relation between the identifier of each interface area and the coordinate information of each interface area, and a second mapping relation between the identifier of each interface area and the reporting result corresponding to each interface area; the reporting result is that the MCU does not report to an application processor AP, or the MCU reports to the AP and reports to the AP; the identification of the interface area carries the touch characteristic of the interface area;

the first determining module is used for receiving report point information reported by a touch screen TP processor and determining that the position of the report point information corresponding to the current interface is located in a first interface area according to the first mapping relation;

and a second determining module, configured to determine, according to the identifier of the first interface area and the second mapping relationship, a reporting result corresponding to the first interface area.

With reference to the second aspect, in a first possible implementation manner of the second aspect, the obtaining module specifically includes:

the interface area dividing unit is used for dividing the current interface into at least one interface area according to the touch characteristics and establishing an identifier for each interface area according to the touch characteristics of each interface area; wherein the touch characteristics include: at least one of an AP response characteristic, a click characteristic, a slide left and right characteristic, a slide up and down characteristic and a click-slide composite characteristic is not required; the click-slide composite characteristic is a combination characteristic of a click characteristic, a vertical slide characteristic and a horizontal slide characteristic;

the first mapping relation establishing unit is used for establishing the first mapping relation according to the acquired coordinate information of each interface area and the identification of each interface area;

and the second mapping relationship establishing unit is used for establishing the second mapping relationship according to the identifier of each interface area and the reporting result set of the current interface, wherein the reporting result set comprises at least one reporting result.

With reference to the first possible implementation manner of the second aspect, in a second possible implementation manner of the second aspect, the second determining module is specifically configured to determine that the reporting result determined according to the second mapping relationship is not to be reported to the AP if it is determined that the touch characteristic of the first interface area is the AP response unnecessary characteristic according to the identifier of the first interface area; or, specifically, if it is determined that the touch characteristic of the first interface area is a click-and-slip composite characteristic according to the identifier of the first interface area, reporting the report point information to the AP according to the report result determined by the second mapping relationship; or, specifically, if it is determined according to the identifier of the first interface area that the touch characteristic of the first interface area is any one of the touch characteristics except for the AP-less response characteristic and the click-and-slip composite characteristic, reporting the event content corresponding to the report point information to the AP according to the reporting result determined by the second mapping relationship; the event content corresponding to the report point information is used for indicating the user operation corresponding to the report point information to the AP and indicating the AP to respond to the user operation.

With reference to the second possible implementation manner of the second aspect, in a third possible implementation manner of the second aspect, if the MCU determines, according to the identifier of the first interface, that the touch characteristic of the first interface area is any one of the touch characteristics except for the AP-less response characteristic and the click-and-slide composite characteristic,

the second determining module is specifically configured to, if it is determined that the touch characteristic of the first interface area is the click characteristic according to the identifier of the first interface area, report the click event to the AP according to the report result determined by the second mapping relationship; or, specifically, if it is determined that the touch characteristic of the first interface area is a left-right sliding characteristic according to the identifier of the first interface area, reporting a left-right sliding event to the AP according to the reporting result determined by the second mapping relationship, or, specifically, if it is determined that the touch characteristic of the first interface area is a vertical sliding characteristic according to the identifier of the first interface area, reporting a vertical sliding event to the AP according to the reporting result determined by the second mapping relationship;

the click event is used for indicating the user operation to be a click operation and indicating the AP to make a first response to the click operation; the left-right sliding event is used for indicating the user operation as a left-right sliding operation and indicating the AP to make a second response to the left-right sliding operation to the AP; the up-down sliding event is used for indicating the user operation to be up-down sliding operation and indicating the AP to make a third response to the up-down sliding operation.

With reference to any one of the second aspect to the third possible implementation manner of the second aspect, in a fourth possible implementation manner of the second aspect, the interface region information further includes: a third mapping relation between the identifier of each interface area and touch speed recognition operation and TP gesture recognition operation;

the second determining module is further configured to determine whether to execute the touch speed recognition operation and the TP gesture recognition operation according to the identifier of the first interface region and the third mapping relationship after the first determining module receives the report point information reported by the touch screen TP processor and determines that the position of the current interface corresponding to the report point information is located in the first interface region according to the first mapping relationship.

With reference to any one of the second aspect to the fourth possible implementation manner of the second aspect, in a fifth possible implementation manner of the second aspect, the terminal further includes:

the configuration module is used for configuring an asynchronous sampling rate conversion ASRC parameter for each interface area according to the touch characteristic of each interface area after the acquisition module acquires the interface area information of the current interface, and the ASRC parameter is used for filtering out coordinate information of which the change trend in the report point information is smaller than a preset threshold value.

With reference to the fifth possible implementation manner of the second aspect, in a sixth possible implementation manner of the second aspect, the terminal further includes:

and the screening module is used for filtering the coordinate information with the change trend smaller than a preset threshold value in the report point information according to the ASRC parameter corresponding to the first interface area after the first determining module determines that the position of the report point information corresponding to the current interface is located in the first interface area according to the first mapping relation.

In a third aspect, the present invention provides a terminal, including: a touch screen TP processor, a microprocessor MCU and an application processor AP;

the TP processor is used for reporting report point information to the MCU;

the MCU is used for acquiring interface area information of a current interface; the current interface comprises at least one interface area; the interface area information comprises a first mapping relation between the identifier of each interface area and the coordinate information of each interface area, and a second mapping relation between the identifier of each interface area and the reporting result corresponding to each interface area; the reporting result is that the MCU does not report to the AP, or the MCU reports to the AP and reports to the AP; the identification of the interface area carries the touch characteristic of the interface area;

the MCU is further configured to receive report point information reported by the TP processor, determine, according to the first mapping relationship, that a position of the report point information corresponding to the current interface is located in a first interface region, and determine, according to the identifier of the first interface region and the second mapping relationship, a report result corresponding to the first interface region.

With reference to the third aspect, in a first possible implementation manner of the third aspect, the MCU is configured to acquire interface area information of a current interface, and specifically includes:

the MCU is specifically used for dividing the current interface into at least one interface area according to touch characteristics, establishing an identifier for each interface area according to the touch characteristics of each interface area, establishing the first mapping relation according to the acquired coordinate information of each interface area and the identifier of each interface area, and establishing the second mapping relation according to the identifier of each interface area and the reporting result set of the current interface; wherein the touch characteristics include: at least one of an AP response characteristic, a click characteristic, a slide left and right characteristic, a slide up and down characteristic and a click-slide composite characteristic is not required; the click-slide composite characteristic is a combination characteristic of a click characteristic, a vertical slide characteristic and a horizontal slide characteristic; the reporting result set comprises at least one reporting result.

With reference to the first possible implementation manner of the third aspect, in a second possible implementation manner of the third aspect, the determining, by the MCU, a reporting result corresponding to the first interface area according to the identifier of the first interface area and the second mapping relationship specifically includes:

the MCU is specifically configured to determine that the report result determined according to the second mapping relationship is not to be reported to the AP if the touch characteristic of the first interface region is determined to be the AP-response-free characteristic according to the identifier of the first interface region; or, specifically, if it is determined that the touch characteristic of the first interface area is a click-and-slip composite characteristic according to the identifier of the first interface area, the MCU reports the report point information to the AP according to the report result determined by the second mapping relationship; or, specifically, if it is determined according to the identifier of the first interface area that the touch characteristic of the first interface area is any one of the touch characteristics except for the AP-less response characteristic and the click-and-slip composite characteristic, reporting the event content corresponding to the report point information to the AP according to the reporting result determined by the second mapping relationship; the event content corresponding to the report point information is used for indicating the user operation corresponding to the report point information to the AP and indicating the AP to respond to the user operation.

With reference to the second possible implementation manner of the third aspect, in a third possible implementation manner of the third aspect, if the MCU determines, according to the identifier of the first interface, that the touch characteristic of the first interface region is any one of the touch characteristics, except for the AP-less response characteristic and the click-and-slip composite characteristic, the MCU is specifically configured to, if the MCU determines, according to the identifier of the first interface region, that the touch characteristic of the first interface region is a click characteristic, report, according to the second mapping relationship, a click event to the AP; or, specifically, if it is determined that the touch characteristic of the first interface area is a left-right sliding characteristic according to the identifier of the first interface area, reporting a left-right sliding event to the AP according to the reporting result determined by the second mapping relationship; or, specifically, if it is determined that the touch characteristic of the first interface area is the up-down sliding characteristic according to the identifier of the first interface area, reporting the up-down sliding event to the AP according to the reporting result determined by the second mapping relationship;

With reference to any one of the third to the third possible implementation manners of the third aspect, in a fourth possible implementation manner of the third aspect, the interface region information further includes: a third mapping relation between the identifier of each interface area and touch speed recognition operation and TP gesture recognition operation; the MCU is further configured to determine whether to execute the touch speed recognition operation and the TP gesture recognition operation according to the identifier of the first interface region and the third mapping relationship after receiving the touch point information reported by the TP processor and determining that the position of the current interface corresponding to the touch point information is located in the first interface region according to the first mapping relationship.

With reference to any one of the third aspect to the fourth possible implementation manner of the third aspect, in a fifth possible implementation manner of the third aspect, the MCU is further configured to configure, after acquiring interface area information of a current interface, an asynchronous sampling rate conversion ASRC parameter for each interface area according to a touch characteristic of each interface area, where the ASRC parameter is used to filter out coordinate information in the report point information, where a change trend of the coordinate information is smaller than a preset threshold.

With reference to the fifth possible implementation manner of the third aspect, in a sixth possible implementation manner of the third aspect, the MCU is further configured to filter, after it is determined that the position of the report point information corresponding to the current interface is located in a first interface area according to the first mapping relationship, coordinate information, of which a change trend is smaller than a preset threshold, in the report point information according to an ASRC parameter corresponding to the first interface area.

According to the method and the terminal for controlling the number of touch screen report points provided by the embodiment of the invention, the MCU is used for acquiring the interface area information of the current interface containing the first mapping relation and the second mapping relation, and after the MCU receives the report point information reported by the TP processor, the position of the report point information corresponding to the current interface is determined to be positioned in the first interface area according to the first mapping relation, and then the MCU is used for determining the report result corresponding to the first interface area according to the identification of the first interface area and the second mapping relation. According to the method provided by the embodiment of the invention, the MCU judges the report point information reported by the TP processor, and part of redundant report point information is filtered, so that the AP is not required to process the redundant report point information, the power consumption of the AP is reduced, and the system resources are saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a first embodiment of a method for controlling a touch screen report number according to the present invention;

FIG. 2 is a first schematic view of an interface provided by the present invention;

FIG. 3 is a flowchart illustrating a second method for controlling the number of touch screen touch points according to an embodiment of the present invention;

FIG. 4 is a second schematic view of an interface provided by the present invention;

FIG. 5 is a flowchart illustrating a third method for controlling the number of touch screen touch points according to an embodiment of the present invention;

fig. 6 is a schematic flowchart of a fourth method for controlling the number of touch screen touch points according to the present invention;

fig. 7 is a schematic structural diagram of a first embodiment of a terminal according to the present invention;

fig. 8 is a schematic structural diagram of a second terminal according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a third embodiment of the terminal provided in the present invention;

fig. 10 is a schematic structural diagram of a fourth terminal according to the embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminal according to the embodiment of the present invention may include, but is not limited to, a mobile communication device such as a mobile phone, a Personal Digital Assistant (PDA), a tablet computer, a portable device (e.g., a portable computer), and the like, a device having a touch screen such as an Automatic Teller Machine (ATM), and a terminal having a touch screen and physical keys.

The method provided by the embodiment of the invention aims to solve the technical problems that in the prior art, the number of reporting points of TP cannot be controlled, and the AP is required to process the reporting point information reported by the TP processor as long as a user operates on the TP, so that the power consumption of the AP is increased and system resources are wasted.

Fig. 1 is a schematic flow chart of a first embodiment of a method for controlling the number of touch screen touch points according to the present invention. The embodiment relates to a specific process that a microprocessor (MCU for short) is added in a terminal, and after a TP processor obtains report point information (report point information is coordinate information) according to a user operation, the report point information reported by the TP processor is judged by the MCU, so as to avoid the increase of AP power consumption caused by reporting redundant report point information to an AP by the TP processor. As shown in fig. 1, the method includes:

s101: the MCU acquires interface area information of a current interface; the current interface comprises at least one interface area; the interface area information comprises a first mapping relation between the identifier of each interface area and the coordinate information of each interface area, and a second mapping relation between the identifier of each interface area and the reporting result corresponding to each interface area; the reporting result is that the MCU does not report to an application processor AP, or the MCU reports to the AP and reports to the AP, and the identifier of the interface area carries the touch characteristic of the interface area.

Specifically, when a user operates on a touch screen of the terminal, the current interface operated by the user may include at least one interface area, each interface area having a respective touch characteristic, where the touch characteristic may be a click characteristic or a slide characteristic. For example, referring to the interface of the new information shown in fig. 2, the interface includes 33 interface regions, which are interface region 1, interface region 2, interface region 3, interface regions 4 and … …, interface region 32, and interface region 33, where interface region 1 has a sliding characteristic, interface regions 2 and 5 have a characteristic of no AP response, the remaining other interface regions have a clicking characteristic, and each interface region has its own identifier, and the identifier of each interface region carries the touch characteristic of the interface region. Therefore, when the user operates the current interface, the MCU actively acquires the interface area information of the current interface operated by the user. The interface area information may include a first mapping relationship between the identifier of each interface area in the current interface and the coordinate information of each interface area, and a second mapping relationship between the identifier of each interface area in the current interface and the report result corresponding to each interface area. Optionally, the reporting result corresponding to each interface region may be that the MCU does not report to the AP, or may also be that the MCU reports to the AP and reports specific content to the AP. It should be noted that, assuming that the reporting result is that the MCU reports to the AP, the specific content reported by the MCU to the AP may be coordinate information corresponding to a specific user operation, or may be a specific operation event of the user on the current interface.

Optionally, the interface region information of the current interface acquired by the MCU may be sent to the MCU by an upper application of the terminal, or may be directly acquired by the MCU according to the interface region of the current interface.

S102: and the MCU receives report point information reported by the touch screen TP processor, and determines that the position of the report point information corresponding to the current interface is positioned in a first interface area according to the first mapping relation.

Specifically, after the MCU acquires the interface area information of the current interface, the operation of the user on the current interface may be recognized as report point information by the TP processor, and then the TP processor reports the report point information to the MCU. Therefore, after receiving the report point information, the MCU determines, in combination with the coordinate information of each interface region in the first mapping relationship, which interface region the report point information reported by the TP processor is specifically located in at the position of the current interface. And executing S103 after the MCU judges that the position of the report point information corresponding to the current interface is in the first interface area.

It should be noted that the MCU according to the embodiments of the present invention may be an independent device, or may be a micro control unit integrated inside the TP processor.

S103: and the MCU determines a reporting result corresponding to the first interface area according to the identifier of the first interface area and the second mapping relation.

Specifically, after the MCU determines that the reporting point information is located in the first interface region corresponding to the position of the current interface, the reporting result corresponding to the first interface region is obtained by referring to the second mapping relationship according to the identifier of the first interface region, that is, it is determined that the MCU does not need to report to the AP according to the touch characteristic of the first interface region and the second mapping relationship, or the MCU reports the reporting result to the AP when determining that the MCU needs to report to the AP.

For example, assuming that the user performs a click operation on the interface area 2, the TP processor obtains, according to the click operation, point information corresponding to the click operation. And then, the TP processor reports the report point information corresponding to the click operation to the MCU, and the MCU judges whether the report point information needs to be reported to the AP or not according to the report point information. Therefore, after the MCU receives the report point information reported by the TP processor, the MCU determines, according to the coordinate information of each interface region in the first mapping relationship, which interface region the report point information is located in, and when the MCU determines that the report point information is located in the coordinate range of the first interface region, determines that the position of the report point information corresponding to the current interface is located in the first interface region. Therefore, the MCU determines a reporting result corresponding to the identifier of the first interface area (i.e. determines a reporting result corresponding to the reporting point information) according to the identifier of the first interface area and the second mapping relationship. If the MCU determines that the report result corresponding to the report point information does not need to be reported to the AP by the MCU according to the second mapping relationship, the MCU does not need to report the report point information to the AP at this time, so that the AP does not need to process the report point information, thereby saving power consumption and system resources of the AP, and such processing does not affect the response of the AP to user operations. This is because, in the prior art, if the user clicks the interface area 2, the TP processor reports the specific report point information of the click operation to the AP, and then the AP processes the coordinate information and determines that it is not necessary to respond to the click operation of the user. That is, the same click operation and the same AP process the same result, but the AP needs to process the report point information in the prior art, but in the embodiment of the present invention, because of the judgment and screening of the MCU, the AP does not need to process the report point information. Therefore, the method provided by the embodiment of the invention saves the power consumption and system resources of the AP.

In the method for controlling the number of touch screen reporting points provided by the embodiment of the present invention, the MCU acquires the interface area information of the current interface including the first mapping relationship and the second mapping relationship, and after receiving the reporting point information reported by the TP processor, the MCU determines, according to the first mapping relationship, that the reporting point information is located in the first interface area corresponding to the position of the current interface, and further determines, according to the identifier of the first interface area and the second mapping relationship, the reporting result corresponding to the first interface area. According to the method provided by the embodiment of the invention, the MCU judges the report point information reported by the TP processor, and part of redundant report point information is filtered, so that the AP is not required to process the redundant report point information, the power consumption of the AP is reduced, and the system resources are saved.

Fig. 3 is a flowchart illustrating a second method for controlling the number of touch screen touch points according to an embodiment of the present invention. The embodiment relates to a specific process of acquiring the interface region information by the MCU. On the basis of the first embodiment, further, as shown in fig. 3, the step S101 specifically includes:

s201: the MCU divides the current interface into at least one interface area according to the touch characteristics, and establishes an identifier for each interface area according to the touch characteristics of each interface area; wherein the touch characteristics include: at least one of an AP response characteristic, a click characteristic, a slide left and right characteristic, a slide up and down characteristic and a click-slide composite characteristic is not required; the click-and-slide composite characteristic is a combination characteristic of a click characteristic, a vertical slide characteristic and a horizontal slide characteristic.

Specifically, when a user operates on the current interface, the MCU acquires the current interface in real time, divides the current interface into at least one interface region according to the touch characteristics, and establishes a corresponding identifier for each divided interface region according to the touch characteristics of each interface region, where the identifier of each interface region may carry the touch characteristics of the interface region, that is, the touch characteristics of the interface region may be determined by the identifier. Alternatively, the identifier may be a specific digital bit, or may be another tag having a touch characteristic recognition degree of the interface area. The touch characteristic used when the MCU divides the current interface into at least one interface region may be at least one of an AP-less response characteristic, a click characteristic, a left-right sliding characteristic, a vertical sliding characteristic, and a click-slide composite characteristic, where the click-slide composite characteristic is a combination characteristic of the click characteristic, the vertical sliding characteristic, and the left-right sliding characteristic. For example, referring to the example shown in fig. 2, since the interface area 1 has a vertical sliding characteristic, the MCU divides it into one interface area; the interface region 2 and the interface region 5 have the characteristic of no need of AP response, so the MCU divides the interface region 2 into one interface region and the interface region 5 into one interface region (of course, the interface region 2 and the interface region 5 may also be divided into one interface region, which is only a simple example); the rest of the interfaces in fig. 2 all have a click characteristic, so the MCU also divides the interface into a plurality of interface regions.

It should be noted that, when the MCU divides the current interface according to the touch characteristics, each of the divided interface areas has only one response result on the AP, that is, the AP has only one response result in any operation performed by the user on one interface area.

For example, continuing with the example shown in fig. 2, for the interface region 2, no matter which position in the interface region 2 the user clicks, although the TP processor may be different according to the operation of the user at any position in the interface region 2, the MCU has only one result determined according to the different report information, that is, the report information is located in the interface region 2 corresponding to the position of the current interface, and then the MCU determines, according to the second mapping relationship, that the report result is "no content will be reported to the AP for the report information", so that the AP will not respond to any user operation in the interface region 2, that is, the AP has only one response result (that is, the response result of the AP is no user operation in the interface region 2).

For another example, continuing with the example shown in fig. 2, for the interface region 4, no matter which position in the interface region 4 the user clicks, although the TP processor may be different from the MCU according to the operation of the user at any position in the interface region 4, the MCU only has one result determined according to the different report information, that is, the report information corresponding to the position of the current interface is located in the interface region 4, and then the MCU determines that the report result is "report to the AP for the report information" according to the second mapping relationship. Optionally, the content reported by the MCU to the AP may be a specific click coordinate of the user on the interface area 4, or may be the content of an event that "the user has clicked a contact icon". It should be noted that the present invention does not limit the form of the event content, as long as the AP can know the specific operation event of the user on the current interface according to the event content, and can make a correct response according to the specific operation event of the user. And after receiving the content reported by the MCU, the AP responds, namely displaying the contact information in the address list to the user. Therefore, only one response result of the AP corresponding to the interface area 4 is shown, that is, the contact information in the address book is displayed to the user.

For another example, continuing with the example shown in fig. 2, except the interface area 1, the interface area 2, and the interface area 5, the remaining other interface areas with the click characteristic have the same click characteristic, but because the response result of the AP is different for each of the remaining other interface areas, for example, the response result of the AP is different for the interface area 3 and the interface area 4 in the two interface areas for the user's operation, both of them have the click characteristic, but they are still divided into two interface areas independently during the division.

S202: and the MCU establishes the first mapping relation according to the acquired coordinate information of each interface region and the identification of each interface region.

Specifically, when the MCU divides the current interface into at least one interface region according to the touch characteristics and establishes an identifier for each interface region, the MCU obtains the coordinate information of each interface region and establishes a first mapping relationship according to the identifier of each interface region. Optionally, the first mapping relationship may be a table-form mapping relationship, or may also be a mapping relationship in another form, and the form of the first mapping relationship is not limited in the present invention.

S203: and the MCU establishes the second mapping relation according to the identifier of each interface area and a reporting result set of the current interface, wherein the reporting result set comprises at least one reporting result.

Specifically, after the MCU obtains the current interface of the user operation in real time, the MCU determines a reporting result set corresponding to the current interface according to a pre-stored mapping relationship between each interface and the reporting result set, where the reporting result set includes reporting results corresponding to all interface areas under the current interface, that is, the reporting result set may include that the MCU does not report to the AP, and the MCU reports event content corresponding to the report point information to the AP. It should be noted that the event content corresponding to the report point information reported by the MCU to the AP may include various event contents. Therefore, when the MCU divides the current interface into at least one interface region according to the touch characteristics and proposes an identifier for each interface region, the MCU will obtain a second mapping relationship according to the reporting result set corresponding to the current interface and the touch characteristics of each interface region, and corresponding to a reporting result for the identifier of each interface region.

In conclusion, the MCU obtains the interface area information of the current interface. Therefore, on the basis of the first and second embodiments, the step S103 may be specifically divided into three different scenarios, which are:

the first method comprises the following steps: if the MCU determines that the touch characteristic of the first interface area is the characteristic of no need of AP response according to the identifier of the first interface area, the MCU determines that the report result determined according to the second mapping relation is not to be reported to the AP.

Specifically, for the first scenario, reference may be made to the example mentioned in the first embodiment and the second embodiment with respect to the interface region 2 in fig. 2, and details are not repeated here. According to the first implementation mode, the judgment and screening of the MCU are performed, the AP does not need to process redundant report point information, the power consumption of the AP is reduced, and the resources of the system are saved.

And the second method comprises the following steps: if the MCU determines that the touch characteristic of the first interface area is a click-and-slip composite characteristic according to the identifier of the first interface area, the MCU reports the report point information to the AP according to the report result determined by the second mapping relation.

Specifically, when the MCU determines that the position of the touch point information corresponding to the current interface is located in the first interface region according to the touch point information reported by the TP processor, the MCU determines the touch characteristic of the first interface region according to the identifier of the first interface region. When the MCU determines that the touch characteristic of the first interface region is a click-and-slip composite characteristic according to the identifier of the first interface region, the reporting result corresponding to the first interface region determined by the MCU according to the second mapping relationship is "report specific report point information to the AP". This is because, when the touch characteristic of the first interface region is the click-and-slide composite characteristic, it is described that the user performs a complicated operation (the complicated operation includes a combination of a click operation, a vertical slide operation, and a horizontal slide operation, or includes a combination of two operations) on the first interface region, and therefore, the MCU is required to report the specific report information to the AP, and the AP recognizes and responds to the complicated operation corresponding to the report information. For example, referring to the interface shown in fig. 4, the interface includes an interface area a, which is a stroke input interface area, and the user's operation on the interface area a is complicated, therefore, after the user inputs strokes in the interface area A, the MCU determines that the position of the point information corresponding to the current interface is positioned in the interface area A (the interface area A is the first interface area and is marked as A) according to the point information reported by the TP processor, then the MCU determines the touch characteristic of the first interface area as a click-and-slide composite characteristic according to the identification of the first interface area, the reporting result corresponding to the interface area a determined by the MCU according to the second mapping relationship is "report specific report point information to the AP", and further enabling the AP to respond to the complex user operation corresponding to the hit information, for example, displaying a text corresponding to the stroke input performed by the user on the current interface.

That is, different from the prior art, the MCU reports specific report point information to the AP according to the present invention, which is determined by the MCU, and only when the MCU determines that the touch characteristic of the interface region corresponding to the report point information is the click-slide composite characteristic, the MCU reports the specific report point information to the AP, but not to the AP in any case.

And the third is that: if the MCU determines that the touch characteristic of the first interface area is any one of the touch characteristics except the AP response-free characteristic and the click-slip composite characteristic according to the identifier of the first interface area, the MCU reports the event content corresponding to the report point information to the AP according to the report result determined by the second mapping relation; the event content corresponding to the report point information is used for indicating the user operation corresponding to the report point information to the AP and indicating the AP to respond to the user operation.

Specifically, when the MCU determines that the position of the report point information corresponding to the current interface is located in the first interface region according to the report point information reported by the TP processor, the MCU determines the touch characteristic of the first interface region according to the identifier of the first interface region, and when the MCU determines that the touch characteristic of the first interface region is any one of the touch characteristics except for the characteristic requiring no AP response and the characteristic of a click-slip composite, the MCU reports the event content corresponding to the report point information to the AP for the MCU according to the report result determined by the second mapping relationship. Optionally, the event content corresponding to the report point information may be a specific description of an operation of the user on a certain interface area. For example, assuming that the report point information reported by the TP processor is (x1, y1), the MCU determines that the position of the current interface is lower than that in the first interface region according to the report point information and the first mapping relationship, and when the MCU determines that the touch characteristic of the first interface region is the click characteristic according to the identifier of the first interface region, the report result finally determined by the MCU to be reported to the AP is event content "the user has performed a click operation in the first interface region", and the event content is used to instruct the AP to respond to the user operation in time.

Therefore, in this scenario, the MCU reports the event content corresponding to the report point information to the AP instead of the specific report point information, so that the AP can directly know what operation has occurred on which interface region by the user without performing identification processing on the report point information, and can respond to the operation of the user in time, thereby not only improving the response speed of the AP, but also reducing the power consumption of the AP.

The third scenario can be specifically classified into the following A, B, C different cases, specifically:

a: if the MCU determines that the touch characteristic of the first interface area is a click characteristic according to the identifier of the first interface area, the MCU reports a click event to the AP according to the report result determined by the second mapping relation, wherein the click event is used for indicating the user operation as a click operation and indicating the AP to make a first response to the click operation.

Specifically, the click event reported by the MCU to the AP may indicate to the AP what operation the user specifically performs in the first interface region at present, and indicate the AP to make a first response to the operation of the user in time, so that the AP may directly know what operation the user performs in which interface region without performing identification processing on the click information, and thus may respond to the operation of the user in time, which not only improves the response speed of the AP, but also reduces the power consumption of the AP.

B: if the MCU determines that the touch characteristic of the first interface area is a left-right sliding characteristic according to the identifier of the first interface area, the MCU reports a left-right sliding event to the AP according to the reporting result determined by the second mapping relation, wherein the left-right sliding event is used for indicating the user operation as a left-right sliding operation and indicating the AP to make a second response to the left-right sliding operation.

Specifically, assuming that the report point information reported to the MCU by the TP processor is (x1, y1) and (x2, y1), the MCU determines, according to the report point information and the coordinate information of each interface region in the first mapping relationship, that the position of the report point information corresponding to the current interface is located in the first interface region, and when the MCU determines that the characteristic of the first interface region is a left-right sliding characteristic according to the identifier of the first interface region, the MCU determines, according to the identifier of the first interface region and the second mapping relationship, that the report result corresponding to the first interface region is "report a left-right sliding event to the AP", which may be "the user has performed a left-right sliding operation in the first interface region", so that the AP may timely make a second response to the user's action sliding operation according to the left-right sliding event, and further make the AP not need to perform recognition processing on the report point information, the method and the device can directly know what operation occurs on which interface area by the user, so that the operation of the user can be responded in time, the response speed of the AP is improved, and the power consumption of the AP is reduced.

Note that the point information (x1, y1) and (x2, y1) in the above example are only an example, and the ordinate y1 may be changed within a certain range in the left-right sliding operation of the user.

C: if the MCU determines that the touch characteristic of the first interface area is the up-down sliding characteristic according to the identifier of the first interface area, the MCU determines that the report result is the up-down sliding event reported to the AP according to the second mapping relation, and the up-down sliding event is used for indicating the user operation to be the up-down sliding operation and indicating the AP to make a third response to the up-down sliding operation.

Specifically, assuming that the report point information reported to the MCU by the TP processor is (x1, y1) and (x1, y2), the MCU determines that the position of the report point information corresponding to the current interface is located in the first interface region according to the report point information and the coordinate information of each interface region in the first mapping relationship, and when the MCU determines that the characteristic of the first interface region is the up-down sliding characteristic according to the identifier of the first interface region, the MCU determines that the report result corresponding to the first interface region according to the identifier of the first interface region and the second mapping relationship is "report an up-down sliding event to the AP", which may be "the user has performed an up-down sliding operation in the first interface region", so that the AP may timely make a third response to the user's action sliding operation according to the up-down sliding event, thereby making the AP not need to perform recognition processing on the report point information, the method and the device can directly know what operation occurs on which interface area by the user, so that the operation of the user can be responded in time, the response speed of the AP is improved, and the power consumption of the AP is reduced.

Note that the report information (x1, y1) and (x1, y2) in the above example are only an example, and the abscissa x1 may be changed within a certain range in the up-down sliding operation of the user.

To sum up, in the method for controlling the number of touch screen reporting points provided in the embodiment of the present invention, the MCU obtains the interface area information of the current interface including the first mapping relationship and the second mapping relationship, and after receiving the reporting point information reported by the TP processor, the MCU determines, according to the first mapping relationship, that the reporting point information is located in the first interface area corresponding to the position of the current interface, and then the MCU determines, according to the identifier of the first interface area and the second mapping relationship, the reporting result corresponding to the first interface area. According to the method provided by the embodiment of the invention, the MCU is used for judging the report point information reported by the TP processor, so that part of redundant report point information can be filtered, and part of report point information can be converted into an event form and provided for the AP, therefore, the AP does not need to process the redundant report point information, can directly acquire which operation is performed by a user in which interface region in a part of scenes, and does not need to identify and process the report point information in the part of scenes.

Fig. 5 is a flowchart illustrating a third method for controlling the number of touch screen touch points according to an embodiment of the present invention. The embodiment relates to a specific process that the MCU determines the touch characteristics of the first interface region according to the identifier of the first interface region, so as to determine whether the MCU performs the touch speed recognition operation and the TP gesture recognition operation according to the touch characteristics of the first interface region and the third mapping relationship. On the basis of the foregoing embodiment, further after the foregoing S102, the method may further include:

s301: and the MCU determines whether to execute the touch speed recognition operation and the TP gesture recognition operation according to the identifier of the first interface area and the third mapping relation.

S301 may be performed simultaneously with S103, or may be performed before S103.

Specifically, the interface region information acquired by the MCU may further include a third mapping relationship between the identifier of each interface region and the touch speed recognition operation or the TP gesture recognition operation, where the third mapping relationship is used to represent that the MCU does not need to execute the touch speed recognition operation or the MCU does not need to execute the TP gesture recognition operation for one interface region. Therefore, in the third mapping relationship, for an interface region, when the touch speed identification operation corresponding to the interface region is 1, it is characterized that the interface region needs the MCU to perform the touch speed identification operation, and when the touch speed identification operation corresponding to the interface region is 0, it is characterized that the interface region does not need the MCU to perform the touch speed identification operation, or vice versa; when the TP gesture recognition operation corresponding to the interface region is 1, the MCU is required to execute the TP gesture recognition operation for representing the interface region, and when the TP gesture recognition operation corresponding to the interface region is 0, the MCU is not required to execute the TP gesture recognition operation for representing the interface region, or vice versa. Optionally, the third mapping relationship may be a mapping relationship between the identifier of each interface region and the touch speed recognition operation, and the TP gesture recognition operation, which are established by the MCU according to the touch characteristics of each interface region. Optionally, assuming that the current interface may be divided into 3 interface regions, which are respectively an interface region a (the interface region is identified as a, and the interface region has a characteristic of not requiring an AP response), an interface region b (the interface region is identified as b, and the interface region has a click characteristic), an interface region c (the interface region is identified as c, and the interface region has a left-right sliding characteristic), and an interface region d (the interface region is identified as d, and the interface region has a click-slide composite characteristic), the third mapping relationship may be shown in the following table 1:

TABLE 1

Interface region	Touch speed recognition operation	TP gesture recognition operation
			a	0	0
b	0	0
			c	1	1
d	1	1

For example, when the MCU determines that the reporting point information reported by the TP is located in an interface region a corresponding to the position of the current interface (the interface region a is a first interface region), the MCU determines that the MCU does not need to perform the touch speed recognition operation and the TP gesture recognition operation according to the identifier of the first interface region and the third mapping relationship.

For another example, when the MCU determines that the reporting point information reported by the TP is located in the interface region c corresponding to the position of the current interface (the interface region c is the first interface region), the MCU determines, according to the identifier of the first interface region and the third mapping relationship, that the MCU needs to perform the touch speed recognition operation and the TP gesture recognition operation to obtain the sliding speed of the user and the sliding trajectory corresponding to the user gesture, and then the MCU can report the sliding speed of the user and the sliding trajectory corresponding to the user gesture to the AP to provide a reference for the AP to respond.

Therefore, as can be seen from the above description, such processing can make the MCU not need to perform a touch speed recognition operation or a TP gesture recognition operation on each interface region, thereby improving the response speed of the MCU.

According to the control method for touch screen reporting number provided by the embodiment of the invention, the MCU determines the touch characteristics of the first interface region according to the identifier of the first interface region, so that whether the MCU executes touch speed recognition operation and TP gesture recognition operation or not is determined according to the touch characteristics of the first interface region and the third mapping relation, the MCU does not need to execute touch speed recognition operation or TP gesture recognition operation on each interface region, and the response speed of the MCU is improved.

Fig. 6 is a flowchart illustrating a fourth method for controlling the number of touch screen touch points according to the present invention. The embodiment relates to a specific process of filtering, by the MCU, coordinate information in the report point information, in which a change trend is smaller than a preset threshold, according to Asynchronous Sample Rate Conversion (ASRC) parameters corresponding to each interface region. The method comprises the following steps:

s401: and the MCU acquires the interface area information of the current interface.

Specifically, the execution process of S401 may specifically refer to the description of S101 in the foregoing embodiment, and is not described herein again.

S402: and the MCU configures an ASRC parameter for each interface area according to the touch characteristic of each interface area, wherein the ASRC parameter is used for filtering out coordinate information of which the change trend in the report point information is smaller than a preset threshold value.

Specifically, after acquiring the interface region information of the current interface, the MCU determines the touch characteristics of each interface region according to the identifier of each interface region, and then configures ASRC parameters for each interface region according to the touch characteristics of each interface region. Optionally, for an interface region with an "AP-response-free characteristic", the value of the ASRC parameter configured by the MCU is small, and for an interface region with a "click-and-slide composite characteristic", the value of the ASRC parameter configured by the MCU is large.

S403: and the MCU determines that the position of the report point information corresponding to the current interface is positioned in a first interface area according to the first mapping relation.

Specifically, the execution process of S403 may specifically refer to the description of S102 in the foregoing embodiment, and is not described herein again.

S404: and the MCU filters the coordinate information with the change trend smaller than a preset threshold value in the report point information according to the ASRC parameters corresponding to the first interface area.

Specifically, for better understanding of the step, a simple example can be taken here, specifically: suppose that a user needs to draw a picture by using drawing software on a terminal, and suppose that the user needs to draw a straight line, the user only needs to slide from left to right, a display screen of the terminal only needs to display a straight line, but the hand of the user shakes when the user slides, and therefore, the report point information collected by the TP should include: the method comprises the steps that initial coordinate information of sliding operation, coordinate information when shaking occurs and ending coordinate information of the sliding operation are determined by an MCU according to the reporting point information, the position of the reporting point information corresponding to a current interface is located in a first interface area, the MCU can judge that the change trend of the coordinate information when shaking occurs compared with the initial coordinate information of the sliding operation or the ending coordinate information of the sliding operation is smaller than a preset threshold value according to an ASRC (asynchronous serial control register) parameter corresponding to the first interface area, the MCU filters the coordinate information when shaking occurs to obtain first reporting point information, the first reporting point information comprises the initial coordinate information of the sliding operation and the ending coordinate information of the sliding operation, the terminal can display according to the first reporting point information, therefore, unnecessary lines do not need to be displayed on a display screen of the terminal, and the processing performance of a display system is optimized.

S405: and the MCU determines a reporting result corresponding to the first interface area according to the identifier of the first interface area and the second mapping relation.

Specifically, the execution process of S405 may specifically refer to the description of S103 in the foregoing embodiment, and is not described herein again.

According to the control method for touch screen report number provided by the embodiment of the invention, the MCU filters the coordinate information with the change trend smaller than the preset threshold value in the report information reported by the TP processor according to the ASRC parameters corresponding to each interface region to obtain the first report information, so that the terminal can display according to the first report information, unnecessary display of a display screen of the terminal is avoided, and the processing performance of a display system is optimized.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Fig. 7 is a schematic structural diagram of a first embodiment of a terminal provided in the present invention. As shown in fig. 7, the terminal may include: an acquisition module 10, a first determination module 11 and a second determination module 12.

The acquiring module 10 is configured to acquire interface area information of a current interface; the current interface comprises at least one interface area; the interface area information comprises a first mapping relation between the identifier of each interface area and the coordinate information of each interface area, and a second mapping relation between the identifier of each interface area and the reporting result corresponding to each interface area; the reporting result is that the MCU does not report to an application processor AP, or the MCU reports to the AP and reports to the AP; the identification of the interface area carries the touch characteristic of the interface area;

a first determining module 11, configured to receive report point information reported by a touch screen TP processor, and determine, according to the first mapping relationship, that a position of the report point information corresponding to the current interface is located in a first interface area;

a second determining module 12, configured to determine, according to the identifier of the first interface area and the second mapping relationship, a reporting result corresponding to the first interface area.

The terminal provided by the embodiment of the present invention can execute the above method embodiment, and the implementation principle and technical effect are similar, which are not described herein again.

Fig. 8 is a schematic structural diagram of a second terminal according to the second embodiment of the present invention. On the basis of the embodiment shown in fig. 7, as shown in fig. 8, the obtaining module 10 specifically includes: an interface area dividing unit 101, a first mapping relation establishing unit 102 and a second mapping relation establishing unit 103.

The interface area dividing unit 101 is configured to divide the current interface into at least one interface area according to touch characteristics, and establish an identifier for each interface area according to the touch characteristics of each interface area; wherein the touch characteristics include: at least one of an AP response characteristic, a click characteristic, a slide left and right characteristic, a slide up and down characteristic and a click-slide composite characteristic is not required; the click-slide composite characteristic is a combination characteristic of a click characteristic, a vertical slide characteristic and a horizontal slide characteristic;

a first mapping relationship establishing unit 102, configured to establish the first mapping relationship according to the obtained coordinate information of each interface region and the identifier of each interface region;

a second mapping relationship establishing unit 103, configured to establish the second mapping relationship according to the identifier of each interface area and the reporting result set of the current interface, where the reporting result set includes at least one reporting result.

On the basis of the foregoing embodiment, further, the second determining module 12 is specifically configured to determine that the report result determined according to the second mapping relationship is not to be reported to the AP if it is determined that the touch characteristic of the first interface area is the AP response unnecessary characteristic according to the identifier of the first interface area; or, specifically, if it is determined that the touch characteristic of the first interface area is a click-and-slip composite characteristic according to the identifier of the first interface area, reporting the report point information to the AP according to the report result determined by the second mapping relationship; or, specifically, if it is determined according to the identifier of the first interface area that the touch characteristic of the first interface area is any one of the touch characteristics except for the AP-less response characteristic and the click-and-slip composite characteristic, reporting the event content corresponding to the report point information to the AP according to the reporting result determined by the second mapping relationship; the event content corresponding to the report point information is used for indicating the user operation corresponding to the report point information to the AP and indicating the AP to respond to the user operation.

Further, if the second determining module 12 determines that the touch characteristic of the first interface area is any one of the touch characteristics except the AP-less response characteristic and the click-and-slip composite characteristic according to the identifier of the first interface,

the second determining module 12 is specifically configured to, if it is determined that the touch characteristic of the first interface area is the click characteristic according to the identifier of the first interface area, report the click event to the AP according to the report result determined by the second mapping relationship; or, specifically, if it is determined that the touch characteristic of the first interface area is a left-right sliding characteristic according to the identifier of the first interface area, reporting a left-right sliding event to the AP according to the reporting result determined by the second mapping relationship, or, specifically, if it is determined that the touch characteristic of the first interface area is a vertical sliding characteristic according to the identifier of the first interface area, reporting a vertical sliding event to the AP according to the reporting result determined by the second mapping relationship;

Further, the interface area information further includes: a third mapping relation between the identifier of each interface area and touch speed recognition operation and TP gesture recognition operation; the second determining module 12 is further configured to determine, after the first determining module 11 receives the touch point information reported by the touch screen TP processor, and determines that the position of the current interface corresponding to the touch point information is located in the first interface area according to the first mapping relationship, whether to execute the touch speed recognition operation and the TP gesture recognition operation according to the identifier of the first interface area and the third mapping relationship.

Fig. 9 is a schematic structural diagram of a third terminal embodiment provided in the present invention. On the basis of the embodiment shown in fig. 7 or fig. 8, as shown in fig. 9, the terminal may further include: a configuration module 13, configured to configure, after the obtaining module 10 obtains the interface area information of the current interface, an asynchronous sampling rate conversion ASRC parameter for each interface area according to the touch characteristic of each interface area, where the ASRC parameter is used to filter out coordinate information whose change trend in the report point information is smaller than a preset threshold; a filtering module 14, configured to filter, after the first determining module 11 determines that the position of the report point information corresponding to the current interface is located in a first interface area according to the first mapping relationship, coordinate information whose change trend in the report point information is smaller than a preset threshold according to an ASRC parameter corresponding to the first interface area.

The configuration shown in fig. 9 is based on the configuration shown in fig. 8, but the terminal configuration shown in fig. 9 may be based on fig. 7.

Fig. 10 is a schematic structural diagram of a fourth terminal according to the embodiment of the present invention. As shown in fig. 10, the terminal may include: input device 20, TP processor 21, MCU22, AP23, memory 24, and at least one communication bus 25. The input device 20 is used for providing an input interface for a user and receiving an operation input by the user; a TP processor 21 for converting a user operation on the input device 20 by a user into hit information; the communication bus 25 is used for realizing communication connection among the elements; the memory 24 may comprise a high-speed RAM memory, and may also include a non-volatile memory NVM, such as at least one disk memory, in which various programs for performing various processing functions may be stored in the memory 24; and the AP23 for responding to the operation of the user.

Specifically, in this embodiment, the TP processor 21 is configured to report the report point information to the MCU 22;

the MCU22 is used for acquiring interface area information of the current interface; the current interface comprises at least one interface area; the interface area information comprises a first mapping relation between the identifier of each interface area and the coordinate information of each interface area, and a second mapping relation between the identifier of each interface area and the reporting result corresponding to each interface area; the reporting result is that the MCU22 does not report to the AP23, or the MCU22 reports to the AP23 and reports to the AP 23; the identification of the interface area carries the touch characteristic of the interface area;

the MCU22 is further configured to receive report point information reported by the TP processor 21, determine, according to the first mapping relationship, that a position of the report point information corresponding to the current interface is located in a first interface region, and determine, according to the identifier of the first interface region and the second mapping relationship, a report result corresponding to the first interface region.

Further, the MCU22 is configured to acquire interface area information of a current interface, and specifically includes:

the MCU22 is specifically configured to divide the current interface into at least one interface area according to touch characteristics, establish an identifier for each interface area according to the touch characteristics of each interface area, establish the first mapping relationship according to the obtained coordinate information of each interface area and the identifier of each interface area, and establish the second mapping relationship according to the identifier of each interface area and the reported result set of the current interface; wherein the touch characteristics include: at least one of an AP23 response characteristic, a click characteristic, a slide left and right characteristic, a slide up and down characteristic, and a click-slide composite characteristic is not required; the click-slide composite characteristic is a combination characteristic of a click characteristic, a vertical slide characteristic and a horizontal slide characteristic; the reporting result set comprises at least one reporting result.

Further, the MCU22 is configured to determine, according to the identifier of the first interface area and the second mapping relationship, a reporting result corresponding to the first interface area, and specifically includes:

the MCU22 is specifically configured to determine that the report result determined according to the second mapping relationship is not reported to the AP23 if the touch characteristic of the first interface region is determined to be the AP 23-unnecessary response characteristic according to the identifier of the first interface region; or, specifically, if it is determined that the touch characteristic of the first interface region is a click-and-slip composite characteristic according to the identifier of the first interface region, the MCU22 reports the report point information to the AP23 according to the report result determined by the second mapping relationship; or, specifically, if it is determined according to the identifier of the first interface area that the touch characteristic of the first interface area is any one of the touch characteristics except for the response characteristic of the AP 23-less interface and the click-and-slip composite characteristic, reporting the event content corresponding to the report point information to the AP23 according to the report result determined by the second mapping relationship; wherein the event content corresponding to the report point information is used for indicating the user operation corresponding to the report point information to the AP23 and indicating that the AP23 responds to the user operation.

Further, if the MCU22 determines, according to the identifier of the first interface, that the touch characteristic of the first interface area is any one of the touch characteristics except the AP 23-free response characteristic and the click-and-slip composite characteristic, the MCU22 is specifically configured to, if the touch characteristic of the first interface area is determined to be a click characteristic according to the identifier of the first interface area, report the click event to the AP23 according to the report result determined by the second mapping relationship; or, specifically, if it is determined that the touch characteristic of the first interface area is a left-right sliding characteristic according to the identifier of the first interface area, the reporting result determined according to the second mapping relationship is to report a left-right sliding event to the AP 23; or, specifically, if it is determined that the touch characteristic of the first interface area is the up-down sliding characteristic according to the identifier of the first interface area, the reporting result determined according to the second mapping relationship is to report an up-down sliding event to the AP 23;

wherein the click event is to indicate to the AP23 that the user action is a click action and to indicate that the AP23 makes a first response to the click action; the slide left-right event is to indicate to the AP23 that the user manipulation is a slide left-right manipulation and to indicate that the AP23 is responsive to the slide left-right manipulation; the up-down sliding event is used to indicate to the AP23 that the user operation is an up-down sliding operation and to indicate that the AP23 makes a third response to the up-down sliding operation.

Still further, the interface region information further includes: a third mapping relation between the identifier of each interface area and touch speed recognition operation and TP gesture recognition operation; the MCU22 is further configured to, after receiving the touch point information reported by the TP processor 21 and determining that the position of the current interface corresponding to the touch point information is located in the first interface area according to the first mapping relationship, determine whether to execute the touch speed recognition operation and the TP gesture recognition operation according to the identifier of the first interface area and the third mapping relationship.

Optionally, the MCU22 is further configured to, after obtaining interface area information of a current interface, configure an asynchronous sampling rate conversion ASRC parameter for each interface area according to a touch characteristic of each interface area, where the ASRC parameter is used to filter out coordinate information in which a change trend in the report point information is smaller than a preset threshold.

Optionally, the MCU22 is further configured to filter, after it is determined that the position of the report point information corresponding to the current interface is located in a first interface region according to the first mapping relationship, coordinate information whose change trend in the report point information is smaller than a preset threshold according to an ASRC parameter corresponding to the first interface region.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. A control method for touch screen reporting number is characterized by comprising the following steps:

2. The method according to claim 1, wherein the MCU acquires interface region information of a current interface, including:

3. The method according to claim 2, wherein the determining, by the MCU, the reporting result corresponding to the first interface region according to the identifier of the first interface region and the second mapping relationship specifically includes:

or,

4. The method according to claim 3, wherein if the MCU determines, according to the identifier of the first interface, that the touch characteristic of the first interface area is any one of the touch characteristics except for the AP-less response characteristic and the click-and-slip composite characteristic, the reporting result determined by the MCU according to the second mapping relationship is to report the event content corresponding to the report point information to the AP, specifically including:

or,

5. The method of any of claims 1-4, wherein the interface region information further comprises: a third mapping relation between the identifier of each interface area and touch speed recognition operation and TP gesture recognition operation; the MCU receives the report point information reported by the touch screen TP processor, and after determining that the position of the report point information corresponding to the current interface is located in the first interface region according to the first mapping relationship, the method further includes:

6. The method according to any one of claims 1-5, wherein after the MCU obtains the interface region information of the current interface, the method further comprises:

7. The method according to claim 6, wherein after the MCU determines that the report point information corresponds to the position of the current interface within the first interface region according to the first mapping relationship, the method further comprises:

8. A terminal, comprising:

9. The terminal according to claim 8, wherein the obtaining module specifically includes:

10. The terminal according to claim 9, wherein the second determining module is specifically configured to determine that the report result determined according to the second mapping relationship is not to be reported to the AP if it is determined that the touch characteristic of the first interface area is an AP-response-free characteristic according to the identifier of the first interface area; or, specifically, if it is determined that the touch characteristic of the first interface area is a click-and-slip composite characteristic according to the identifier of the first interface area, reporting the report point information to the AP according to the report result determined by the second mapping relationship; or, specifically, if it is determined according to the identifier of the first interface area that the touch characteristic of the first interface area is any one of the touch characteristics except for the AP-less response characteristic and the click-and-slip composite characteristic, reporting the event content corresponding to the report point information to the AP according to the reporting result determined by the second mapping relationship; the event content corresponding to the report point information is used for indicating the user operation corresponding to the report point information to the AP and indicating the AP to respond to the user operation.

11. The terminal of claim 10, wherein if the second determining module U determines that the touch characteristic of the first interface area is any one of the touch characteristics except for the AP-less response characteristic and the click-and-slip composite characteristic according to the identifier of the first interface,

12. A terminal according to any of claims 8-11, wherein the interface region information further comprises: a third mapping relation between the identifier of each interface area and touch speed recognition operation and TP gesture recognition operation;

13. The terminal according to any of claims 8-12, characterized in that the terminal further comprises:

14. The terminal of claim 13, wherein the terminal further comprises:

15. A terminal, comprising: a touch screen TP processor, a microprocessor MCU and an application processor AP;

the TP processor is used for reporting report point information to the MCU;

16. The terminal according to claim 15, wherein the MCU is configured to acquire interface area information of a current interface, and specifically includes:

17. The terminal according to claim 16, wherein the MCU is configured to determine, according to the identifier of the first interface area and the second mapping relationship, a reporting result corresponding to the first interface area, and specifically includes:

18. The terminal according to claim 17, wherein if the MCU determines, according to the identifier of the first interface, that the touch characteristic of the first interface region is any one of the touch characteristics except for the AP-less response characteristic and the click-and-slip composite characteristic, the MCU is specifically configured to, if the touch characteristic of the first interface region is determined to be a click characteristic according to the identifier of the first interface region, report the click event to the AP according to the report result determined by the second mapping relationship; or, specifically, if it is determined that the touch characteristic of the first interface area is a left-right sliding characteristic according to the identifier of the first interface area, reporting a left-right sliding event to the AP according to the reporting result determined by the second mapping relationship; or, specifically, if it is determined that the touch characteristic of the first interface area is the up-down sliding characteristic according to the identifier of the first interface area, reporting the up-down sliding event to the AP according to the reporting result determined by the second mapping relationship;

19. A terminal according to any of claims 15-18, wherein the interface region information further comprises: a third mapping relation between the identifier of each interface area and touch speed recognition operation and TP gesture recognition operation; the MCU is further configured to determine whether to execute the touch speed recognition operation and the TP gesture recognition operation according to the identifier of the first interface region and the third mapping relationship after receiving the touch point information reported by the TP processor and determining that the position of the current interface corresponding to the touch point information is located in the first interface region according to the first mapping relationship.

20. The terminal according to any one of claims 15 to 19, wherein the MCU is further configured to configure, after acquiring interface region information of a current interface, an asynchronous sampling rate conversion ASRC parameter for each interface region according to a touch characteristic of each interface region, where the ASRC parameter is configured to filter out coordinate information in the report point information where a change trend is smaller than a preset threshold.

21. The terminal according to claim 20, wherein the MCU is further configured to filter, after it is determined that the position of the touch point information corresponding to the current interface is located in a first interface region according to the first mapping relationship, coordinate information whose variation trend in the touch point information is smaller than a preset threshold according to an ASRC parameter corresponding to the first interface region.