CN109874129B

CN109874129B - Data processing method and electronic equipment

Info

Publication number: CN109874129B
Application number: CN201910254412.0A
Authority: CN
Inventors: 王晓文; 周浩强; 陈政鸿
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2019-03-31
Filing date: 2019-03-31
Publication date: 2021-11-16
Anticipated expiration: 2039-03-31
Also published as: CN109874129A

Abstract

The disclosure discloses a data processing method and an electronic device, wherein the method comprises the following steps: under the condition that the first equipment is connected with the second equipment, the first equipment acquires trigger information; the trigger information meets a first condition, so that the first equipment is in a first mode; the trigger information does not meet the first condition, and the first equipment is enabled to be in a second mode; in the first mode, the first device can communicate with the third device and process data in a first mode to realize data transmission of the second device and the fourth device; the third equipment is connected with the fourth equipment, and data is processed in a second mode; in the second mode, the first device can communicate with the third device and process data in a second mode to realize data transmission of the second device and the fourth device; the third device and the fourth device are connected and process data in a first manner. According to the method and the device, the mode where the first device is located can be determined according to the trigger information obtained by the first device, so that data can be received and sent, and user experience is improved.

Description

Data processing method and electronic equipment

Technical Field

The present disclosure relates to the field of electronic technologies, and in particular, to a data processing method and an electronic device.

Background

At present, a transceiver is mainly implemented by two devices, one is used as a transmitting device, the other is used as a receiving device, and the transmitting device and the receiving device are fixedly paired for use. That is, the transmitting device can only be used as a data transmitting device and can only be used as a receiving device for data reception.

Therefore, the existing transceiver has single use state and poor user experience.

Disclosure of Invention

In view of the above, the present disclosure provides a data processing method, including:

under the condition that the first equipment is connected with the second equipment, the first equipment acquires trigger information;

if the trigger information meets a first condition, enabling the first equipment to be in a first mode;

if the trigger information does not meet the first condition, enabling the first equipment to be in a second mode;

in the first mode, the first device can communicate with a third device and process data in a first mode to realize data transmission of the second device and a fourth device; wherein the third device and the fourth device are connected and process data in a second manner;

in the second mode, the first device can communicate with a third device and process data in the second mode to realize data transmission of the second device and a fourth device; wherein the third device and the fourth device are connected and process data in the first manner.

Preferably, the first device is in a third mode with the first device and the second device connected;

wherein if the trigger information satisfies the first condition, the first device is caused to enter the first mode from the third mode;

and if the trigger information does not meet the first condition, enabling the first equipment to enter the second mode from the third mode.

Preferably, the first device is in a first mode in case the first device is connected with the second device;

wherein if the trigger information satisfies the first condition, the first device is maintained in the first mode;

and if the trigger information does not meet the first condition, enabling the first equipment to enter the second mode from the first mode.

Preferably, the triggering information satisfies the first condition, including:

the device type of the second device satisfies the first condition.

Preferably, the device type of the second device satisfies the first condition, including:

the device type of the second device is consistent with a preset target type.

Preferably, the first and second substrates are, among others,

the processing data in a first manner, comprising: processing the data in a manner of receiving the data;

the processing data in the second manner includes: processing the data in a manner of sending the data;

in the first mode, the second device is an output device, and the output device outputs data transmitted by the fourth device;

in the second mode, the fourth device is an output device, and the output device outputs data transmitted by the second device.

An electronic device, comprising:

the interface is used for acquiring the trigger information under the condition that the electronic equipment is connected as first equipment and second equipment;

the processor is connected with the interface and used for enabling the electronic equipment to be in a first mode if the trigger information meets a first condition and enabling the electronic equipment to be in a second mode if the trigger information does not meet the first condition;

the communication module is connected with the processor, wherein in the first mode, the electronic equipment can communicate with third equipment, and the communication module processes data in a first mode to realize data transmission of the second equipment and fourth equipment; the third equipment is connected with the fourth equipment, and data are processed in a second mode;

in the second mode, the electronic device can communicate with the third device, and the communication module processes data in the second mode to realize data transmission of the second device and the fourth device; wherein the third device and the fourth device are connected and process data in the first manner.

Preferably, the communication module includes:

a wireless communication module for enabling the electronic device to wirelessly communicate with the third device.

Preferably, the interface is a wired interface, and the electronic device is connected with the second device through the wired interface in a wired manner.

Preferably, the first device is interchangeable with the third device.

the processor is further configured to cause the first device to enter the first mode from the third mode if the trigger information satisfies the first condition; and if the trigger information does not meet the first condition, enabling the first equipment to enter the second mode from the third mode.

the processor is further configured to maintain the first device in the first mode if the trigger information satisfies the first condition; and if the trigger information does not meet the first condition, enabling the first equipment to enter the second mode from the first mode.

the device type of the second device satisfies the first condition.

the device type of the second device is consistent with a preset target type.

Preferably, when the communication module executes the processing of the data in the first mode, the communication module is specifically configured to:

processing the data in a manner of receiving the data;

when the communication module executes the data processing in the second mode, the communication module is specifically configured to:

processing the data in a manner of sending the data;

According to the technical scheme, in the data processing method disclosed by the disclosure, under the condition that the first device is connected with the second device, the first device obtains the trigger information; if the trigger information meets a first condition, enabling the first equipment to be in a first mode; if the trigger information does not meet the first condition, enabling the first equipment to be in a second mode; in the first mode, the first device can communicate with the third device and process data in the first mode to realize data transmission of the second device and the fourth device; wherein the third device is connected with the fourth device and processes data in a second manner; in the second mode, the first device can communicate with the third device and process data in a second mode to realize data transmission of the second device and the fourth device; wherein the third device and the fourth device are connected and process the data in the first way. According to the method and the device, under the condition that the first device is connected with the second device, the mode where the first device is located can be determined according to the trigger information obtained by the first device, so that data can be received and sent, and user experience is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

Fig. 1 is a method flowchart of an embodiment 1 of a data processing method disclosed in the present disclosure;

FIG. 2 is a flow chart of a method of an embodiment 2 of the data processing method disclosed in the present disclosure;

FIG. 3 is a flow chart of a method of embodiment 3 of a data processing method of the present disclosure;

FIG. 4 is a schematic diagram of an application of the present disclosure;

FIG. 5 is a schematic view of another application of the present disclosure;

fig. 6 is a schematic structural diagram of an electronic device embodiment 1 according to the present disclosure;

fig. 7 is a schematic structural diagram of an electronic device embodiment 2 according to the present disclosure;

fig. 8 is a schematic structural diagram of an electronic device embodiment 3 according to the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

As shown in fig. 1, which is a flowchart of a method of embodiment 1 of a data processing method disclosed in the present disclosure, the method may be applied to a first device, where the first device may be a device capable of implementing data transceiving; the method may comprise the steps of:

s101, under the condition that the first equipment is connected with the second equipment, the first equipment obtains trigger information;

in a case where the first device and the second device are connected, for example, in a case where the first device and the second device are connected by means of hot plug, the first device obtains the trigger information. The obtained trigger information is used to determine an operating mode of the first device, for example, to determine that the first device is in an operating mode for data transmission or to determine that the first device is in an operating mode for data reception. When the first device is connected to the second device through the interface, one implementation manner of the first device obtaining the trigger information may be that, when the first device is connected to the second device through the interface, an insertion signal of the second device inserted into the interface of the first device is detected, and when the insertion signal is detected, the first device obtains the trigger information.

It should be noted that the second device connected to the first device may be multiple types of devices, for example, the second device may be an output device (e.g., a display screen, etc.) or a host device (e.g., a notebook computer, etc.), and the first device may obtain different trigger information according to different types of the second device.

S102, if the trigger information meets a first condition, enabling the first equipment to be in a first mode; in the first mode, the first device can communicate with the third device and process data in a first mode to realize data transmission of the second device and the fourth device; the third equipment is connected with the fourth equipment, and data are processed in a second mode;

s103, if the trigger information does not meet the first condition, enabling the first equipment to be in a second mode; in the second mode, the first device can communicate with the third device and process data in a second mode to realize data transmission of the second device and the fourth device; wherein the third device and the fourth device are connected and process the data in the first way.

Under the condition that the first device and the second device are connected, after the first device obtains the trigger information, the obtained trigger information is further judged, and whether the trigger information meets a first condition or not is judged, wherein the first condition is a condition capable of enabling the first device to be in a first mode. For example, the first condition is a condition for causing the first device to be in a data transmission mode, or the first condition is a condition for causing the first device to be in a data reception mode. And when the trigger information does not meet the first condition, enabling the first equipment to be in a second mode.

The first mode and the second mode are different modes. For example, when the first mode is a data transmission mode of the first device, the second mode may be a data reception mode of the first device; on the contrary, when the first mode is a data reception mode of the first device, the second mode may be a data transmission mode of the first device.

The first device is capable of communicating with the third device while the first device is in the first mode, e.g., the first device is capable of wirelessly communicating with the third device. When the first device communicates with the third device, the first device and the third device process data in a first manner, for example, the first device sends data to the third device, or the third device sends data to the first device. By data processing between the first device and the third device, data transmission with the second device and the fourth device can be achieved, for example, data transmission of the second device to the fourth device or data transmission of the fourth device to the second device is achieved. When the first mode is adopted between the first device and the third device to process data, the third device is connected with the fourth device, and the second mode is adopted between the third device and the fourth device to process data. The first mode and the second mode for processing data are different, for example, when the first mode is a mode for transmitting data, the second mode may be a mode for receiving data; in contrast, when the first mode is a mode of receiving data, the second mode may be a mode of transmitting data.

The first device is capable of communicating with the third device when the first device is in the second mode, e.g., the first device is capable of wirelessly communicating with the third device. When the first device communicates with the third device, the first device and the third device process data in the second manner, for example, the third device sends data to the first device, or the first device sends data to the third device. By data processing between the first device and the third device, data transmission with the second device and the fourth device can be achieved, for example, data transmission of the fourth device to the second device or data transmission of the second device to the fourth device is achieved. When the data is processed in the second mode between the first device and the third device, the third device is connected with the fourth device, and the data is processed in the first mode between the third device and the fourth device. The first mode and the second mode for processing data are different, for example, when the first mode is a mode for transmitting data, the second mode may be a mode for receiving data; in contrast, when the first mode is a mode of receiving data, the second mode may be a mode of transmitting data.

In summary, in the above embodiment, under the condition that the first device and the second device are connected, the first device obtains the trigger information, if the trigger information satisfies the first condition, the first device is in the first mode, and if the trigger information does not satisfy the first condition, the first device is in the second mode; in the first mode, the first device can communicate with the third device and process data in a first mode to realize data transmission of the second device and the fourth device; the third equipment is connected with the fourth equipment, and data are processed in a second mode; in the second mode, the first device can communicate with the third device and process data in a second mode to realize data transmission of the second device and the fourth device; wherein the third device and the fourth device are connected and process the data in the first way. Therefore, under the condition that the first device is connected with the second device, the mode of the first device can be determined according to the trigger information obtained by the first device, so that data can be received and transmitted, and the user experience is improved.

As shown in fig. 2, which is a flowchart of a method of embodiment 2 of a data processing method disclosed in the present disclosure, the method may be applied to a first device, where the first device is a device capable of implementing data transceiving; the method may comprise the steps of:

s201, under the condition that the first device is connected with the second device, the first device is in a third mode, and the first device obtains trigger information;

and under the condition that the first equipment and the second equipment are connected, the first equipment is in a third mode, wherein the third mode is a mode in which the data processing function of the first equipment is not started. That is, the mode in which the first device is in at this time can realize neither data transmission nor data reception. If the third mode is a pending mode of data processing of the first device, the first device may select to enter the first mode or the second mode in the pending mode.

Meanwhile, in a case where the first device and the second device are connected, for example, in a case where the first device and the second device are connected by means of hot plug, the first device obtains the trigger information. The obtained trigger information is used to determine an operating mode of the first device, for example, to determine that the first device is in an operating mode for data transmission or to determine that the first device is in an operating mode for data reception. When the first device is connected to the second device through the interface, one implementation manner of the first device obtaining the trigger information may be that, when the first device is connected to the second device through the interface, an insertion signal of the second device inserted into the interface of the first device is detected, and when the insertion signal is detected, the first device obtains the trigger information.

S202, if the trigger information meets a first condition, enabling the first equipment to enter a first mode from a third mode; in the first mode, the first device can communicate with the third device and process data in a first mode to realize data transmission of the second device and the fourth device; the third equipment is connected with the fourth equipment, and data are processed in a second mode;

s203, if the trigger information does not meet the first condition, enabling the first equipment to enter a second mode from a third mode; in the second mode, the first device can communicate with the third device and process data in a second mode to realize data transmission of the second device and the fourth device; wherein the third device and the fourth device are connected and process the data in the first way.

When the first device and the second device are connected and the first device is in the third mode, after the first device obtains the trigger information, the obtained trigger information is further judged, and whether the trigger information meets a first condition is judged, wherein the first condition is a condition capable of enabling the first device to be in the first mode. And when the trigger information meets a first condition, the first equipment enters the first mode from the current third mode. For example, when the first condition is a condition for making the first device in the data transmission mode, the first device is controlled to enter the data transmission mode from the third mode; or when the first condition is a condition for making the first device in the data receiving mode, controlling the first device to enter the data receiving mode from the third mode. And when the trigger information does not meet the first condition, the first equipment enters the second mode from the current third mode.

Wherein the first device is capable of communicating with the third device, e.g., the first device is capable of wirelessly communicating with the third device, when the first device is in the first mode. When the first device communicates with the third device, the first device and the third device process data in a first manner, for example, the first device sends data to the third device, or the third device sends data to the first device. By data processing between the first device and the third device, data transmission with the second device and the fourth device can be achieved, for example, data transmission of the second device to the fourth device or data transmission of the fourth device to the second device is achieved. When the first mode is adopted between the first device and the third device to process data, the third device is connected with the fourth device, and the second mode is adopted between the third device and the fourth device to process data. The first mode and the second mode for processing data are different, for example, when the first mode is a mode for transmitting data, the second mode may be a mode for receiving data; in contrast, when the first mode is a mode of receiving data, the second mode may be a mode of transmitting data.

To sum up, in the above embodiment, when the first device is connected to the second device and the first device is in the third mode, the first device can be determined to enter the first mode or the second mode from the third mode according to the trigger information obtained by the first device, so as to implement data transceiving, and improve user experience.

As shown in fig. 3, which is a flowchart of a method in embodiment 3 of a data processing method disclosed in the present disclosure, the method may be applied to a first device, where the first device is a device capable of implementing data transceiving; the method may comprise the steps of:

s301, under the condition that the first device is connected with the second device, the first device is in a first mode, and the first device obtains trigger information;

in the case where the first device and the second device are connected, the first device is in the first mode. Meanwhile, in a case where the first device and the second device are connected, for example, in a case where the first device and the second device are connected by means of hot plug, the first device obtains the trigger information. The obtained trigger information is used to determine an operating mode of the first device, for example, to determine that the first device is in an operating mode for data transmission or to determine that the first device is in an operating mode for data reception. When the first device is connected to the second device through the interface, one implementation manner of the first device obtaining the trigger information may be that, when the first device is connected to the second device through the interface, an insertion signal of the second device inserted into the interface of the first device is detected, and when the insertion signal is detected, the first device obtains the trigger information.

S302, if the trigger information meets a first condition, keeping the first equipment in a first mode; in the first mode, the first device can communicate with the third device and process data in a first mode to realize data transmission of the second device and the fourth device; the third equipment is connected with the fourth equipment, and data are processed in a second mode;

s303, if the trigger information does not meet the first condition, enabling the first equipment to enter a second mode from the first mode; in the second mode, the first device can communicate with the third device and process data in a second mode to realize data transmission of the second device and the fourth device; wherein the third device and the fourth device are connected and process the data in the first way.

When the first device and the second device are connected and the first device is in the first mode, after the first device obtains the trigger information, the obtained trigger information is further judged, and whether the trigger information meets a first condition is judged, wherein the first condition is a condition capable of enabling the first device to be in the first mode. And when the trigger information meets a first condition, keeping the first equipment in a first mode where the first equipment is located currently. For example, when the first condition is a condition for causing the first device to be in a data transmission mode, the first device is controlled to remain in the current data transmission mode; or when the first condition is a condition for causing the first device to be in the data reception mode, controlling the first device to remain in the current data reception mode. And when the trigger information does not meet the first condition, the first equipment enters a second mode from the current first mode.

In addition, in this embodiment, when the first device and the second device are connected, the first mode in which the first device is in default may be a data transmission mode or a data reception mode. And then, judging according to the trigger information obtained by the first equipment, and when the trigger information meets a first condition, keeping the first equipment in a current default first mode without mode switching. Compared with the above embodiment, when the first device and the second device are connected, and the first device is defaulted to be in the third mode in which the data processing function is not started, the first device is defaulted to be in the first mode, and when the trigger information meets the first condition, mode switching is not needed, the first device can process data in the first mode in time, and the data processing efficiency is further improved.

In an actual application process, usually, the output device (e.g., a display screen, etc.) does not need to be frequently plugged and unplugged, and usually, the output device is frequently plugged and unplugged from the first device as a host device (e.g., a notebook computer, etc.), so it is preferable that the first mode in which the first device is in by default is set as the data transmission mode. Because the probability that the terminal device is frequently plugged into or pulled out of the first device is higher, the first mode in which the first device is defaulted is set as the data sending mode, the first device can send data output by the terminal device in the data sending mode in time under higher probability, the data processing efficiency is further improved, and the user experience is improved.

To sum up, in the above embodiment, when the first device is connected to the second device and the first device is in the first mode, the first device can be determined to be kept in the current first mode or enter the second mode according to the trigger information obtained by the first device, so as to implement data transceiving, and improve user experience.

Specifically, in the above embodiment, when determining whether the trigger information obtained by the first device satisfies the first condition when the first device and the second device are connected, it may be determined whether the device type of the second device connected to the first device satisfies the first condition through the trigger information obtained by the interface used for connecting the first device and the second device. One implementation manner of determining whether the device type of the second device connected to the first device meets the first condition may be to determine whether the device type of the second device is consistent with a preset target type. For example, whether the device type of the second device is the output device is determined, and when the device type of the second device is the output device, for example, when the second device is the display device, it may be determined that the trigger information obtained by the first device satisfies the first condition, so that the first device can be in the first mode. When determining whether the second device is a Display device, the interface on the first device may attempt to read E-DDC (Enhanced Display Data Channel) content of the Display device through a DDC (Direct Digital Control) Channel. If the correct DDC content is fed back, it can be determined that the second device is a display device.

In order to more clearly describe the technical solutions disclosed in the above embodiments, specific application scenarios are taken as examples and are explained in detail below.

As shown in fig. 4, for example, it is assumed that the second device is an output device (e.g., a display device), the fourth device is a terminal device (e.g., a notebook computer), the first mode is a data receiving mode, and the second mode is a data transmitting mode. Under the condition that the first device is connected with the second device, for example, under the condition that the first device is in wired connection with the second device through a wired interface, if the first device is in a third mode, namely, the first device is in a mode that a data processing function is not started, the first device obtains trigger information through the interface, and because the second device is an output device, the trigger information obtained by the first device meets the requirement that the first device is in a data receiving mode, at the moment, the first device enters the data receiving mode from the third mode. When the first device is in a data receiving mode, the third device and the fourth device are connected through the wired interface, the third device can receive data transmitted by the fourth device through the wired interface, namely the fourth device can send the data to the third device, and for example, the third device can receive the data transmitted by a notebook computer. The first equipment can communicate with the third equipment, the third equipment sends the received data output by the fourth equipment to the first equipment in a data sending mode, the first equipment sends the received data to the second equipment through the wired interface, and the data output by the fourth equipment (a notebook computer) is sent to the second equipment (display equipment) to be displayed.

In contrast, as shown in fig. 5, it is assumed that the second device is a host device (e.g., a notebook computer), the fourth device is an output device (e.g., a display device), the first mode is a data transmission mode, and the second mode is a data reception mode. Under the condition that the first device is connected with the second device, for example, under the condition that the first device is in wired connection with the second device through a wired interface, if the first device is in a third mode, that is, the first device is in a mode that a data processing function is not started, the first device obtains trigger information through the interface, and because the second device is a terminal device, the trigger information obtained by the first device meets the requirement that the first device is in a data sending mode, at this time, the first device enters the data sending mode from the third mode. When the first device is in a data sending mode, the first device can receive data output by the second device (notebook computer) through the wired interface, the first device can communicate with the third device, the first device can send the received data output by the second device to the third device in the data sending mode, and the third device receives the data sent by the first device in the data receiving mode. The third device and the fourth device are connected through a wired interface in a wired mode, and the third device can send received data transmitted by the first device to the fourth device (display device) through the wired interface to display the data.

For example, as shown in fig. 4, it is assumed that the second device is an output device (e.g., a display device), the fourth device is a terminal device (e.g., a notebook computer), the first mode is a data receiving mode, and the second mode is a data transmitting mode. Under the condition that the first device is connected with the second device, for example, under the condition that the first device is in wired connection with the second device through a wired interface, if the first device is in the first mode, namely, the first device is in a data receiving mode, the first device obtains the trigger information through the interface, and because the second device is an output device, the trigger information obtained by the first device meets the condition that the first device is in the data receiving mode, at the moment, the first device is enabled to keep the current data receiving mode. When the first device is in a data receiving mode, the third device and the fourth device are in wired connection through the wired interface, the third device can receive data transmitted by the fourth device through the wired interface, namely the fourth device can send the data to the third device, and for example, the third device can receive the data transmitted by a notebook computer. The first equipment can communicate with the third equipment, the third equipment sends data output by the fourth equipment to the first equipment in a data sending mode, the first equipment receives the data sent by the third equipment in a data receiving mode, the first equipment sends the received data to the second equipment through the wired interface, and the data output by the fourth equipment (a notebook computer) is sent to the second equipment (display equipment) to be displayed.

In contrast, as shown in fig. 5, it is assumed that the second device is a terminal device (e.g., a notebook computer), the fourth device is an output device (e.g., a display device), the first mode is a data transmission mode, and the second mode is a data reception mode. Under the condition that the first device is connected with the second device, for example, under the condition that the first device is in wired connection with the second device through a wired interface, if the first device is in a first mode, that is, the first device is in a data transmission mode, the first device obtains the trigger information through the interface, and because the second device is a terminal device, the trigger information obtained by the first device meets the requirement that the first device is in the data transmission mode, at this time, the first device is enabled to keep the data transmission mode. When the first device is in a data sending mode, the first device can receive data output by the second device (notebook computer) through the wired interface, the first device can communicate with the third device, the first device can send the received data output by the second device to the third device in the data sending mode, and the third device receives the data sent by the first device in the data receiving mode. The third device and the fourth device are in wired connection through a wired interface, and the third device can send the received data transmitted by the first device to the fourth device (display screen device) through the wired interface for displaying.

As shown in fig. 6, which is a schematic structural diagram of an embodiment 1 of an electronic device according to the present disclosure, the electronic device is a device capable of implementing data transceiving; the electronic device may include: an interface 601, a processor 602, a communication module 603; wherein:

an interface 601, configured to, when an electronic device is connected to a second device as a first device, obtain trigger information from the first device;

in a case where the first device and the second device are connected, for example, in a case where the first device and the second device are connected by means of hot plug, the first device obtains the trigger information through the interface 601. The obtained trigger information is used to determine an operating mode of the first device, for example, to determine that the first device is in an operating mode for data transmission or to determine that the first device is in an operating mode for data reception. When the first device is connected to the second device through the interface, one implementation manner of the first device obtaining the trigger information may be that, when the first device is connected to the second device through the interface, an insertion signal of the second device inserted into the interface of the first device is detected, and when the insertion signal is detected, the first device obtains the trigger information.

A processor 602 configured to place the first device in a first mode if the trigger information satisfies a first condition; a communication module 603, configured to, in the first mode, enable the first device to communicate with the third device, and process data in the first mode, so as to implement data transmission between the second device and the fourth device; the third equipment is connected with the fourth equipment, and data are processed in a second mode;

a processor 602, further configured to place the first device in a second mode if the trigger information does not satisfy the first condition; the communication module 603 is further configured to, in the second mode, enable the first device to communicate with a third device, and process data in a second manner, so as to implement data transmission between the second device and the fourth device; wherein the third device and the fourth device are connected and process the data in the first way.

When the first device and the second device are connected, after the first device obtains the trigger information through the interface 601, the processor 602 further determines the obtained trigger information, and determines whether the trigger information satisfies a first condition, where the first condition is a condition that the first device can be in the first mode. For example, the first condition is a condition for causing the first device to be in a data transmission mode, or the first condition is a condition for causing the first device to be in a data reception mode. And when the trigger information does not meet the first condition, enabling the first equipment to be in a second mode.

When the first device is in the first mode, the first device can communicate with the third device through the communication module 603, for example, the first device can wirelessly communicate with the third device through the wireless communication module. When the first device communicates with the third device, the first device and the third device process data in a first manner, for example, the first device sends data to the third device, or the third device sends data to the first device. By data processing between the first device and the third device, data transmission with the second device and the fourth device can be achieved, for example, data transmission of the second device to the fourth device or data transmission of the fourth device to the second device is achieved. When the first mode is adopted between the first device and the third device to process data, the third device is connected with the fourth device, and the second mode is adopted between the third device and the fourth device to process data. The first mode and the second mode for processing data are different, for example, when the first mode is a mode for transmitting data, the second mode may be a mode for receiving data; in contrast, when the first mode is a mode of receiving data, the second mode may be a mode of transmitting data.

When the first device is in the second mode, the first device can communicate with the third device through the communication module 603, for example, the first device can wirelessly communicate with the third device through the wireless communication module. When the first device communicates with the third device, the first device and the third device process data in the second manner, for example, the third device sends data to the first device, or the first device sends data to the third device. By data processing between the first device and the third device, data transmission with the second device and the fourth device can be achieved, for example, data transmission of the fourth device to the second device or data transmission of the second device to the fourth device is achieved. When the data is processed in the second mode between the first device and the third device, the third device is connected with the fourth device, and the data is processed in the first mode between the third device and the fourth device. The first mode and the second mode for processing data are different, for example, when the first mode is a mode for transmitting data, the second mode may be a mode for receiving data; in contrast, when the first mode is a mode of receiving data, the second mode may be a mode of transmitting data.

Specifically, in the above embodiment, the first device and the third device are interchangeable devices, that is, the first device and the third device are the same device, and when data transmission between the second device and the fourth device is implemented, the first device and the third device may be used interchangeably. That is, the first device may be connected to the second device, or the third device may be connected to the second device, and when the first device is connected to the second device, the third device is connected to the fourth device, and when the third device is connected to the second device, the first device is connected to the fourth device. Therefore, when data transmission between the second device and the fourth device is achieved, the first device and the third device can be connected at will, the first device and the third device do not need to be paired, and corresponding working modes can be flexibly started according to different accessed devices. In addition, even if one of the first device and the third device is lost, data transmission between the second device and the fourth device can be realized by purchasing the same device at will, and user experience is improved.

Specifically, in the above embodiment, the first device and the third device may further include a wired interface, the first device may implement a wired connection between the first device and the second device through the wired interface, and the third device may implement a wired connection between the third device and the fourth device through the wired interface. It should be noted that the first device and the third device are the same device, and therefore, the wired interface of the first device is the same as the wired interface of the third device.

Fig. 7 is a schematic structural diagram of an embodiment 2 of an electronic device according to the present disclosure, where the electronic device is a device capable of receiving and transmitting data; the electronic device may include: an interface 701, a processor 702, a communication module 703; wherein:

an interface 701, configured to obtain trigger information when the electronic device is connected to the second device as the first device and the first device is in a third mode;

under the condition that the first device and the second device are connected, the first device is in a third mode, wherein the third mode is a mode in which a data processing function of the first device is not started, that is, the mode in which the first device is located at the moment can not realize data transmission nor data reception. If the third mode is a pending mode of data processing of the first device, the first device may select to enter the first mode or the second mode in the pending mode.

Meanwhile, in a case where the first device and the second device are connected, for example, in a case where the first device and the second device are connected by means of hot plug, the first device obtains the trigger information through the interface 701. The obtained trigger information is used to determine an operating mode of the first device, for example, to determine that the first device is in an operating mode for data transmission or to determine that the first device is in an operating mode for data reception. When the first device is connected to the second device through the interface, one implementation manner of the first device obtaining the trigger information may be that, when the first device is connected to the second device through the interface, an insertion signal of the second device inserted into the interface of the first device is detected, and when the insertion signal is detected, the first device obtains the trigger information.

A processor 702 configured to cause the first device to enter the first mode from the third mode if the trigger information satisfies a first condition; a communication module 703, configured to, in a first mode, enable a first device to communicate with a third device, and process data in the first mode to implement data transmission between a second device and a fourth device; the third equipment is connected with the fourth equipment, and data are processed in a second mode;

a processor 702, further configured to cause the first device to enter the second mode from the third mode if the trigger information does not satisfy the first condition; the communication module 703 is further configured to, in the second mode, enable the first device to communicate with a third device, and process data in a second manner, so as to implement data transmission between the second device and the fourth device; wherein the third device and the fourth device are connected and process the data in the first way.

When the first device and the second device are connected and the first device is in the third mode, after the first device obtains the trigger information through the interface 701, the processor 702 further determines the obtained trigger information, and determines whether the trigger information meets a first condition, where the first condition is a condition that the first device can be in the first mode. And when the trigger information meets a first condition, the first equipment enters the first mode from the current third mode. For example, when the first condition is a condition for making the first device in the data transmission mode, the first device is controlled to enter the data transmission mode from the third mode; or when the first condition is a condition for making the first device in the data receiving mode, controlling the first device to enter the data receiving mode from the third mode. And when the trigger information does not meet the first condition, the first equipment enters the second mode from the current third mode.

When the first device is in the first mode, the first device can communicate with the third device through the communication module 703, for example, the first device can wirelessly communicate with the third device through the wireless communication module. When the first device communicates with the third device, the first device and the third device process data in a first manner, for example, the first device sends data to the third device, or the third device sends data to the first device. By data processing between the first device and the third device, data transmission with the second device and the fourth device can be achieved, for example, data transmission of the second device to the fourth device or data transmission of the fourth device to the second device is achieved. When the first mode is adopted between the first device and the third device to process data, the third device is connected with the fourth device, and the second mode is adopted between the third device and the fourth device to process data. The first mode and the second mode for processing data are different, for example, when the first mode is a mode for transmitting data, the second mode may be a mode for receiving data; in contrast, when the first mode is a mode of receiving data, the second mode may be a mode of transmitting data.

When the first device is in the second mode, the first device can communicate with the third device through the communication module 703, for example, the first device can wirelessly communicate with the third device through the wireless communication module. When the first device communicates with the third device, the first device and the third device process data in the second manner, for example, the third device sends data to the first device, or the first device sends data to the third device. By data processing between the first device and the third device, data transmission with the second device and the fourth device can be achieved, for example, data transmission of the fourth device to the second device or data transmission of the second device to the fourth device is achieved. When the data is processed in the second mode between the first device and the third device, the third device is connected with the fourth device, and the data is processed in the first mode between the third device and the fourth device. The first mode and the second mode for processing data are different, for example, when the first mode is a mode for transmitting data, the second mode may be a mode for receiving data; in contrast, when the first mode is a mode of receiving data, the second mode may be a mode of transmitting data.

Fig. 8 is a schematic structural diagram of an embodiment 3 of an electronic device according to the present disclosure, where the electronic device is a device capable of receiving and transmitting data; the electronic device may include: an interface 801, a processor 802, a communication module 803; wherein:

an interface 801, configured to obtain trigger information when an electronic device is connected to a second device as a first device and the first device is in a first mode;

in the case where the first device and the second device are connected, the first device is in the first mode. Meanwhile, in a case where the first device and the second device are connected, for example, in a case where the first device and the second device are connected by means of hot plug, the first device obtains the trigger information through the interface 801. The obtained trigger information is used to determine an operating mode of the first device, for example, to determine that the first device is in an operating mode for data transmission or to determine that the first device is in an operating mode for data reception. When the first device is connected to the second device through the interface, one implementation manner of the first device obtaining the trigger information may be that, when the first device is connected to the second device through the interface, an insertion signal of the second device inserted into the interface of the first device is detected, and when the insertion signal is detected, the first device obtains the trigger information.

A processor 802 configured to maintain the first device in a first mode if the trigger information satisfies a first condition; a communication module 803, configured to, in the first mode, enable the first device to communicate with the third device, and process data in the first manner, so as to implement data transmission of the second device and the fourth device; the third equipment is connected with the fourth equipment, and data are processed in a second mode;

a processor 802, further configured to cause the first device to enter a second mode from the first mode if the trigger information does not satisfy the first condition; the communication module 803 is further configured to, in the second mode, enable the first device to communicate with a third device, and process data in a second manner, so as to implement data transmission between the second device and the fourth device; wherein the third device and the fourth device are connected and process data in a first manner.

When the first device and the second device are connected and the first device is in the first mode, after the first device obtains the trigger information through the interface 801, the processor 802 further determines the obtained trigger information, and determines whether the trigger information meets a first condition, where the first condition is a condition that the first device can be in the first mode. And when the trigger information meets a first condition, keeping the first equipment in a first mode where the first equipment is located currently. For example, when the first condition is a condition for causing the first device to be in a data transmission mode, the first device is controlled to remain in the current data transmission mode; or when the first condition is a condition for causing the first device to be in the data reception mode, controlling the first device to remain in the current data reception mode. And when the trigger information does not meet the first condition, the first equipment enters a second mode from the current first mode.

Wherein, when the first device is in the first mode, the first device can communicate with the third device through the communication module 803, for example, the first device can wirelessly communicate with the third device through the wireless communication module. When the first device communicates with the third device, the first device and the third device process data in a first manner, for example, the first device sends data to the third device, or the third device sends data to the first device. By data processing between the first device and the third device, data transmission with the second device and the fourth device can be achieved, for example, data transmission of the second device to the fourth device or data transmission of the fourth device to the second device is achieved. When the first mode is adopted between the first device and the third device to process data, the third device is connected with the fourth device, and the second mode is adopted between the third device and the fourth device to process data. The first mode and the second mode for processing data are different, for example, when the first mode is a mode for transmitting data, the second mode may be a mode for receiving data; in contrast, when the first mode is a mode of receiving data, the second mode may be a mode of transmitting data.

When the first device is in the second mode, the first device can communicate with the third device through the communication module 803, for example, the first device can wirelessly communicate with the third device through the wireless communication module. When the first device communicates with the third device, the first device and the third device process data in the second manner, for example, the third device sends data to the first device, or the first device sends data to the third device. By data processing between the first device and the third device, data transmission with the second device and the fourth device can be achieved, for example, data transmission of the fourth device to the second device or data transmission of the second device to the fourth device is achieved. When the data is processed in the second mode between the first device and the third device, the third device is connected with the fourth device, and the data is processed in the first mode between the third device and the fourth device. The first mode and the second mode for processing data are different, for example, when the first mode is a mode for transmitting data, the second mode may be a mode for receiving data; in contrast, when the first mode is a mode of receiving data, the second mode may be a mode of transmitting data.

Specifically, in the above embodiment, when the processor determines whether the trigger information obtained by the first device satisfies the first condition while the first device and the second device are connected, it may be determined whether the device type of the second device connected to the first device satisfies the first condition through the trigger information obtained by the interface used for connecting the first device and the second device. One implementation manner of determining whether the device type of the second device connected to the first device meets the first condition may be to determine whether the device type of the second device is consistent with a preset target type. For example, whether the device type of the second device is the output device is determined, and when the device type of the second device is the output device, for example, when the second device is the display device, it may be determined that the trigger information obtained by the first device satisfies the first condition, so that the first device can be in the first mode. In determining whether the second device is a display device, the interface on the first device may attempt to read the E-DDC content of the display device over the DDC channel. If the correct DDC content is fed back, it can be determined that the second device is a display device.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present disclosure.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A method of data processing, comprising:

under the condition that the first equipment is connected with the second equipment, the first equipment acquires trigger information; if the trigger information meets a first condition, enabling the first equipment to be in a first mode; wherein, under the condition that the first device is connected with the second device, the first device obtains the trigger information, and the method comprises the following steps: when a first device is connected with a second device through an interface, detecting an insertion signal of the second device inserted into the interface of the first device, and when the insertion signal is detected, the first device obtains trigger information; the trigger information satisfies the first condition, including: the device type of the second device satisfies the first condition;

in the second mode, the first device can communicate with a third device and process data in the second mode to realize data transmission of the second device and a fourth device; wherein the third device and the fourth device are connected and process data in the first manner;

the first mode and the second mode are one of a data transmission mode or a data reception mode, and the first mode and the second mode are different; the first mode and the second mode are one of a mode of transmitting data or a mode of receiving data, and the first mode and the second mode are different.

2. The method of claim 1, the first device being in a third mode with the first device and the second device connected;

3. The method of claim 1, the first device being in a first mode with the first device connected with the second device;

4. The method of claim 1, the device type of the second device satisfying the first condition, comprising:

the device type of the second device is consistent with a preset target type.

5. The method of claim 1, wherein,

6. An electronic device, comprising:

the interface is used for acquiring the trigger information under the condition that the electronic equipment is connected as first equipment and second equipment; the interface is specifically used for acquiring trigger information when an insertion signal inserted by second equipment is detected;

the processor is connected with the interface and used for enabling the electronic equipment to be in a first mode if the trigger information meets a first condition and enabling the electronic equipment to be in a second mode if the trigger information does not meet the first condition; the trigger information satisfies the first condition, including: the device type of the second device satisfies the first condition;

in the second mode, the electronic device can communicate with the third device, and the communication module processes data in the second mode to realize data transmission of the second device and the fourth device; wherein the third device and the fourth device are connected and process data in the first manner;

7. The device of claim 6, the communication module comprising:

8. The device of claim 6, the interface being a wired interface through which the electronic device is wired with the second device.

9. The apparatus of claim 6, the first apparatus being interchangeable with the third apparatus.