CN104915087B - The method and electronic equipment of information processing - Google Patents

Abstract

The invention discloses a kind of method of information processing and electronic equipments, the electronic equipment has touch-display unit, there is indicating unit in the touch-display unit, to be used to indicate temporal information, the indicating unit includes N number of time identifier position, and wherein each marker can be used in showing an icon, the icon corresponds to the corresponding application program in the electronic equipment, wherein, N is the positive integer not less than 1, is obtained for the first input operation in the touch-display unit；Whether the position for detecting the first input operation is located in the range of the first identifier position in N number of time identifier position；In the range of the position is located at the first identifier position, and first input operates when meeting predetermined condition, responds the first input operation, starts the first application program corresponding to the icon shown on the first identifier position.

Description

Information processing method and electronic equipment

Technical Field

The present invention relates to the field of computer technologies, and in particular, to an information processing method and an electronic device.

Background

With the rapid development of electronic devices, electronic devices are applied more and more widely in daily life. The functions of the existing electronic equipment are gradually enriched like Google glasses, smart watches and the like, and the existing electronic equipment can synchronize the telephone, short messages, mails, photos, music and the like in the smart phone, so that the processing capacity is more and more powerful, and the existing electronic equipment can be accessed into a network anytime and anywhere.

However, the display screen of the existing electronic device is generally small, and usually many applications are set, if there are many applications such as telephone, short message, mail, photo, music, etc., and when one application is selected, the display screen needs to be operated to continuously scroll, and when the application is found, the application can be started, so that the features of the electronic device cannot be fully utilized in the prior art, and the display interface is fully utilized to make the operation more convenient.

Disclosure of Invention

The embodiment of the application provides an information processing method and electronic equipment, and is used for solving the technical problem that the application searching time is long when the application is started by the conventional electronic equipment.

The embodiment of the application provides an information processing method, which is applied to an electronic device with a touch display unit, wherein the touch display unit is provided with an indicating unit for indicating time information, the indicating unit comprises N time identification bits, each identification bit can be used for displaying an icon, the icon corresponds to a corresponding application program in the electronic device, and N is a positive integer not less than 1, and the method comprises the following steps:

acquiring a first input operation on the touch display unit;

detecting whether the position of the first input operation is located in the range of a first identification bit in the N time identification bits;

and when the position is located in the range of the first identification position and the first input operation meets a preset condition, responding to the first input operation and starting a first application program corresponding to the icon displayed on the first identification position.

Optionally, when the electronic device is a smart watch, the detecting whether the position of the first input operation is located within a range of a first identification bit of the N time identification bits specifically includes: determining 12 time identification positions displayed on a dial plate of the intelligent watch, wherein the 12 time identification positions are the N time identifications; detecting whether the location is within the range of the first time stamp of the 12 time stamp bits.

Optionally, after the first application corresponding to the icon displayed on the first identification position is started, the method further includes: acquiring a second input operation on the touch display unit; and if the position of the second input operation is located in the range of a second identification position in the N time identification positions and the duration time of the second input operation is within a preset time range, responding to the second input operation and selecting a second application program corresponding to the icon displayed on the second identification position.

Optionally, after the first application corresponding to the icon displayed on the first identification position is started, the method further includes: acquiring a third input operation on the touch display unit; and if the position of the third input operation is located in the range of a third identification position in the N time identification positions and the movement track of the third input operation is a preset track, responding to the third input operation and adjusting the current display position of the icon displayed on the third identification position, wherein the adjusted display position of the icon is matched with the movement track.

Optionally, if the position of the third input operation is located in the range of a third identification position of the N time identification positions, and the movement trajectory of the third input operation is a predetermined trajectory, the method further includes: judging whether the moving track exceeds a preset range; and when the moving track is judged to be beyond a preset range, determining a first group of icons containing M icons displayed on the N time identification positions, and adjusting the currently displayed icons displayed on the N time identification positions from the first group of icons to a second group of icons, wherein the second group of icons is different from the first group of icons, and M is a positive integer which is greater than 1 and not greater than N.

Optionally, the method further includes: determining a third group of icons which are displayed on the N time identification positions and contain K icons at a first moment, wherein K is a positive integer which is greater than 1 and not greater than N; and at a second moment after the first moment, when the second moment meets a preset condition, adjusting currently displayed icons displayed on the N time identification positions from the third group of icons to a fourth group of icons, wherein the fourth group of icons is different from the third group of icons.

An embodiment of the present application further provides an electronic device, which has a touch display unit, where the touch display unit has an indication unit thereon for indicating time information, the indication unit includes N time identification bits, where each identification bit can be used to display an icon, and the icon corresponds to a corresponding application program in the electronic device, where N is a positive integer not less than 1, and the electronic device includes:

a first operation acquisition unit for acquiring a first input operation on the touch display unit;

the detection unit is used for detecting whether the position of the first input operation is located in the range of a first identification bit in the N time identification bits;

and the application starting unit is used for responding to the first input operation and starting a first application program corresponding to the icon displayed on the first identification position when the position is located in the range of the first identification position and the first input operation meets a preset condition.

Optionally, the detecting unit is specifically configured to determine 12 time identification bits displayed on a dial of the smart watch when the electronic device is the smart watch, where the 12 time identification bits are the N time identifications, and detect whether the position is located within a range of the first time identification in the 12 time identification bits.

Optionally, the electronic device further includes a second operation obtaining unit, configured to obtain, after the first application corresponding to the icon displayed on the first identifier is started, a second input operation on the touch display unit;

the electronic equipment further comprises a selecting unit, configured to respond to the second input operation and select a second application program corresponding to the icon displayed on the second identification position when the position of the second input operation is within a range of a second identification position of the N time identification positions and the duration of the second input operation is within a preset time range.

Optionally, the electronic device further includes a third operation obtaining unit, configured to obtain a third input operation on the touch display unit after the first application corresponding to the icon displayed on the first identification position is started;

the electronic equipment further comprises an icon adjusting unit, configured to adjust a current display position of an icon displayed on the third identification position in response to the third input operation when the position of the third input operation is within a range of a third identification position of the N time identification positions and a movement trajectory of the third input operation is a predetermined trajectory, where the adjusted display position of the icon matches the movement trajectory.

Optionally, the electronic device includes a first icon switching unit, configured to determine whether a movement trajectory of the third input operation exceeds a preset range when the position of the third input operation is within a range of a third identification position of the N time identification positions, and determine a first group of icons that are displayed on the N time identification positions and include M icons when the movement trajectory is determined to exceed the preset range, and adjust currently-displayed icons displayed on the N time identification positions from the first group of icons to a second group of icons, where the second group of icons is different from the first group of icons, and M is a positive integer greater than 1 and not greater than N.

Optionally, the electronic device further includes a second icon switching unit, configured to determine, at a first time, a third group of icons that includes K icons and that is displayed on the N time indication locations, where K is a positive integer greater than 1 and not greater than N, and adjust, at a second time after the first time, a currently displayed icon displayed on the N time indication locations from the third group of icons to a fourth group of icons when the second time meets a preset condition, where the fourth group of icons is different from the third group of icons.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

first, in the electronic device with the touch display unit according to the embodiment of the present application, the first input operation is first obtained, and when the position of the first input operation is within the range of the first identification bit and a predetermined condition is satisfied, the first input operation is responded, because the touch display unit is provided with the indication unit, and the indication unit includes N time identification bits, each of which can be used to display an icon corresponding to a corresponding application program in the electronic device, when the first input operation is responded, the first application program corresponding to the first time identification can be surely started through the first operation, the features of the electronic device are fully utilized, the application search time is saved, and the technical problem that the application search time is long when the existing electronic device starts the application is solved, the technical effect of starting the specific application more quickly is achieved, and the user experience is better.

Secondly, because this application embodiment is after starting the application that the icon that shows on the first marker position corresponds, obtain to the second input operation on the touch-control display element, because confirm the position of second input operation is located when the scope of second marker position, still need confirm the duration of second input operation is in the preset time range, just respond to the second input operation, and then make and more accurately select corresponding application, reduce the probability of maloperation for user's experience is better.

Thirdly, determining a third group of icons which are displayed on the N time identification positions and contain K icons at a first moment, wherein K is a positive integer which is greater than 1 and not greater than N; and at a second moment after the first moment, when the second moment meets a preset condition, adjusting the currently displayed icons displayed on the N time identification positions from the third group of icons to a fourth group of icons, wherein the fourth group of icons is different from the third group of icons, so that the electronic equipment can display different application icons at different moments, and the user experience is better.

Drawings

Fig. 1 is a first structural diagram illustrating an application icon displayed on N time indication positions on an indication unit in a touch display unit according to an embodiment of the present disclosure;

FIG. 2 is a flow chart of a method of information processing in an embodiment of the present application;

fig. 3 is a second structural diagram illustrating an application icon displayed on N time indication positions on an indication unit in a touch display unit according to an embodiment of the present disclosure;

fig. 4 is a third structural diagram illustrating displaying an application icon on N time mark positions on an indication unit in a touch display unit according to an embodiment of the present disclosure;

fig. 5 is a fourth structural diagram illustrating displaying an application icon on N time indication positions on an indication unit in a touch display unit according to an embodiment of the present disclosure;

fig. 6 is a block diagram of an electronic device in an embodiment of the present application.

Detailed Description

The embodiment of the application provides an information processing method and electronic equipment, so as to solve the technical problem that when the existing electronic equipment starts an application, the application searching time is long.

In order to solve the technical problems, the general idea of the embodiment of the application is as follows:

since the embodiment of the application is an electronic device with a touch display unit, the first input operation is firstly acquired, the position of the first input operation is within the range of the first identification position, and when a predetermined condition is met, the first input operation is responded, since the touch display unit is provided with an indication unit which comprises N time identification positions, each identification position can be used for displaying an icon corresponding to a corresponding application program in the electronic device, when the first input operation is responded, the first application program corresponding to the first time identification can be started through the first operation, so that the application searching time is saved, and the technical problem that the application searching time is long when the existing electronic device starts the application is solved, the technical effect of starting the specific application more quickly is achieved, and the user experience is better.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

An embodiment of the present application provides an information processing method, which is applied to an electronic device having a touch display unit, where the touch display unit has an indication unit for indicating time information, and the indication unit includes N time identification bits, where each identification bit can be used to display an icon, and the icon corresponds to a corresponding application program in the electronic device.

The electronic device is further an electronic device such as a smart watch, a smart bracelet, a glove-type mobile phone, and the like, the touch display unit is an electronic device such as an LED touch screen, an LCD touch screen, and the like, and the smart watch is specifically used as an example below.

Specifically, the N time identification bits may be time information such as 1 to 12 o 'clock, 1 to 6 o' clock, and the like.

For example, referring to fig. 1, the smart watch 10 has a touch screen 11, the touch screen 11 has a dial 12 thereon, the dial 12 includes 12 time identification bits, wherein the 1 st identification bit 13 represents 1 o' clock, and a setting icon is displayed at the position of the 1 st identification bit 13; the 2 nd identification bit 14 represents 2 o' clock, and a WeChat icon is displayed at the position of the second identification bit 14; the 3 rd identification position 15 represents 3 o' clock, and a microblog icon is displayed at the 3 rd identification position 15; the 4 th identification position 16 represents 4 o' clock, and a music icon is displayed at the position of the 4 th identification position 16; the 5 th identification position 17 represents 5 o' clock, and a mail icon is displayed at the position of the 5 th identification position 17; the 6 th identification position 18 represents 6 o' clock, and a word icon is displayed at the position of the 6 th identification position 18; the 7 th identification bit 19 represents 7 o' clock, and a telephone icon is displayed at the position of the 7 th identification bit 19; the 8 th identification position 100 represents 8 o' clock, and a photo icon is displayed at the position of the 8 th identification position 100; the 9 th identification position 101 represents 9 o' clock, and a photographing icon is displayed at the position of the 9 th identification position 101; the 10 th identification position 102 represents 10 o' clock, and a map icon is displayed at the position of the 10 th identification position 102; the 11 th identification position 103 represents 11 o' clock, and a short message icon is displayed at the position of the 11 th identification position 103; and the 12 th flag 104 represents 12 o' clock, and a QQ icon is displayed at the position of the 12 th flag 104, such that 12 icons are displayed on the 12 time flags, one application is corresponding to each icon in the 12 icons, and the 12 time flags and the 12 applications are in one-to-one correspondence.

Referring to fig. 2, the steps of the method are as follows:

step 201: acquiring a first input operation on the touch display unit;

step 202: detecting whether the position of the first input operation is located in the range of a first identification bit in the N time identification bits;

step 203: and when the position is located in the range of the first identification position and the first input operation meets a preset condition, responding to the first input operation and starting a first application program corresponding to the icon displayed on the first identification position.

In step 201, a first input operation on the touch display unit is acquired.

In a specific implementation process, when the touch display unit is in a lighting state, a first input operation of a user on the touch display unit is acquired, where the first input operation is, for example, a click operation, a press operation, a double-click operation, or the like.

Specifically, a click operation, a press operation, a double-click operation, or the like for the touch display unit may be acquired in real time by a sensor provided in the touch display unit, and the acquired click operation, press operation, or the like for the touch display unit may be used as the first input operation.

The N time indication bits are generally time indications from 1 o 'clock to 12 o' clock, and may be represented by numbers 1 to 12, or may be represented by numbers i to xii, for example, and the present application is not limited in particular.

Specifically, when the electronic device is a smart watch, 12 time identification bits displayed on a dial plate of the smart watch are determined, where the 12 time identification bits are the N time identification bits, specifically referring to fig. 1.

For example, referring to fig. 1, when 12 time identifiers are displayed on a dial 12 of a smart watch 10, a capacitive sensor on a touch screen 11 is arranged to obtain a touch operation of a user in real time, and when an operation that the user a clicks a 9 th identifier 101 in the dial 12 is obtained through the capacitive sensor, an operation that the 9 th identifier 101 is clicked is obtained as the first input operation.

Step 202 is performed next, in which it is detected whether the position of the first input operation is within the range of the first identification bit of the N time identification bits.

In a specific implementation process, after the first input operation is obtained in step 201, it is detected whether the position of the first input operation is within the range of the first time identification bit, so as to obtain a detection result, where the first time identification bit is any one time identification bit of the N time identification bits.

Specifically, when the first input operation is acquired, the position of the first input operation is determined from the display area of the touch display unit, and it is then determined whether the position of the first input operation is within the range of the first flag.

Specifically, when the electronic device is a smart watch, the detecting whether the position of the first input operation is located within a range of a first identification bit of the N time identification bits specifically includes: determining 12 time identification positions displayed on a dial plate of the intelligent watch, wherein the 12 time identification positions are the N time identification positions; detecting whether the position is within a range of the first one of the 12 time identification bits.

For example, referring to fig. 1, when 12 time identification bits are displayed on a dial 12 of a smart watch 10, a capacitive sensor on a touch screen 11 is arranged to obtain a touch operation of a user in real time, and when an operation that the user a clicks a 9 th identification bit 101 in the dial 12 is obtained through the capacitive sensor, since the user a clicks the 9 th identification bit 101 in the dial 12, it can be determined that a position of the first input operation is within a range of the 9 th identification bit 101, and further, it can be determined that the first identification bit is the 9 th identification bit 101, and it can be determined that the position of the first input operation is within the range of the first identification bit.

And when the position is within the range of the first identification position and the first input operation meets a preset condition, executing step 203, responding to the first input operation, and starting a first application program corresponding to the icon displayed on the first identification position.

In a specific implementation process, when it is detected that the position is within the range of the first identification bit through step 202, it is further required to detect whether the first input operation meets the predetermined condition, and when it is detected that the first input operation also meets the predetermined condition, the first application program is started in response to the first input operation; when the first input operation is detected not to meet the preset condition, the first input operation is not responded, or the first input operation is responded, but the first application program is prohibited from being started.

Specifically, when it is detected that the first input operation further satisfies the predetermined condition, the icon displayed on the first identification position is first acquired, and then the first application corresponding to the icon displayed on the first identification position is started.

Specifically, when it is detected that the position is within the range of the first identification bit through step 202, it is detected whether the first input operation is a double-click operation, and when the first input operation is a double-click operation, it may be determined that the first input operation satisfies the predetermined condition; or, detecting whether the first input operation is a click operation, and when the first input operation is the click operation, determining that the first input operation meets the predetermined condition; or, whether the first input operation is a long-press operation is detected, when the first input operation is the long-press operation, it may be determined that the first input operation satisfies the predetermined condition, and when it is determined that the first input operation satisfies the predetermined condition, the first application program is started in response to the first input operation.

For example, referring to fig. 1, when 12 time identification bits are displayed on a dial 12 of a smart watch 10, first determining that the 12 time identification bits are 1 st identification bit 13 to 12 th identification bit 104, obtaining a touch operation of a user in real time through a capacitive sensor arranged on the dial 12, determining that a double-click operation is the first input operation when a double-click operation in the dial 12 is obtained by the capacitive sensor, determining a first partial area in a display area of a touch screen 11 of the double-click operation through the capacitive sensor, where the first partial area is a position of the double-click operation, detecting whether the first partial area is located within a range of any one of the 12 identification bits, and if the first partial area is located within a range of a 9 th identification bit 101, determining that the first identification bit is a 9 th identification bit 101, and detecting whether the double-click operation meets the preset condition, if the preset condition is that the first input operation is the double-click operation, determining that the double-click operation meets the preset condition, responding to the double-click operation, acquiring an icon displayed on a 9 th identification position 101 as a short message icon, and then starting a short message application corresponding to the short message icon.

In another embodiment, after the launching the first application corresponding to the icon displayed on the first identification position, the method further includes: acquiring a second input operation on the touch display unit; and if the position of the second input operation is located in the range of a second identification position in the N time identification positions and the duration time of the second input operation is within a preset time range, responding to the second input operation and selecting a second application program corresponding to the icon displayed on the second identification position.

In a specific implementation process, after the first application program is started, the second input operation is acquired, and if the position of the second input operation is within the range of the second identification bit and the duration is within the preset time range, the second application program is selected in response to the second input operation, wherein the second identification bit is any one identification bit of the N time identification bits.

Specifically, the acquiring of the second input operation may detect whether the position of the second input operation is within the range of the second flag bit and whether the duration is within the preset time range after the acquiring of the second input operation before the acquiring of the first input operation, and may select the second application program in response to the second input operation if the position of the second input operation is within the range of the second flag bit and the duration is within the preset time range, for example, within the range of 2 seconds to 5 seconds, 3 seconds to 4 seconds, 2 seconds to 6 seconds, or the like.

For example, referring to fig. 1, after the short message application is started through the double-click operation, a long-press operation of a user is obtained in real time through a capacitive sensor arranged on a dial 12, the long-press operation is determined to be the second input operation, and a second partial area in a display area of a touch screen 11 contacted with the long-press operation is determined through the capacitive sensor, the second partial area is a position of the long-press operation, whether the second partial area is located in a range of any one of the 12 identification bits is detected, if the second partial area is located in a range of a 7 th identification bit 19, the second identification bit can be determined to be a 9 th identification bit 101, and a duration time of the long-press operation is detected to be 3 seconds, if the preset time range is 2 seconds to 6 seconds, the duration time can be determined to be within the preset time range, and responding to the long-press operation, acquiring the icon displayed on the 9 th identification position 101 as a telephone icon, and then selecting the telephone application corresponding to the telephone icon.

In another embodiment, after the launching the first application corresponding to the icon displayed on the first identification position, the method further includes: acquiring a third input operation on the touch display unit; and if the position of the third input operation is located in the range of a third identification position in the N time identification positions and the movement track of the third input operation is a preset track, responding to the third input operation and adjusting the current display position of the icon displayed on the third identification position, wherein the adjusted display position of the icon is matched with the movement track.

In a specific implementation process, after the first application program is started, the third input operation is acquired, and if the position of the third input operation is within the range of the third identification position and the movement track of the third input operation is the predetermined track, the current display position of the icon displayed on the third identification position is adjusted in response to the third input operation, wherein the third identification position is any one of the N time identification positions.

Specifically, the acquiring of the third input operation may detect whether a position of the third input operation is within a range of the third marker and a movement trajectory of the third input operation is the predetermined trajectory before the acquiring of the first input operation and after the acquiring of the third input operation, and adjust a current display position of an icon displayed on the third marker in response to the third input operation if the position of the second input operation is within the range of the third marker and the movement trajectory is the predetermined trajectory.

Specifically, it is detected whether the position of the third input operation is within the range of the third flag, and it is detected whether the movement trajectory of the third input operation is a trajectory within the display area of the indication unit, if it is detected that the movement trajectory is a trajectory within the display area of the indication unit, it may be determined that the movement trajectory is the predetermined trajectory, and if not, it is determined that the movement trajectory is not the predetermined trajectory.

For example, referring to fig. 3 and 4, after the short message application is started through the double-click operation, the movement operation of the user is obtained in real time through a capacitive sensor arranged on the dial 12, it is determined that the movement operation is the third input operation, and it is determined through the capacitive sensor that the movement operation first contacts a third partial area in the display area of the touch screen 11, where the third partial area is the position of the movement operation, it is detected whether the third partial area is located within a range of any one of the 12 identification bits, if the third partial area is located within a range of the 12 identification bit 104, it may be determined that the third identification bit is the 12 th identification bit 104, then a movement trajectory of the movement operation is obtained as a curve 105, and it is detected whether the curve 105 is a trajectory within the display area of the dial 12, since the curve 105 is a track in the display area of the dial 12, it can be determined that the curve 105 is the predetermined track, the current display position of the icon displayed at the 12 th identification position 104 is adjusted, the QQ icon displayed at the 12 th identification position 104 is displayed at the 3 rd identification position 15 according to the curve 105, and the microblog icon is displayed at the 12 th identification position 104, which is specifically shown in fig. 4.

Further, if the position of the third input operation is located in the range of a third flag of the N time flags and the movement trajectory of the third input operation is a predetermined trajectory, the method further includes: judging whether the moving track exceeds a preset range; and when the moving track is judged to be beyond a preset range, determining a first group of icons containing M icons displayed on the N time identification positions, and adjusting the currently displayed icons displayed on the N time identification positions from the first group of icons to a second group of icons, wherein the second group of icons is different from the first group of icons, and M is a positive integer which is greater than 1 and not greater than N.

The second group of icons is different from the first group of icons, specifically, at least one icon in the second group of icons is different from the M icons, for example, each icon in the second group of icons is different from the M icons, or a part of icons in the second group of icons is the same as that in the first group of icons.

Specifically, when the movement track is detected to be the predetermined track, whether the movement track exceeds the preset range is further detected, and if the movement track does not exceed the preset range, the current display position of the icon displayed on the third identification position is adjusted in response to the third input operation; and if the moving track exceeds the preset range, responding to the third input operation, and replacing the currently displayed icons displayed on the N time identification positions.

Specifically, the preset range may be an 1/2 display area, an 1/3 display area, an 1/4 display area, an 1/5 display area, or the like in the display area of the indication unit, and when it is detected that the movement trajectory exceeds a 1/2 display area, a 1/3 display area, an 1/4 display area, an 1/5 display area, or the like in the display area of the indication unit, it may be determined that the movement trajectory exceeds the preset range, and the currently displayed icon displayed on the N time slots is replaced in response to the third input operation.

For example, referring to fig. 3 and 5, after the short message application is started through the double-click operation, the moving operation of the user is obtained in real time through a capacitive sensor arranged on the dial 12, the moving operation is determined to be the third input operation, if the third partial area is located within the range of the 12 th flag 104 and the moving track of the moving operation is the curve 105, since the curve 105 is a track within the display area of the dial 12, the curve 105 may be determined to be the predetermined track, and then it is detected whether the curve 105 exceeds the preset range, if the preset range is the display area of 1/5 in the display area of the dial 12, since the display area in the dial 12 through which the curve 105 passes exceeds the display area of 1/5 in the display area of the dial 12, the curve 105 may be determined to exceed the preset range, a second set of icons is displayed on the dial 12, see in particular fig. 5, which differs from the first set of icons in that: an alarm clock icon is displayed at the position of the 1 st identification position 13; displayed at the location of the second identification location 14 is a calendar icon; a weather icon is displayed at the position of the 3 rd identification position 15; and a game icon is displayed at the position of the 4 th identification position 16.

In another embodiment, the method further comprises: determining a third group of icons which are displayed on the N time identification positions and contain K icons at a first moment, wherein K is a positive integer which is greater than 1 and not greater than N; and at a second moment after the first moment, when the second moment meets a preset condition, adjusting currently displayed icons displayed on the N time identification positions from the third group of icons to a fourth group of icons, wherein the fourth group of icons is different from the third group of icons.

In the specific implementation process, the preset condition may be that the second time and the time difference before the first time are not less than the preset time, the preset time is, for example, 1 hour, 2 hours, 4 hours, 12 hours and the like, the time difference is not less than during the preset time, the current display icon on the N time identification positions is replaced, so that when the electronic device is at different times, the icons displayed on the N time identification positions are different.

For example, referring to fig. 1, when the smart watch 10 is in 10:15:15 seconds, the third group of icons including a set icon, a WeChat icon, a microblog icon, a music icon, a mail icon, a word icon, a telephone icon, a photo icon, a map icon, a short message icon, and a QQ icon is displayed on 12 identification positions on the dial plate 12 of the smart watch 10, at 12:15:15 seconds after 10:15:15 seconds, the preset time is 2 hours, since the time difference between 12:15:15 seconds and 10:15:15 seconds is 2 hours, the time difference is not less than the preset time, that is, if it is determined that the second time meets the preset condition, the currently displayed icons displayed on the N time indication positions are adjusted from the third group of icons to the fourth group of icons, specifically referring to fig. 5, where the fourth group of icons is different from the third group of icons in that: an alarm clock icon is displayed at the position of the 1 st identification position 13; displayed at the location of the second identification location 14 is a calendar icon; a weather icon is displayed at the position of the 3 rd identification position 15; and a game icon is displayed at the position of the 4 th identification position 16.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

first, in the electronic device with the touch display unit according to the embodiment of the present application, the first input operation is obtained first, and when the position of the first input operation is within the range of the first identification bit and a predetermined condition is satisfied, the first input operation is responded, because the touch display unit has an indication unit including N time identification bits, each of which can be used to display an icon corresponding to a corresponding application program in the electronic device, so that when responding to the first input operation, the first application program corresponding to the first time identification can be started up through the first operation, the time for finding the application is saved, and the technical problem that the time for finding the application is long when the existing electronic device starts the application is solved, the technical effect of starting the specific application more quickly is achieved, and the user experience is better.

Secondly, because this application embodiment is after starting the application that the icon that shows on the first marker position corresponds, obtain to the second input operation on the touch-control display element, because confirm the position of second input operation is located when the scope of second marker position, still need confirm the duration of second input operation is in the preset time range, just respond to the second input operation, and then make and more accurately select corresponding application, reduce the probability of maloperation for user's experience is better.

Thirdly, determining a third group of icons which are displayed on the N time identification positions and contain K icons at a first moment, wherein K is a positive integer which is greater than 1 and not greater than N; and at a second moment after the first moment, when the second moment meets a preset condition, adjusting the currently displayed icons displayed on the N time identification positions from the third group of icons to a fourth group of icons, wherein the fourth group of icons is different from the third group of icons, so that the electronic equipment can display different application icons at different moments, and the user experience is better.

Based on the same technical concept as the method, an embodiment of the present application provides an electronic device having a touch display unit, where the touch display unit has an indication unit thereon for indicating time information, and the indication unit includes N time indication positions, where each of the N time indication positions can be used to display an icon corresponding to a corresponding application program in the electronic device, where N is a positive integer not less than 1.

The electronic device is further an electronic device such as a smart watch, a smart bracelet, a glove-type mobile phone, and the like, and the touch display unit is an electronic device such as an LED touch screen, an LCD touch screen, and the like.

Referring to fig. 6, the electronic device includes: a first operation acquisition unit 601, configured to acquire a first input operation on the touch display unit; a detecting unit 602, configured to detect whether a position of the first input operation is located within a range of a first identification bit of the N time identification bits; an application starting unit 603, configured to respond to the first input operation when the position is within the range of the first identification position and the first input operation meets a predetermined condition, and start a first application program corresponding to an icon displayed on the first identification position.

Optionally, the detecting unit 602 is specifically configured to, when the electronic device is a smart watch, determine 12 time identification bits displayed on a dial of the smart watch, where the 12 time identification bits are the N time identifications, and detect whether the position is located in a range of the first time identification in the 12 time identification bits.

Optionally, the electronic device further includes a second operation obtaining unit, configured to obtain, after the first application corresponding to the icon displayed on the first identifier is started, a second input operation on the touch display unit;

the electronic equipment further comprises a selecting unit, configured to respond to the second input operation and select a second application program corresponding to the icon displayed on the second identification position when the position of the second input operation is within a range of a second identification position of the N time identification positions and the duration of the second input operation is within a preset time range.

Optionally, the electronic device further includes a third operation obtaining unit, configured to obtain a third input operation on the touch display unit after the first application corresponding to the icon displayed on the first identification position is started;

the electronic equipment further comprises an icon adjusting unit, configured to adjust a current display position of an icon displayed on the third identification position in response to the third input operation when the position of the third input operation is within a range of a third identification position of the N time identification positions and a movement trajectory of the third input operation is a predetermined trajectory, where the adjusted display position of the icon matches the movement trajectory.

Optionally, the electronic device includes a first icon switching unit, configured to determine whether a movement trajectory of the third input operation exceeds a preset range when the position of the third input operation is within a range of a third identification position of the N time identification positions, and determine a first group of icons that are displayed on the N time identification positions and include M icons when the movement trajectory is determined to exceed the preset range, and adjust currently-displayed icons displayed on the N time identification positions from the first group of icons to a second group of icons, where the second group of icons is different from the first group of icons, and M is a positive integer greater than 1 and not greater than N.

Optionally, the electronic device further includes a second icon switching unit, configured to determine, at a first time, a third group of icons that includes K icons and that is displayed on the N time indication locations, where K is a positive integer greater than 1 and not greater than N, and adjust, at a second time after the first time, a currently displayed icon displayed on the N time indication locations from the third group of icons to a fourth group of icons when the second time meets a preset condition, where the fourth group of icons is different from the third group of icons.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

first, in the electronic device with the touch display unit according to the embodiment of the present application, the first input operation is obtained first, and when the position of the first input operation is within the range of the first identification bit and a predetermined condition is satisfied, the first input operation is responded, because the touch display unit has an indication unit including N time identification bits, each of which can be used to display an icon corresponding to a corresponding application program in the electronic device, so that when responding to the first input operation, the first application program corresponding to the first time identification can be started up through the first operation, the time for finding the application is saved, and the technical problem that the time for finding the application is long when the existing electronic device starts the application is solved, the technical effect of starting the specific application more quickly is achieved, and the user experience is better.

Secondly, because this application embodiment is after starting the application that the icon that shows on the first marker position corresponds, obtain to the second input operation on the touch-control display element, because confirm the position of second input operation is located when the scope of second marker position, still need confirm the duration of second input operation is in the preset time range, just respond to the second input operation, and then make and more accurately select corresponding application, reduce the probability of maloperation for user's experience is better.

Thirdly, determining a third group of icons which are displayed on the N time identification positions and contain K icons at a first moment, wherein K is a positive integer which is greater than 1 and not greater than N; and at a second moment after the first moment, when the second moment meets a preset condition, adjusting the currently displayed icons displayed on the N time identification positions from the third group of icons to a fourth group of icons, wherein the fourth group of icons is different from the third group of icons, so that the electronic equipment can display different application icons at different moments, and the user experience is better.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. An information processing method is applied to an electronic device with a touch display unit, wherein the touch display unit is provided with an indicating unit for indicating time information, the indicating unit comprises N time identification bits, each identification bit can be used for displaying an icon, the icon corresponds to a corresponding application program in the electronic device, and N is a positive integer not less than 1, and the method comprises the following steps:

acquiring a first input operation aiming at the time identification position on the touch display unit;

detecting whether the position of the first input operation is located in the range of a first identification bit in the N time identification bits;

when the position is located in the range of the first identification position and the first input operation meets a preset condition, responding to the first input operation and starting a first application program corresponding to an icon displayed on the first identification position; wherein,

after the starting of the first application program corresponding to the icon displayed on the first identification position, the method further includes:

acquiring a third input operation on the touch display unit;

and if the position of the third input operation is located in the range of a third identification position in the N time identification positions and the movement track of the third input operation is a preset track, responding to the third input operation and adjusting the current display position of the icon displayed on the third identification position, wherein the adjusted display position of the icon is matched with the movement track.

2. The method according to claim 1, wherein, when the electronic device is a smart watch, the detecting whether the position of the first input operation is within a range of a first flag of the N time flags specifically includes:

determining 12 time identification positions displayed on a dial plate of the intelligent watch, wherein the 12 time identification positions are the N time identification positions;

detecting whether the position is within a range of the first identification bit of the 12 time identification bits.

3. The method of claim 1 or 2, wherein after the launching of the first application corresponding to the icon displayed on the first identification location, the method further comprises:

acquiring a second input operation on the touch display unit;

and if the position of the second input operation is located in the range of a second identification position in the N time identification positions and the duration time of the second input operation is within a preset time range, responding to the second input operation and selecting a second application program corresponding to the icon displayed on the second identification position.

4. The method as claimed in claim 1, wherein if the position of the third input operation is within a range of a third flag of the N time flags and the movement trajectory of the third input operation is a predetermined trajectory, the method further comprises:

judging whether the moving track exceeds a preset range;

and when the moving track is judged to be beyond a preset range, determining a first group of icons containing M icons displayed on the N time identification positions, and adjusting the currently displayed icons displayed on the N time identification positions from the first group of icons to a second group of icons, wherein the second group of icons is different from the first group of icons, and M is a positive integer which is greater than 1 and not greater than N.

5. The method of claim 1 or 2, wherein the method further comprises:

determining a third group of icons which are displayed on the N time identification positions and contain K icons at a first moment, wherein K is a positive integer which is greater than 1 and not greater than N;

and at a second moment after the first moment, when the second moment meets a preset condition, adjusting currently displayed icons displayed on the N time identification positions from the third group of icons to a fourth group of icons, wherein the fourth group of icons is different from the third group of icons.

6. An electronic device having a touch display unit, the touch display unit having an indication unit thereon for indicating time information, the indication unit including N time indication bits, each of which can be used to display an icon corresponding to a corresponding application program in the electronic device, where N is a positive integer not less than 1, the electronic device comprising:

a first operation acquisition unit, configured to acquire a first input operation for the time identification bit on the touch display unit;

the detection unit is used for detecting whether the position of the first input operation is located in the range of a first identification bit in the N time identification bits;

the application starting unit is used for responding to the first input operation and starting a first application program corresponding to the icon displayed on the first identification position when the position is located in the range of the first identification position and the first input operation meets a preset condition; wherein,

the electronic equipment further comprises a third operation acquisition unit, and after the first application program corresponding to the icon displayed on the first identification position is started, a third input operation on the touch display unit is acquired;

the electronic equipment further comprises an icon adjusting unit, configured to adjust a current display position of an icon displayed on the third identification position in response to the third input operation when the position of the third input operation is within a range of a third identification position of the N time identification positions and a movement trajectory of the third input operation is a predetermined trajectory, where the adjusted display position of the icon matches the movement trajectory.

7. The electronic device according to claim 6, wherein the detection unit is specifically configured to, when the electronic device is a smart watch, determine 12 time flags displayed on a dial of the smart watch, where the 12 time flags are the N time flags, and detect whether the position is within a range of the first flag of the 12 time flags.

8. The electronic device according to claim 6 or 7, wherein the electronic device further comprises a second operation acquisition unit, configured to acquire a second input operation on the touch display unit after the first application corresponding to the icon displayed on the first identification position is started;

the electronic equipment further comprises a selecting unit, configured to respond to the second input operation and select a second application program corresponding to the icon displayed on the second identification position when the position of the second input operation is within a range of a second identification position of the N time identification positions and the duration of the second input operation is within a preset time range.

9. The electronic device according to claim 8, wherein the electronic device includes a first icon switching unit that, when the position of the third input operation is within a range of a third identification bit of the N time identification bits and a movement trajectory of the third input operation is a predetermined trajectory, determines whether the movement trajectory exceeds a preset range, and when it is determined that the movement trajectory exceeds the preset range, determines a first group of icons including M icons displayed on the N time identification bits and adjusts currently displayed icons displayed on the N time identification bits from the first group of icons to a second group of icons, the second group of icons being different from the first group of icons, M being a positive integer greater than 1 and not greater than N.

10. The electronic device according to claim 6 or 7, further comprising a second icon switching unit configured to determine, at a first time, a third group of icons including K icons displayed on the N time indication positions, where K is a positive integer greater than 1 and not greater than N, and adjust, at a second time after the first time, a currently displayed icon displayed on the N time indication positions from the third group of icons to a fourth group of icons, the fourth group of icons being different from the third group of icons, when the second time satisfies a preset condition.