CN104407791B - information processing method and electronic equipment - Google Patents

Abstract

The invention discloses information processing method and electronic equipment, wherein the method comprises the steps of displaying th partial content of display content and an adjusting control in a display area, wherein the adjusting control is at least used for changing the relative position relation between the partial content displayed in the display area and the display content, collecting operation data aiming at the adjusting control, responding to the operation data, executing a instruction when the operation data meets a th condition so as to display a second partial content of the display content in the display area, wherein the second relative position relation between the second partial content and the display content is different from the th relative position relation between the th partial content and the display content, and executing a second instruction when the operation data meets a second condition, wherein the second instruction is different from the th instruction.

Description

information processing method and electronic equipment

Technical Field

The present invention relates to the field of data processing technologies, and in particular, to information processing methods and electronic devices.

Background

With the development of electronic technology, mobile terminals are increasingly used , and users often use touch screen terminals to view content such as videos or documents.

In the existing scheme, a user can only adjust the display progress of content by dragging an adjusting control on a content display progress bar or sliding on a screen, and cannot perform other operations on the display content of a touch screen terminal, so that the user experience is affected by an operable mode sheet of the user.

Disclosure of Invention

The invention aims to provide information processing methods and electronic equipment, which are used for solving the technical problem that user experience is influenced by a user operable mode list in the prior art.

The invention provides information processing methods, which comprise the following steps:

th part of the display content and an adjusting control are displayed in the display area, wherein the adjusting control is at least used for changing the relative position relation between the part of the display content and the display content;

collecting operational data for the adjustment control;

executing instructions to cause a second portion of the display content to be displayed in the display area in a second relative positional relationship to the display content that is different from a th relative positional relationship of the th portion of the content to the display content in response to the operational data when the operational data satisfies an th condition;

executing a second instruction when the operational data satisfies a second condition, the second instruction being different from the th instruction.

The method preferably further comprises changing a value of a target attribute of the -th section of content, the target attribute indicating a degree of difference of the -th section of content.

In the above method, preferably, the executing the second instruction includes:

analyzing the operation data to obtain th operation parameters and second operation parameters corresponding to the operation data;

obtaining an adjustment value of a target attribute of the part of content according to the operation parameter and the second operation parameter;

generating the second instruction according to the adjusted value of the target attribute, wherein the second instruction is used for changing the value of the target attribute of the th part of content according to the adjusted value.

The above method, preferably, further comprises:

executing the instruction and the second instruction concurrently when the operational data satisfies the th condition and satisfies the second condition.

The above method, preferably, the executing the th instruction and the second instruction simultaneously includes:

changing values of target attributes of respective portions of the display content between the th portion of content and the second portion of content while the display area displays the second portion of content, the target attributes indicating respective degrees of difference between the th portion of content and the second portion of content.

The method preferably further includes, after executing the second instruction:

starting from the th partial content, the second instruction is sequentially executed on a plurality of consecutive partial contents subsequent to the th partial content to change the value of the target attribute of the plurality of consecutive partial contents subsequent to the th partial content until an end instruction is received.

In the method, preferably, the adjustment control includes an adjustment object and an adjustment range, where the adjustment of the position of the adjustment object in the adjustment range can change a part of content displayed in the display area, and the displayed part of content matches with a relative position of the adjustment object in the adjustment range;

the th condition is that the operation direction of the operation body is th direction, and the included angle formed by the th direction and the straight line of the moving track of the adjusting object in the adjusting range is in the th angle range;

correspondingly, the instruction is executed when the operation direction of the operation body in the operation data is the th direction, and the second instruction is executed when the operation direction of the operation body in the operation data is the second direction.

In the method, preferably, the adjustment control includes an adjustment object and an adjustment range, where the adjustment of the position of the adjustment object in the adjustment range can change a part of content displayed in the display area, and the displayed part of content matches with a relative position of the adjustment object in the adjustment range;

wherein the th condition is that both the operating body operation start point and the operating end point are in the adjustment range, the second condition is that , which is one of the operating body operation start point and the operating end point, is in the adjustment range;

correspondingly, the th instruction is executed when both the operation starting point and the operation end point in the operation data are in the adjusting range, and the second instruction is executed when of the operation starting point and the operation end point in the operation data are in the adjusting range.

The above method, preferably, during the process of collecting the operation data for the adjustment control, further includes:

displaying th marking curve on the adjusting control, wherein the th marking curve corresponds to the operation track of the operation body corresponding to the operation data.

The method preferably further includes, after executing the second instruction:

displaying a second marking curve on the adjusting control, wherein the display position of each marking point on the second marking curve on the adjusting control corresponds to the relative position of the part of the content corresponding to the corresponding marking point in the display content, and the display attribute value of each marking point on the respective position corresponds to the value of the target attribute of the part of the content displayed in the display content corresponding to the respective position.

In the method, a relative position relationship of a part of content corresponding to the attribute value with respect to the display content is preferably selected, so that when a display instruction for the display content is received, a third mark curve is displayed on an adjustment control of the display content, each mark point in the third mark curve has a display position on the adjustment control, and a display attribute value of each mark point corresponds to an attribute value corresponding to the mark point display position in the attribute value set.

The method is preferably applied to the th device, and further comprises the following steps:

storing the value of the target attribute of each part of content in the display content to obtain an attribute value set;

transmitting the set of attribute values to a second device connected to the th device.

The invention also provides another information processing methods, which comprises:

receiving result data of a plurality of operations for display content displayed in a display area, the result data including execution data for executing a second instruction when each operation data for each partial content in the display content satisfies a second condition;

and generating statistical data of each part of the display content according to the execution data.

The above method, preferably, the execution data includes: a plurality of values of a target attribute of each of the partial contents in the display contents that is changed;

correspondingly, generating statistical data of each part of the display content according to the execution data comprises:

acquiring the number of times that each part of the display content is changed by the value of the target attribute according to the plurality of values of the target attribute of each part of the display content;

and acquiring an accumulated value of the values of the changed target attribute of each part of the display contents according to the plurality of values of the changed target attribute of each part of the display contents.

The present invention also provides electronic devices, comprising:

a content display unit, configured to display th partial content of display content and an adjustment control in a display area, where the adjustment control is at least used for a mutual position relationship between the partial content displayed in the display area and the display content;

the operation acquisition unit is used for acquiring operation data aiming at the adjusting control;

an operation response unit, which is used for responding to the operation data, triggering the execution unit when the operation data meets the th condition, and triggering the second execution unit when the operation data meets the second condition;

an execution unit for executing a instruction to cause a second portion of the display content to be displayed in the display area, the second relative positional relationship of the second portion of content to the display content being different from the relative positional relationship of the portion of content to the display content;

a second execution unit to execute a second instruction, the second instruction different from the th instruction.

In the electronic device, it is preferable that the second instruction is configured to change a value of a target attribute of the -th section content, where the target attribute indicates a difference degree of the -th section content.

In the electronic device, preferably, the second execution unit includes:

the data analysis subunit is used for analyzing the operation data to obtain th operation parameters and second operation parameters corresponding to the operation data;

a tuning-to-obtaining subunit, configured to obtain, according to the th operation parameter and the second operation parameter, a tuning value of a target attribute of the th piece of content;

an instruction generating subunit, configured to generate the second instruction according to the adjustment value of the target attribute, where the second instruction is configured to change the value of the target attribute of the partial content according to the adjustment value.

The electronic device preferably further includes:

a third execution unit to execute the instruction and the second instruction simultaneously when the data response unit determines that the operation data satisfies the th condition and the second condition.

In the electronic device, preferably, the third executing unit includes:

a quick change subunit, configured to change, while the second portion of content is being displayed in the display area, values of target attributes of respective portions of content in the display content between the th portion of content and the second portion of content, the target attributes indicating respective degrees of difference between the th portion of content and the second portion of content.

The electronic device preferably further includes:

a repeated execution unit, configured to, after the second execution unit executes the second instruction, start from the th partial content, sequentially execute the second instruction on a plurality of continuous partial contents subsequent to the th partial content to change the value of the target attribute of a plurality of continuous partial contents subsequent to the th partial content until an end instruction is received.

In the electronic device, preferably, the adjustment control includes an adjustment object and an adjustment range, where position adjustment of the adjustment object in the adjustment range can change a part of content displayed in the display area, and the displayed part of content matches a relative position of the adjustment object in the adjustment range;

the th condition is that the operation direction of the operation body is th direction, and the included angle formed by the th direction and the straight line of the moving track of the adjusting object in the adjusting range is in the th angle range;

correspondingly, when the operation response unit judges that the operation direction of the operation body in the operation data is the th direction, the th execution unit is triggered, and when the operation response unit judges that the operation direction of the operation body in the operation data is the second direction, the second execution unit is triggered.

In the electronic device, preferably, the adjustment control includes an adjustment object and an adjustment range, where position adjustment of the adjustment object in the adjustment range can change a part of content displayed in the display area, and the displayed part of content matches a relative position of the adjustment object in the adjustment range;

wherein the th condition is that both the operating body operation start point and the operating end point are in the adjustment range, the second condition is that , which is one of the operating body operation start point and the operating end point, is in the adjustment range;

correspondingly, the th execution unit is triggered when the operation response unit judges that the operation starting point and the operation end point in the operation data are both in the adjustment range, and the second execution unit is triggered when the operation response unit judges that of the operation starting point and the operation end point in the operation data are in the adjustment range.

The electronic device preferably further includes:

an th curve display unit, configured to display a th marking curve on the adjustment control in the process of the operation data of the adjustment control being acquired by the operation acquisition unit, where the th marking curve corresponds to the operation trajectory of the operation body corresponding to the operation data.

The electronic device preferably further includes:

and a second curve display unit, configured to display a second marking curve on the adjustment control after the second execution unit executes the second instruction, where a display position of each marking point on the second marking curve on the adjustment control corresponds to a relative position of a part of content corresponding to the corresponding marking point in the display content, and display attribute values of each marking point at their respective positions respectively correspond to values of target attributes of the part of content displayed in the display content corresponding to their respective positions.

The electronic device preferably further includes:

storage unit, configured to store values of target attributes of each part of the display content to obtain a set of attribute values, where each attribute value in the set of attribute values has a corresponding position on an adjustment control of the display content, and the corresponding position of each attribute value corresponds to a relative positional relationship between the part of the display content corresponding to the attribute value and the display content, so that when a display instruction for the display content is received, a third curve display unit is triggered;

and the third curve display unit is used for displaying a third mark curve on the adjusting control of the display content, each mark point in the third mark curve is respectively provided with a display position on the adjusting control, and the display attribute value of each mark point corresponds to the attribute value corresponding to the display position of the mark point in the attribute value set.

The electronic device preferably further includes:

the second storage unit is used for storing the value of the target attribute of each part of content in the display content to obtain an attribute value set;

and the set sending unit is used for sending the attribute value set to other electronic equipment connected with the electronic equipment.

The present invention also provides another kinds of electronic devices, including:

a data receiving unit configured to receive result data of a plurality of operations with respect to display content displayed in a display area, the result data including execution data for executing a second instruction when each operation data for each partial content in the display content satisfies a second condition;

and the data statistical unit is used for generating statistical data of each part of the display content according to the execution data.

In the above electronic device, preferably, the execution data includes: a plurality of values of a target attribute of each of the partial contents in the display contents that is changed;

correspondingly, the data statistical unit comprises:

a statistics subunit, configured to obtain, according to the plurality of values of the target attribute of each of the partial contents in the display content that is changed, the number of times that the value of the target attribute of each of the partial contents in the display content is changed;

and the second statistical subunit is used for acquiring an accumulated value of the values of the changed target attribute of each part of the display contents according to the plurality of values of the changed target attribute of each part of the display contents.

According to the scheme, information processing methods and electronic devices provided by the invention collect operation data for an adjusting control when th part of content of the display content and the adjusting control are displayed on a display area, then respond to the operation data, and execute different instructions according to different conditions met by the operation data, so that different operation effects are brought.

Drawings

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

FIG. 1 is a flow chart of an embodiment of methods for processing information according to the present invention;

FIG. 2a, FIG. 2b and FIG. 2c are exemplary diagrams of a display area according to an embodiment of the present invention;

FIG. 3 is a partial flowchart of an embodiment two of information processing methods provided by the present invention;

FIGS. 4a to 4f are diagrams illustrating an exemplary application of the embodiment of the present invention;

FIG. 5 is a flowchart of a third embodiment of methods for processing information according to the present invention;

FIG. 6 is a flowchart of a fourth embodiment of methods for processing information according to the present invention;

FIGS. 7a to 7h, 8a to 8j, and 9a to 9g are diagrams illustrating another application example according to an embodiment of the present invention;

FIG. 10 is a flow chart of an embodiment five of information processing methods provided by the present invention;

FIGS. 11a, 11b, 11c are diagrams of another application example according to the embodiment of the present invention;

FIG. 12 is a flowchart of an embodiment six of methods for processing information according to the invention;

FIGS. 13 a-13 c are schematic diagrams of another application example according to an embodiment of the present invention;

FIG. 14 is a flow chart of a seventh embodiment of methods for processing information according to the present invention;

FIG. 15 is a diagram illustrating another application example of an embodiment of the present invention;

fig. 16 is a flowchart of an eighth embodiment of information processing methods according to the present invention;

FIG. 17 is a flow chart of a ninth embodiment of methods for processing information according to the present invention;

FIG. 18 is a partial flowchart of an embodiment ten of methods for processing information according to the present invention;

fig. 19 is a schematic structural diagram of an embodiment ten of electronic devices provided by the invention;

fig. 20 is a schematic partial structural diagram of a twelfth embodiment of electronic devices according to the present invention;

fig. 21 is a schematic structural diagram of an electronic device according to a thirteenth embodiment of the invention;

FIG. 22 is a structural diagram of another according to a thirteenth embodiment of the present invention;

fig. 23 is a schematic structural diagram of an embodiment fourteen electronic devices of types provided in the present invention;

fig. 24 is a schematic structural diagram of an embodiment fifteen of electronic devices provided by the invention;

fig. 25 is a schematic structural diagram of sixteen examples of electronic devices according to the present invention;

fig. 26 is a schematic structural diagram of a seventeenth embodiment of electronic devices according to the present invention;

fig. 27 is a schematic structural diagram of eighteen embodiments of electronic devices provided by the present invention;

fig. 28 is a schematic structural diagram of nineteen embodiments of electronic devices provided by the invention;

fig. 29 is a schematic partial structural diagram of twenty embodiments of information processing methods according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only partial embodiments of of the present invention, rather than all embodiments.

Referring to fig. 1, a flowchart of an embodiment of methods for processing information is provided, where the method is applied to a scene having a display area in which display contents, such as multimedia files (including audio files and videos) or text files (including txt files and word files), can be displayed and played.

It should be noted that, when displaying the display content in the display area, if the data of the display content is not enough to be displayed on the display area at the same time , the relative position of the part of the content displayed on the display area in the display content may be displayed by displaying an adjustment control, and the adjustment control may also be operated to change the content displayed on the display area, such as adjusting the display progress of the display content on the display area.

In this embodiment, when processing the operation on the display area is implemented, the following steps may be implemented:

and 101, displaying th part of the display content and the adjusting control in the display area.

As mentioned above, when the display content is displayed on the display area but the display area of the display area is not large enough to display the whole data of the display content, the adjustment control of the display content is displayed in the display area, and the part of the display content currently displayed in the display area is referred to as th part of content to show a difference.

It should be noted that the adjustment control in the foregoing is used to change a relative positional relationship between a part of content displayed in the display area and the display content, where the relative positional relationship may be a relative spatial positional relationship, for example, a relative position of a current display page with respect to an entire word document in a text file such as word; the relative time position relationship may also be, for example, the relative position of the picture content displayed on the current display with respect to the entire movie duration in a video file such as a movie.

Step 102: operational data for the adjustment control is collected.

When the operation data for the adjustment control is collected, the collection of the operation data of the adjustment control itself is also included, and the collection of the operation data on the area position which is different from the adjustment control on the display area but corresponds to the part of the content displayed by the adjustment control on the display area is also included, as shown in an area x1 where the adjustment control is located and an area x2 where the adjustment control is not located on the display area in fig. 2b, an area x2 is associated with the adjustment control on the th part of the content currently displayed on the display area, that is, when the th part of the content is displayed on the display area, an operation body operation appears in an area x2, it can be understood that the operation body and the operation body on the area x1 when the th part of the content is displayed on the display area are operations with the same operation effect.

Step 103, responding to the operation data, executing step 104 when the operation data meets th condition, and executing step 105 when the operation data meets second condition.

In this embodiment, when responding to the operation data for the adjustment control, the corresponding response is performed according to the condition that the operation data satisfies, that is, when the operation data satisfies the preset th condition, the scheme in step 104 is executed, and when the operation data satisfies the preset second condition, the scheme in step 105 is executed, which is obvious that the scheme in step 104 is different from the scheme in step 105.

It should be noted that, when determining whether the operation data satisfies the th condition or the second condition, it is determined whether the same attribute or category of the operation data satisfies the th condition and the second condition, for example, it is determined whether an operation type or an operation trajectory of the operation data satisfies the th condition or the second condition, or it is determined whether an operation type satisfies the th condition or the second condition.

And 104, executing an instruction to display a second part of the display content in the display area, wherein the second relative position relationship between the second part of the display content and the display content is different from the relative position relationship between the part of the display content and the display content.

Wherein the execution of the th instruction has an effect of changing a relative positional relationship of a part of the content displayed in the display region with respect to the display content, which may be a relative spatial positional relationship, for example, when the display content is text data (20 pages in total, the text content is coded with the display area of the display region for the number of pages of the text content thereof), the execution of the th instruction has an effect of changing the content of a third page ( th relative positional relationship) displayed in the display region to the content of a fifth page (second relative positional relationship) of the display content divided with the display region as a standard page, or, when the display content is video data (110 minutes in total), the execution of the th instruction has an effect of changing the display screen of a sixth minute ( th relative positional relationship) displayed in the display region to a display screen of a seventeenth minute (second relative positional relationship), and so on, as shown in fig. 2c, after the execution of the th instruction, the part of the content displayed in the display region advances from "25 th" 592 "to" 592 ".

Step 105, executing a second instruction, wherein the second instruction is different from the th instruction.

The second instruction is generated and executed when the operation data meets a second condition, and is different from the th instruction, so as to implement response of different execution schemes when the operation data meets different conditions, that is, the th instruction can implement adjustment control on the display progress of the content displayed in the display area, and the second instruction is an execution effect different from the progress adjustment, that is, in this embodiment, response of the operation data meeting the second condition different from the th condition can be completed, so as to complete response of the operation, so as to achieve an effect different from the progress adjustment.

As can be seen from the foregoing solution, information processing method embodiments provided by the present invention collect operation data for an adjustment control when th partial content and the adjustment control of a display content are displayed on a display area, further respond to the operation data, and execute different instructions according to different conditions met by the operation data, so as to bring different operation effects.

Based on the implementation scheme in the foregoing embodiment, the second instruction may be used to change the value of the target attribute of the th part of content, that is, when the th part of content and the adjustment control of the display content are displayed in the display area, the second instruction is executed in response to the collected operation data for the adjustment control, so as to achieve the purpose of changing the value of the target attribute of the th part of content.

Wherein each partial contents in the display contents have their respective target attributes, and the initial value of the target attribute of each partial content is 0, this target attribute can indicate the degree of difference of its corresponding partial contents, which can be understood as the degree of difference of its corresponding partial contents with respect to the other partial contents or the non-operated partial contents of the display contents or before the partial contents are operated, such as the degree of difference of the degree of wonderful degree, the degree of difference of interest, the degree of difference of recommendation, and so on.

According to the foregoing, the value of the target attribute of the th part of content changed by the second instruction can be understood as a recommendation index of the th part of content by the user of the operation data, a highlight value of the th part of content considered by the user of the operation data, a focus value of the th part of content considered by the user of the operation data, and the like.

It should be noted that, in the foregoing embodiments, in the scheme of responding to the operation data satisfying the th condition and executing the th instruction, the value of the target attribute of the partial content displayed in the display area is not modified while the partial content displayed in the display area is changed, that is, the value of the target attribute of each of the th partial content and the second partial content of the partial content displayed in the changed display area is maintained as an initial value of 0 while the th partial content displayed in the display area is changed to the second partial content.

Referring to fig. 3, it is a flowchart of an implementation of the step 105 in the second embodiment of the information processing method provided by the present invention, wherein a process of executing the second instruction in the step 105 may include the following steps:

and 151, analyzing the operation data to obtain th operation parameters and second operation parameters corresponding to the operation data.

The th operation parameter may be a parameter indicating an operation direction of the operation body in the operation data, the operation direction may be an operation in the same direction, such as the operation body slides only upward, and accordingly, the th operation parameter is represented by a positive state parameter, as shown in fig. 4a, the operation direction may also be an operation in a different direction, such as the operation body slides only upward, and accordingly, the th operation parameter may be represented by a positive or negative state parameter, as shown in fig. 4b, for example, the th operation parameter is positive when the operation body slides upward, and the th operation parameter when the operation body slides downward.

The second operation parameter may indicate a parameter of an operation amplitude of the operation body in the operation data, where the second operation parameter only has a positive amplitude state when the th operation parameter is represented by a positive state parameter, it should be noted that the amplitudes are the same, that is, the second operation parameter corresponding to the operation is represented by an amplitude of a natural number no matter how large the operation amplitude of the operation body for the adjustment control (the operation data exists), and also may be different from in size, that is, the operation body determines the size of the second operation parameter in the operation data for the adjustment control in terms of the operation amplitude of the adjustment control, for example, when the operation body is for an operation of the adjustment control such as a slide y1 length or a y2 length, the second operation parameter corresponding to the generated operation data is represented by an amplitude 1, as shown in fig. 4 c', and the amplitude value may also be represented by a length of an operation track of the operation body, or a corresponding value of a track length, for example, that the operation body is represented by a slide y1, a slide y2, a slide y 3, a slide length corresponding to the adjustment control, or a preset operation length of the adjustment control, or a zoom-up operation parameter shown in a preset scale 1 or a preset scale for the operation of the adjustment control 3 y 3.

Correspondingly, when the operation parameter is represented by a positive-negative state parameter, the second operation parameter has a positive-negative state, it should be noted that the magnitudes are the same, that is, the second operation parameter corresponding to the operation is represented by a natural number of regardless of the operation amplitude of the operation body for the adjustment control (operation data exists), and similarly, the magnitude here may be different from , that is, the operation body determines the magnitude of the second operation parameter in the operation data for the adjustment control for the operation amplitude of the adjustment control, for example, when the operation body for the adjustment control, such as sliding down for a length of y1 or sliding up for a length of y2, the operation parameter corresponding to the generated operation data is respectively a negative state parameter or a positive state parameter, the corresponding second operation parameter is represented by a value of negative state 1, the magnitude here may also be represented by the length of the operation track of the operation body, or may be represented by a proportional value of the length of the operation body, for example, the operation body may be represented by a preset proportional value of 631 for the operation length of the operation body, or by a preset proportional value of the operation body for the operation length of the adjustment control, such as sliding down for the operation body, the operation parameter of the operation body, such as sliding down for example, the operation body may be represented by a preset proportional 634, or proportional to the zoom-up for the zoom-up parameter of the operation parameter of the zoom-up operation parameter of the operation body, and the operation body, for example, the operation body, where the operation parameter of the operation body may be represented by a preset proportional 9, and the preset proportional value of the preset proportional to zoom-up operation parameter of the preset operation parameter.

152, obtaining an adjustment value of a target attribute of the th part of content according to the th operation parameter and the second operation parameter;

in the step 152, a value symbol corresponding to the th operation parameter may be added to the amplitude of the second operation parameter to obtain the adjustment value.

For example, the th operation parameter is a positive state parameter, the second operation parameter is 1, the adjustment value is +1, the th operation parameter is a negative state parameter, the second operation parameter is 5, the adjustment value is-5, the th operation parameter is a positive state parameter, the second operation parameter is 3, the adjustment value is +3, and so on.

And step 153, generating a second instruction according to the adjusted value of the target attribute, wherein the second instruction is used for changing the value of the target attribute of the th part of content according to the adjusted value.

That is, the change in the value of the target attribute depends on two factors, th operating parameter and a second operating parameter corresponding to the operating data, the th operating parameter determining the increase or decrease in the value of the target attribute, and the second parameter determining the magnitude of the increase or decrease in the value of the target attribute.

Specifically, when the second instruction is executed to change the value of the target attribute of the th section content, the value of the target attribute of the th section content may be modified to be a cumulative sum of the original value of the target attribute of the th section content and the adjustment value.

It should be noted that, when the value of the target attribute of the other part of the content displayed without being operated does not change, and the original value is maintained, for example, 0, etc. there may be two cases in which types of content with the target attribute value of 0 are displayed in the display area, the operation body has not operated the adjustment control at that time, and therefore, the value of the target attribute of the part of the content is maintained at 0, and another types of content are displayed in the display area, the operation body has operated the adjustment control at that time twice or more, so that the value of the target attribute of the part of the content is accumulated to be 0.

For example, the th operation parameter is a positive state parameter, the second operation parameter is 1, the adjustment value is +1, the original value of the target attribute of the th section of content is 0, then the value of the target attribute of the th section of content is modified to +1 after the second instruction is executed, the th operation parameter is a negative state parameter, the second operation parameter is 5, the adjustment value is-5, the original value of the target attribute of the th section of content is +2, then the value of the target attribute of the th section of content is modified to-3 after the second instruction is executed, the th operation parameter is a positive state parameter, the second operation parameter is 3, the adjustment is to +3, the original value of the target attribute of the th section of content is-3, then the value of the target attribute of the th section of content is modified to 0 after the second instruction is executed, and so on.

Referring to fig. 5, a flowchart of a third embodiment of methods for processing information is provided, where when the operation data satisfies the th condition and satisfies the second condition, the method further includes:

step 106, executing the th instruction and the second instruction simultaneously.

That is, when the th condition and the second condition are simultaneously satisfied by the operation data, not only the second partial content of the display content displayed in the display area is changed, but also the second instruction is executed on each partial content between the th partial content and the second partial content.

Specifically, the step 106 is to change the value of the target attribute of each part of the content between the th part of the content and the second part of the content in the display content while the second part of the content is displayed in the display area, so as to achieve the purpose of rapidly setting the th part of the content and the second part of the content.

The operation data satisfying the th condition and the second condition means that the operation of the operation body generating the operation data includes a th operation satisfying the second condition and a second operation satisfying the th condition, where the th operation is prior to the second operation, and the th operation and the operation data generated by the second operation can satisfy both the th condition and the second condition.

That is, if the operator needs to achieve the purpose of quickly setting the values of the target attributes of the respective partial contents between the th partial content and the second partial content, the operator needs to first perform an operation of changing the values of the target attributes, that is, an operation of satisfying the second condition, and then perform an operation of changing the partial contents displayed in the display area, that is, an operation of satisfying the th condition, so that the operation data generated by the continuous operation actions performed by the operator in the present embodiment is responded to simultaneously, so as to achieve the effect that the th instruction and the second instruction are simultaneously executed when the operation data simultaneously satisfies the nd condition and the second condition, that is, the operator performs an operation of sliding right after sliding up the display area displaying the second partial content, for example, the operator performs an operation of sliding right after sliding up the adjustment control, first performs an operation of "sliding up" and then satisfies the second partial content, "and then performs a sliding up" to reach the values of the target attributes of the partial contents between the second partial contents "" and the operation of sliding right after sliding up the adjustment control, and the corresponding operation of the content in the present embodiment, the operation of changing the values of the target attributes of the partial contents between the display area displaying the contents, and the corresponding content, and the corresponding operation of the contents of the second partial contents, and the operation of the second partial contents displayed by performing the operation of the display area displaying the operation of the display area.

In the above step 106, in addition to changing the values of the target attributes of the contents of the th part and the second part in the display content, the values of the target attributes of the th part and the second part may be changed, or only the value of the target attribute of the th part may be changed, and the value of the target attribute of the second part is not modified.

Referring to fig. 6, a flowchart of a fourth embodiment of information processing methods provided in the present invention is shown, where after step 105, the method may further include the following steps:

and 107, starting from the th part of content, sequentially executing the second instruction on the th part of content and then the continuous parts of content to change the value of the target attribute of the continuous parts of content after the th part of content until receiving an ending instruction.

After modifying the value of the target attribute of the content of the No. part, the same operation is performed on the content of each part after the content of the No. part with the instruction execution effect of the second instruction, that is, the value of the target attribute of the content of each part after the content of the No. part is modified is consistent with the value of the target attribute of the content of the No. part until an end instruction is received, the content of each part after the end instruction is received is not processed similarly, but the operation corresponding to the end instruction is performed, for example, after the second instruction is performed on the content of the 3 rd minute in a video file (30 minutes in total), the second instruction is performed on the content of the 3 minutes in the video file continuously for 5 minutes after the content of the 3 minute, the end instruction is received for 8 minutes after the content of the 5 minutes, the operation of repeatedly performing the second instruction is ended, that is, only the value of the target attribute of the content between the 3 minute after the content and the 8 minutes is changed, and the value of the target attribute is shown in the example in the corresponding example of the modified content shown in FIG. 7a, and the corresponding example, which the corresponding example, the value of the second instruction is shown in FIG. 7a, and the corresponding example, in the example, the.

In this embodiment, the ending instruction may be the instruction or the second instruction corresponding to the operation data generated by the next operations, or may be a system instruction generated when the display of the display content is ended in the display area, that is, after the second instruction is executed on the th partial content, before a situation different from the current state occurs in the display area, for example, when the display of the display content is ended or the operation data for the adjustment control is received, the second instruction is repeatedly executed on each partial content displayed in the display area, that is, the value of the target attribute of each partial content is changed to be the same as the value of the target attribute of the th partial content.

For example, after the second instruction is executed on the content of the 3 rd minute in the video file, the second instruction is executed on the content of 5 minutes after the 3 rd minute, the command is received at the 8 th minute after the 5 th minute, the operation of repeatedly executing the second instruction can be ended while executing the command , the display progress of the display content is adjusted, only the value of the target attribute of the content of the portion between the 3 rd minute and the 8 th minute is changed, as shown in fig. 7a, the operation of repeatedly executing the second instruction is executed while the command is executed, the value of the target attribute of the content of the portion between the 3 rd minute and the 8 th minute is changed, as shown in fig. 7b, the value of the target attribute of the content of the portion between the second minute and the 8 th minute is changed, and the value of the target attribute of the content of the portion between the second minute 82 and the second instruction is changed, as shown in fig. 7b, and the target attribute of the content of the portion between the second minute is changed, and the target attribute of the content of the portion between the second minute after the 5 th minute after the command is received, and the command 368 minute is executed, and the adjustment progress of the corresponding adjustment target attribute of the content is changed.

When the ending instruction is the second instruction, the operation of changing the value of the target attribute of the continuous partial content may be ended, the ending instruction, i.e. the new second instruction, may be responded, the value of the target attribute of the partial content corresponding to the new second instruction may be modified, the value of the target attribute of the modified partial content may be modified based on the original value of the target attribute of the partial content, or the value of the target attribute of the partial content may be modified based on the value of the target attribute of the partial content, which is modified based on the original value of the target attribute of the partial content, or the value of the target attribute of the partial content may be modified first based on the value of the target attribute of the partial content, which is modified continuously according to the preamble, and then the modified value of the target attribute may be added based on the modified value of the target attribute, for example, after the second instruction is executed for 5 minutes after the third minute in the video file, the second instruction is executed for 5 minutes after the fifth minute, the ending the operation of repeatedly executing the previous second instruction , the ending the operation of the previous second instruction, that the value of the second instruction is changed for 3 minutes, or after the modified value of the new attribute is modified corresponding second instruction, and the value of the modified value of the second instruction is changed after the fifth minute, and the modified value of the modified attribute is changed corresponding second instruction is shown in the new attribute, and is as shown in fig. 7-7 minutes, or after the new second instruction, and after the modified value of the corresponding second instruction is changed, and after the modified value of the second instruction is shown in fig. 7 minutes, and after the new attribute of the second instruction is changed, and after the new attribute of the corresponding second instruction is reached, and after the value of the fifth instruction is 7 minutes, and after the value of the modified second instruction is shown in fig. 7-7 minutes, and after the new attribute of the new instruction is repeated execution of the value of the fifth minute, and after the fifth instruction is changed, and.

When the ending instruction is a system instruction at the end of the display content, at this time, the display of the display content on the display area is ended, that is, after the modification of the value of the target attribute is performed on the th partial content, no operation other than the ending instruction is received, and thus, the same operation as that of the th partial content is performed on the th partial content up to the final frame content of the display content, that is, the value of the target attribute of each partial content is changed to the value of the target attribute of the th partial content, for example, the value of the target attribute is set to 1 for each of a plurality of continuous partial contents between the 3 rd minute and the 30 th minute, which is the same as that of the target attribute of the th partial content at the 3 rd minute, as shown in fig. 7 g.

In addition, after the second instruction is executed, the second instruction is not executed on the subsequent partial content, that is, the second instruction is only used for changing the value of the target attribute of the th partial content corresponding to the corresponding operation data, and no value change is made on the subsequent partial content, and the modified value corresponding to the second instruction corresponding to the 8 th minute shown in fig. 7h is 2.

Based on the foregoing embodiments, when the present embodiment is applied to a device, an operation body operates an adjustment control for display content on a display area of the device, and the present embodiment collects operation data of the operation body, and corresponds to different operation modes of the operation body on the display area in different processing manners, where the following are possible operation modes of the operation body in the present embodiment:

a th operation mode, when the present embodiment identifies that the th operation parameter in the operation data satisfying the second condition is a positive state parameter and the magnitude of the second operation parameter determined by the size is 1, and when the operation body slides up the th distance (adjustment value +1) with respect to the adjustment control, the present embodiment responds to the operation data, modifies the value of the target attribute of the 4 th minute content (display content for 20 minutes) of the th partial content to +1, does not modify the value of the target attribute of the other partial content than the th partial content, as shown in fig. 8a, when the operation body slides up the second distance (adjustment value +1) with respect to the adjustment control again for 8 minutes, the present embodiment responds to new operation data, modifies the value of the target attribute of the 8 th minute partial content to +1, as shown in fig. 8 b.

A second operation mode, when the present embodiment identifies that the th operation parameter in the operation data satisfying the second condition is a positive state parameter and the magnitude of the second operation parameter determined by the size is 1, and the operation body slides up the th distance (adjustment value +1) with respect to the adjustment control, the present embodiment responds to the operation data, and after modifying the value of the target attribute of the 4 th minute content (display content for 20 minutes) of the th partial content to +1, the same modification may be performed on the values of the target attributes of a plurality of partial contents continuing after the th partial content to +1, as shown in fig. 8c, and after the operation body slides down the second distance (adjustment value-1) again with respect to the adjustment control for 8 th minute, the present embodiment responds to the new operation data, and the values of the target attributes of the 8 th minute partial content and the subsequent continuous partial contents are modified to 0 until receiving the end instruction, as shown in fig. 8d, it should be noted that in mode, the new operation body should respond to the new operation data in the sliding direction of the current operation body .

And a third operation mode, when the -th operation parameter in the operation data meeting the second condition is identified as a positive state parameter and the second operation parameter is any value between 1 and 10, the operation body slides upwards for a third distance (an adjustment value +2) relative to the adjustment control, the embodiment responds to the operation data, the value of the target attribute of the 4 th minute content (the display content takes 20 minutes) of the -th part of the content is modified to be +2, the modification of the value of the target attribute is not performed on the other parts of the content except the -th part of the content, when the operation body slides upwards for a fourth distance (the adjustment value +1) relative to the adjustment control again for 8 minutes, the embodiment responds to new operation data, the value of the target attribute of the 8-th minute part of the content is modified to be +1, as shown in fig. 8e, in the mode, if the new operation data corresponds to the operation body in a downward sliding direction, the new operation data does not respond to the new operation data.

And a fourth operation mode, when the present embodiment identifies a -th operation parameter in the operation data meeting the second condition as a positive state parameter and the second operation parameter is any value between 1 and 10, the magnitude of the second operation parameter corresponds to the operation magnitude of the operation body, and when the operation body slides upwards for a third distance (adjustment value +2) with respect to the adjustment control, the present embodiment responds to the operation data, after the value of the target attribute of the content of th part and 4 th minute (20 minutes in total of the display content) is modified to +2, the same modification may be performed on the values of the target attributes of a plurality of continuous parts and subsequent contents of th part and subsequent contents to be +2, when the operation body slides downwards for a fourth distance (adjustment value-1) again with respect to the adjustment control for 8 th minute, the present embodiment responds to new operation data, and the values of the target attributes of the content of 8 th minute and subsequent continuous parts and subsequent contents are modified to 1 until an end instruction is received, as shown in fig. 8f, and it should be explained that, then the operation body should not respond to the of the new operation data in the operation direction.

And a fifth operation mode, when the present embodiment identifies th operation parameter in the operation data meeting the second condition as a positive and negative state parameter and the second operation parameter is that the amplitude of the size is 1, the present embodiment responds to the operation data when the operation body slides up the th distance (adjusts to +1) with respect to the adjustment control, modifies the value of the target attribute to +1 for the 4 th minute content (display content for 20 minutes) of the th partial content, does not modify the value of the target attribute for other partial contents than the th partial content, and responds to the new operation data when the operation body slides down the adjustment control for the second distance (adjust value-1) again for the 8 th minute, modifies the value of the target attribute to-1 for the 8 th minute partial content, as shown in fig. 8 g.

A sixth operation mode, when the present embodiment identifies the -th operation parameter in the operation data satisfying the second condition as a positive-negative state parameter and the second operation parameter is in a certain magnitude as 1, the present embodiment responds to the operation data when the operation body slides up -th distance (adjusted to +1) with respect to the adjustment control, after modifying the value of the target attribute of -th content for 4-th minute (20 minutes total display content) to +1, the present embodiment may modify the values of the target attribute of a plurality of continuous partial contents following -th partial content to +1 in the same manner, when the operation body slides down the adjustment control for a second distance (adjustment value-1) again for 8 minutes, the present embodiment responds to new operation data, modifies the values of the target attribute of 8-th minute partial content and its subsequent continuous partial content to 0, when the operation body slides down the adjustment control for a second distance (adjustment value-1) again for -th minute, generates operation data for again and generates operation data corresponding to the target attribute of the corresponding partial content, and when the operation body slides down for 358-16 minutes, the corresponding operation data, the corresponding to the target attribute of the operation data is modified to +1, and the corresponding to the corresponding operation data of the operation data is 738-16-9, if the instruction of the corresponding to the operation data of the corresponding to the operation data of the operation body is changed from the previous embodiment, the instruction for the adjustment control, the instruction for the third operation data, the.

And a seventh operation mode, when the th operation parameter in the operation data meeting the second condition is identified as a positive and negative state parameter and the second operation parameter is any value between 1 and 10, the operation body slides upwards for a third distance (an adjustment value +2) relative to the adjustment control, the embodiment responds to the operation data, modifies the value of the target attribute of the 4 th minute content (the display content takes 20 minutes) of the th partial content to +2, does not modify the value of the target attribute of the other partial content except the th partial content, and responds to new operation data when the operation body slides downwards for a fourth distance (an adjustment value-1) relative to the adjustment control again for 8 minutes, and modifies the value of the target attribute of the 8 th minute partial content to-1, as shown in fig. 8 i.

An eighth operation mode, when the present embodiment identifies -th operation parameters in the operation data meeting the second condition as positive and negative state parameters and the second operation parameters are any values between 1 and 10, the magnitude of which corresponds to the operation magnitude of the operation body, and the operation body slides upwards for a third distance (adjustment value +2) with respect to the adjustment control, the present embodiment responds to the operation data, after modifying the value of the target attribute of the 4 th minute content (display content for 20 minutes) of the -th partial content to +2, the same modification may be performed on the values of the target attributes of a plurality of continuous partial contents subsequent to the -th partial content to be +2, when the operation body slides downwards for the adjustment control for a 5-th distance (adjustment value-3) again for the 8-th minute, the present embodiment responds to new operation data, the values of the target attributes of the 8-th minute partial content and subsequent continuous partial contents are modified to-1, when the operation body slides upwards for the adjustment control for a sixth distance (adjustment value +2) again, the operation data and the subsequent continuous partial contents are modified to-1, and the corresponding instruction values of the target attributes of the 8-th partial content are modified as shown in the figure, and the corresponding instruction is generated until the corresponding instruction is received from the end 16-8-th minute.

In a specific implementation, the adjustment control includes an adjustment object and an adjustment range, the position adjustment of the adjustment range within the adjustment range can change the partial content displayed in the display area, and the relative position of the displayed partial content and the adjustment object within the adjustment range is matched, for example, the adjustment object z1 slides left and right within the adjustment range z2 to change the partial content displayed in the display area, as shown in fig. 9a, when the adjustment object z1 slides to the th position m1 on the adjustment range z2, the display area displays the partial content n1 in the display content, and when the adjustment object z1 slides to the right on the adjustment range z2 to the second position m2, the display area displays the partial content n2 in the display content, that is, the partial content displayed on the display area in the display content is matched with the relative position of the adjustment object z1 within the adjustment range z 2.

Based on the implementation of the adjusting control, the -th condition may be that the operating direction of the operating body is the -th direction p1, the included angle s1 between the -th direction p1 and the straight line p2 of the moving track of the adjusting object z1 in the adjusting range z2 is in the -th angular range, as shown in fig. 9b, and the second condition is that the operating direction of the operating body is the second direction p3, the included angle s2 between the second direction p3 and the straight line p2 of the moving track of the adjusting object z1 in the adjusting range z2 is in the second angular range, as shown in fig. 9c, for example, the -th angular range is 0 to 15 degrees, that is, the -th direction p1 is parallel or nearly parallel to the straight line p2, and the second angular range is 75 to 90 degrees, that is, the second direction p3 is perpendicular or nearly perpendicular to the straight line p 2.

For example, in the operation data, the operation body executes the instruction when the operation object is operated in the moving direction of the adjustment range, and changes the second part of the content displayed as the display content in the display area, and the operation body executes the second instruction when the operation object is operated in the direction perpendicular to the moving direction of the adjustment range, so as to perform corresponding operation on the th part of the content displayed in the display area, such as changing the value of the target attribute of the th part of the content.

The operation data in the above scheme may be an operation of the adjustment control itself by an operator, such as an operation of dragging the adjustment object to the right or upward or downward, as shown in fig. 9d, or an operation of the operator on a region of the display region other than the adjustment control, as shown in fig. 9e, where the operation data is an operation of the operator on another region z3 of the display region different from the adjustment range z2, such as a rightward sliding operation, an upward sliding operation, or a downward sliding operation. This configuration is applicable to various operation modes of the operation body, without limiting the region or range where the operation start point and the operation end point of the operation body are located.

And based on the realization of the adjusting control, the th condition can also be that the operation body operation starting point q1 and the operation end point q2 are both in the adjusting range z2, as shown in fig. 9f, and the second condition is that of the operation body operation starting point q1 and the operation end point q2 is in the adjusting range z2, as shown in fig. 9 g.

Correspondingly, the instruction is executed when the operation starting point q1 and the operation end point q2 in the operation data are both in the adjusting range z2, namely the operation body drags the adjusting object to move in the adjusting range, and the instruction is executed at the moment, so as to achieve the purpose of adjusting the partial content displayed in the display area, and the second instruction is executed when the of the operation starting point q1 and the operation end point q2 in the operation data is in the adjusting range z2, namely the operation body drags the adjusting object to move in the area beyond the adjusting range, such as leaving the adjusting range or returning to the adjusting range, and the second instruction is executed at the moment, so as to achieve the purpose of changing the value of the target attribute of the partial content displayed in the display area.

In the scheme, at least operation starting points and operation end points of the operation body are required to be limited in the adjustment range, and the method is applicable to any operation mode except the operation mode that the operation track of the operation body is not in the adjustment range.

Referring to fig. 10, a flowchart of a fifth embodiment of information processing methods provided in the present invention is shown, where in the process of step 102, the method may further include the following steps:

and 108, displaying th marking curves on the adjusting control, wherein the th marking curves correspond to the operation tracks of the operation bodies corresponding to the operation data.

The th marking curve may coincide with the operation locus of the operation body corresponding to the operation data, or may correspond to a distance vector determined with respect to the operation locus of the operation body.

That is, during the process of acquiring the operation data for the adjustment control, the th mark curve may be displayed on the operation track of the operation body corresponding to the operation data, where the operation data is the operation data generated by the operation of the operation body on the adjustment object z1 in fig. 9a, that is, during the operation of the operation body on the adjustment object, the embodiment acquires the operation data generated by the operation of the operation body, and at the same time, a th mark curve is displayed on the operation track corresponding to the operation data, and each mark point constituting the th mark curve corresponds to each contact point on the operation track of the operation body, so as to form the effect that the operation body slides on the display area to generate a motion curve, as shown in the th mark curve v1 during the rightward sliding of the adjustment object z1 in fig. 11a, or as shown in the th mark curve v1 during the upward sliding of the adjustment object z1 in fig. 11b, so that the current mark curve of the operation body is displayed by the operation body .

In addition, during the process of acquiring the operation data for the adjustment control, the th mark curve associated with the distance vector determined by the operation track of the operation body with respect to may be displayed on the adjustment control, where the operation data is the operation data generated by the operation of the operation body on the z3 region in fig. 9d, that is, the operation data generated by the operation of the operation body on the z3 region, in this embodiment, the operation data generated by the operation of the operation body is acquired, at the same time, the th mark curve is displayed at the corresponding position on the adjustment control, the th mark curve corresponds to the operation track of the operation body, that is, the respective mark points constituting the th mark curve correspond to the distance vector r determined by the contact points on the operation track of the operation body with respect to the , as shown in the corresponding relationship between the operation track v11 and the th mark curve v1 in fig. 11c, so as to form the operation of the operation body on the display region, the adjustment control, the effect trace generated on the adjustment control, and when the operation data is shown by the corresponding position of the operation mark point corresponding to the elongated mark point in the operation data of the adjustment control 84, where the operation body is located in the corresponding position of the corresponding mark point 8536 in the corresponding operation mark point on the adjustment control 8536.

Referring to fig. 12, a flowchart of a sixth embodiment of information processing methods provided in the present invention is shown, where after step 105, the method may further include the following steps:

step 109: displaying a second labeled curve on the adjustment control.

The display position of each mark point on the second mark curve on the adjusting control corresponds to the relative position of the part of content corresponding to the corresponding mark point in the display content, and the display attribute value of each mark point on the respective position corresponds to the value of the target attribute of the part of content displayed in the display content corresponding to the respective position.

When the height adjustment curve is a height adjustment curve, the height adjustment curve is a height adjustment curve, the height adjustment curve is a, the height adjustment curve is a height adjustment curve, the height adjustment curve is a, the height adjustment curve is a, the height adjustment curve is a, the height adjustment curve is a height adjustment curve, the height adjustment curve is a point h, the height adjustment curve is a point is a point h, the height adjustment curve is a point h, the height adjustment curve is a point is a point h, the height adjustment curve is a point h, the height adjustment curve is a point is a point h, the height adjustment curve is a point is a point is a point h, the height adjustment curve, the point is a point h, the height adjustment curve, the point is a point h 2 is a point is a.

It should be noted that, while the second mark curve is displayed on the adjustment control, in the process of acquiring operation data for the adjustment control, the th mark curve is displayed on the adjustment control, as shown in fig. 13c, each mark point in the th mark curve v1 corresponds to each contact point in the operation track of the operation body, each mark point of the second mark curve v2 corresponds to a target attribute of a part of the content that has been displayed after the display area, and thus, through the th mark curve and the second mark curve, the purpose of displaying a result (second mark curve) generated by a history operation of the operation body and a result ( th mark curve) generated by the current operation of the operation body is achieved, and a comparison of the operation is provided for a user belonging to the operation body, for example, the user may determine an operation amplitude of a current part of content according to the history operation result (second mark curve) displayed in the operation body, and for example, the operation body may determine an operation amplitude of the current part of the displayed second mark curve by dragging the current mark curve in the upward adjustment object z 25, and dragging the current mark curve of the operation body in the adjustment control.

Referring to fig. 14, there is provided a flowchart of a seventh embodiment of information processing methods, where after the second instruction is executed in step 105 to change the value of the target attribute of the th part of content, the method further includes the following steps:

step 110: and storing the value of the target attribute of each part of the display content to obtain an attribute value set, so that when a display instruction for the display content is received, a third marking curve is displayed on the adjusting control of the display content.

And each attribute value in the attribute value set has a corresponding position on the adjustment control of the display content, and the corresponding position of each attribute value corresponds to the relative position relationship of the part of content corresponding to the attribute value relative to the display content.

Each mark point in the third mark curve has a display position on the adjustment control, and the display attribute value of each mark point corresponds to the attribute value corresponding to the mark point display position in the attribute value set, that is: the display attribute value of each mark point in the third mark curve v3 corresponds to the value of the target attribute of the part of the content corresponding to the display position of the mark point, as shown in fig. 15, so as to prompt the user of the operation result of the adjustment control in the past, such as the wonderful difference of each part of the content in the display content.

It should be noted that, the attribute value set composed of the values of the target attributes of each part of the display content may be bound and stored in the display content, so that when the display content is called and displayed on any device or any display application, the corresponding third mark curve may be displayed on the adjustment control of the display content according to the values of the target attributes; the attribute value set may also be bound and stored in the device to which this embodiment is applied, so as to achieve the purpose of displaying the third markup curve only when the display content is displayed on the device.

Referring to fig. 16, which is a flowchart of an eighth embodiment of the information processing methods provided by the present invention, the present embodiment is applied to the device, and the device may be any device having a display area, such as a mobile phone, a pad, a notebook, and other devices having a touch response function.

It should be noted that this embodiment is applicable to a non-touch device as well as a device with a touch response function, and in this case, the operation body may be understood as a mouse input operation body.

In this embodiment, after the second instruction is executed in step 105 to change the value of the target attribute of the content of section , the method may further include the following steps:

step 111: and storing the value of the target attribute of each part of content in the display content to obtain an attribute value set.

Step 112, sending said set of attribute values to a second device connected to said th device.

The second device may be a device connected to the th device in a wireless manner or a wired manner, and the second device may receive the attribute value set sent by the th device, and perform operations such as statistical processing on values in the attribute value set.

Referring to fig. 17, a flowchart of a ninth embodiment of information processing methods provided by the present invention is shown, where the method may include the following steps:

step 1701: result data of a plurality of operations with respect to display content displayed in a display area is received.

In this embodiment, the present invention may be applied to a device in which the display area is located, or may be applied to a device connected to the device in which the display area is located, so that no matter on a current device in which the display area is located or any device connected to the device, result data of a plurality of operations on display content displayed in the display area may be received, and other operations may be performed.

And the result data includes execution data for executing a second instruction when each operation data for each partial content in the display content satisfies a second condition.

That is to say, when any part of the display content is displayed in the display area, the operation body operates through the adjustment control for the display content, and then generates operation data, when the operation data meets the second condition, the device executes a second instruction, the second instruction is different from the instruction corresponding to the operation data meeting the condition, the instruction is used for changing the content displayed in the display area, such as the adjustment display progress, and in this embodiment, execution data for executing the second instruction is received.

Wherein, the implementation of the second condition and the th condition can refer to the detailed description in the foregoing.

Step 1702: and generating statistical data of each part of the display content according to the execution data.

That is, in the step 1702, data statistics is performed on each partial content in the display content according to execution data of the second instruction executed when each operation data for each partial content in the display content satisfies the second condition, so as to indicate that each partial content in the display content has an attribute corresponding to the execution data.

Specifically, the execution data may specifically include: in the embodiment, the current values of the target attributes of the respective partial contents in the display contents after executing each second instruction are received and statistically analyzed.

Correspondingly, referring to fig. 18, it is a flowchart for implementing the step 1702 in the tenth embodiment of the information processing method provided by the present invention, wherein, when the step 1702 generates the statistical data of each part of the display content according to the execution data, the following steps may be implemented:

step 1721: and acquiring the times of changing the value of the target attribute of each part of the display content according to the plurality of values of the target attribute of each part of the display content.

In the present embodiment, the received values of the target attribute of each part of the display content refer to: and the values of the target attributes of the partial contents after the different operation bodies operate the partial contents of the display contents, so that the values of the target attributes represent the attention difference value of each user to which the operation body belongs to each partial content in the display contents, or the heat difference value of each partial content in the users to which the operation bodies belong, and the like.

In this embodiment, the operation bodies may be distinguished by the user names corresponding to the operation bodies.

In this embodiment, an th statistical value of the display content is obtained by determining whether each part of the display content has the changed target attribute, and further performing statistics on the number of times each part of the display content has the changed target attribute.

For example, for the display content of , 10 user names a to J are respectively corresponding to the operation bodies to respectively operate a plurality of partial contents in the display content, wherein A, C, D, H, J performs the operation satisfying the second condition on the th partial content, the changed target attribute values of the th partial content are sequentially 3, 2, 4, 3, 4, and A, B, E, F performs the operation satisfying the second condition on the second partial content, the changed target attribute values of the second partial content are sequentially 2, 1, and I, J performs the operation satisfying the second condition on a third partial content which is different from the th partial content and the second partial content, and the changed target attribute values of the third partial content are sequentially 1 and 1, so that the partial contents of the changed target attribute values in the display content are respectively the th partial content, the second partial content, and the third partial content, the times of the changed target attribute values are respectively 5, 2, and 364, and the corresponding statistics are respectively 5, 364 and .

Step 1722: and acquiring an accumulated value of the values of the changed target attribute of each part of the display contents according to the plurality of values of the changed target attribute of each part of the display contents.

After judging whether each part of content in the display content is changed by the target attribute, counting the changed values of the part of content with the changed value of the target attribute, and accumulating the counted values to obtain the accumulated value of the target attribute of each part of content in the display content, wherein the accumulated value is used as a second statistical value of the display content.

Taking the above example as an example, the th content part is respectively changed by A, C, D, H, J to obtain values of target attributes 3, 2, 4, 3 and 4, respectively, the th content part is changed by A, C, D, H, J to obtain values of accumulated values of target attributes 3, 2, 4, 3 and 4 and 16, the A, B, E, F second content part is respectively changed by A, B, E, F to obtain values of target attributes 2, 1, 2 and 1, respectively, the second content part is changed by A, B, E, F to obtain values of accumulated values of target attributes 2, 1, 2 and 1 and the I, J third content part is respectively changed by I, J to obtain values of target attributes 1 and 1, respectively, the third content part is changed by 352, and the obtained accumulated value of the target attribute values 16, 6 and 2 corresponding to each content part is the second statistical value of the display content.

Therefore, the th statistical value and the second statistical value of the display content are used for indicating the wonderness degree value, the attention degree value or the heat degree value of each part content in the display content for the users belonging to the operation bodies.

Referring to fig. 19, a schematic structural diagram of an embodiment ten of electronic devices provided by the present invention is shown, where the electronic device has a display area, the display area can be carried on a display unit of the electronic device, and the display area can display and play display content, such as a multimedia file (including an audio file and a video file), or a text file (including a txt file and a word file), and the like.

It should be noted that, when displaying the display content in the display area, if the data of the display content is not enough to be displayed on the display area at the same time , the relative position of the part of the content displayed on the display area in the display content may be displayed by displaying an adjustment control, and the adjustment control may also be operated to change the content displayed on the display area, such as adjusting the display progress of the display content on the display area.

When the electronic device in this embodiment implements processing on the operation on the display area, the processing can be implemented by the following structural units:

a content display unit 1901, configured to display th partial content of the display content and the adjustment control in the display area.

As mentioned above, when the display content is displayed on the display area but the display area of the display area is not large enough to display the whole data of the display content, the adjustment control of the display content is displayed in the display area, and the part of the display content currently displayed in the display area is referred to as th part of content to show a difference.

It should be noted that the adjustment control in the foregoing is used to change a relative positional relationship between a part of content displayed in the display area and the display content, where the relative positional relationship may be a relative spatial positional relationship, for example, a relative position of a current display page with respect to an entire word document in a text file such as word; the relative time position relationship may also be, for example, the relative position of the picture content displayed on the current display with respect to the entire movie duration in a video file such as a movie.

An operation acquisition unit 1902, configured to acquire operation data for the adjustment control.

When the operation data for the adjustment control is collected, the collection of the operation data of the adjustment control itself is also included, and the collection of the operation data on the area position which is different from the adjustment control on the display area but corresponds to the part of the content displayed by the adjustment control on the display area is also included, as shown in an area x1 where the adjustment control is located and an area x2 where the adjustment control is not located on the display area in fig. 2b, an area x2 is associated with the adjustment control on the th part of the content currently displayed on the display area, that is, when the th part of the content is displayed on the display area, an operation body operation appears in an area x2, it can be understood that the operation body and the operation body on the area x1 when the th part of the content is displayed on the display area are operations with the same operation effect.

An operation response unit 1903, configured to respond to the operation data, trigger the execution unit 1904 when the operation data satisfies the th condition, and trigger the second execution unit 1905 when the operation data satisfies the second condition.

In the embodiment, when responding to the operation data of the adjustment control, the operation response unit 1903 responds according to the condition satisfied by the operation data, that is, when the operation data satisfies the preset th condition, the th execution unit 1904 is triggered, and when the operation data satisfies the preset second condition, the second execution unit is triggered.

It should be noted that, when determining whether the operation data satisfies the th condition or the second condition, the operation response unit 1903 determines whether the same attribute or category of the operation data satisfies the th condition and the second condition, for example, determines the operation type or operation trajectory of the operation data, determines whether the operation type satisfies the th condition or the second condition, or determines whether the operation trajectory satisfies the th condition or the second condition.

An -th execution unit 1904 for executing an instruction to cause a second portion of the display content to be displayed in the display area, the second relative positional relationship of the second portion of content to the display content being different from the -th relative positional relationship of the -th portion of content to the display content.

Wherein the execution of the th instruction has an effect of changing a relative positional relationship of a part of the content displayed in the display region with respect to the display content, which may be a relative spatial positional relationship, for example, when the display content is text data (20 pages in total, the text content is coded with the display area of the display region for the number of pages of the text content thereof), the execution of the th instruction has an effect of changing the content of a third page ( th relative positional relationship) displayed in the display region to the content of a fifth page (second relative positional relationship) of the display content divided with the display region as a standard page, or, when the display content is video data (110 minutes in total), the execution of the th instruction has an effect of changing the display screen of a sixth minute ( th relative positional relationship) displayed in the display region to a display screen of a seventeenth minute (second relative positional relationship), and so on, as shown in fig. 2c, after the execution of the th instruction, the part of the content displayed in the display region advances from "25 th" 592 "to" 592 ".

A second execution unit 1905 to execute a second instruction, the second instruction being different from the th instruction.

The second instruction is generated and executed when the operation data meets a second condition, and is different from the th instruction, so as to implement response of different execution schemes when the operation data meets different conditions, that is, the th instruction can implement adjustment control on the display progress of the content displayed in the display area, and the second instruction is an execution effect different from the progress adjustment, that is, in this embodiment, response of the operation data meeting the second condition different from the th condition can be completed, so as to complete response of the operation, so as to achieve an effect different from the progress adjustment.

It can be seen from the foregoing solution that electronic device embodiments provided by the present invention acquire operation data for an adjustment control when the th part of content of the display content and the adjustment control are displayed on a display area, further respond to the operation data, and execute different instructions according to different conditions met by the operation data, so as to bring different operation effects, in the present invention, when the operation data meets the th condition, the th instruction is executed so that the second part of content can be displayed in the display area, and the second relative position relationship of the second part of content in the display content is different from the th relative position relationship of the th part of content and the display content, and when the operation data meets the second condition, the second instruction different from the th instruction capable of changing the content displayed in the display area is executed, thereby, the present invention is different from the prior art, and can respond to operations displayed on the adjustment control of the display content, so as to increase user operation implementation manners, and significantly improve user experience.

Based on the implementation scheme in the foregoing embodiment, the second instruction may be used to change the value of the target attribute of the th part of content, that is, when the th part of content and the adjustment control of the display content are displayed in the display area, the second instruction is executed in response to the collected operation data for the adjustment control, so as to achieve the purpose of changing the value of the target attribute of the th part of content.

Wherein each partial contents in the display contents have their respective target attributes, and the initial value of the target attribute of each partial content is 0, this target attribute can indicate the degree of difference of its corresponding partial contents, which can be understood as the degree of difference of its corresponding partial contents with respect to the other partial contents or the non-operated partial contents of the display contents or before the partial contents are operated, such as the degree of difference of the degree of wonderful degree, the degree of difference of interest, the degree of difference of recommendation, and so on.

According to the foregoing, the value of the target attribute of the th part of content changed by the second instruction can be understood as a recommendation index of the th part of content by the user of the operation data, a highlight value of the th part of content considered by the user of the operation data, a focus value of the th part of content considered by the user of the operation data, and the like.

It should be noted that, in the foregoing embodiments, in the scheme of responding to the operation data satisfying the th condition and executing the th instruction, the value of the target attribute of the partial content displayed in the display area is not modified while the partial content displayed in the display area is changed, that is, the value of the target attribute of each of the th partial content and the second partial content of the partial content displayed in the changed display area is maintained as an initial value of 0 while the th partial content displayed in the display area is changed to the second partial content.

Referring to fig. 20, a schematic structural diagram of the second execution unit 1905 in an embodiment twelve of electronic devices provided in the present invention is shown, where the second execution unit 1905 may include the following structural implementation:

a data parsing subunit 1951, configured to parse the operation data to obtain -th operation parameter and a second operation parameter corresponding to the operation data.

A tune to obtain subunit 1952, configured to obtain an adjusted value of the target attribute of the th piece of content according to the th operation parameter and the second operation parameter.

An instruction generating subunit 1953, configured to generate the second instruction according to the adjustment value of the target attribute, where the second instruction is configured to change the value of the target attribute of the partial content according to the adjustment value.

The implementation and description of each subunit in this embodiment may refer to the corresponding content of the corresponding method embodiment in the foregoing, and are not described in detail here.

Referring to fig. 21, a schematic structural diagram of an embodiment thirteen of electronic devices provided by the present invention is shown, where the electronic device may further include the following structure:

a third execution unit 1906, configured to execute the instruction and the second instruction simultaneously when the data response unit 1903 determines that the operation data satisfies the -th condition and satisfies the second condition.

That is, when the th condition and the second condition are simultaneously satisfied by the operation data, not only the second partial content of the display content displayed in the display area is changed, but also the second instruction is executed on each partial content between the th partial content and the second partial content.

Referring to fig. 22, a structural schematic diagram of another according to a thirteenth embodiment of the present invention, wherein the third executing unit 1906 may be implemented by the following sub-units:

a fast change subunit 1961, configured to change the values of the target attributes of the parts of the content in the display content between the th part of the content and the second part of the content while the display area displays the second part of the content, the target attributes indicating the respective degrees of difference between the th part of the content and the second part of the content.

Specifically, the third executing unit 1906 changes the value of the target attribute of each portion of the content between the th portion of the content and the second portion of the content in the display content while displaying the second portion of the content in the display area, so as to achieve the purpose of quickly setting the th portion of the content and the second portion of the content.

The operation data satisfying the th condition and the second condition means that the operation of the operation body generating the operation data includes a th operation satisfying the second condition and a second operation satisfying the th condition, where the th operation is prior to the second operation, and the th operation and the operation data generated by the second operation can satisfy both the th condition and the second condition.

That is, if the operator needs to achieve the purpose of quickly setting the values of the target attributes of the respective partial contents between the th partial content and the second partial content, the operator needs to first perform an operation of changing the values of the target attributes, that is, an operation of satisfying the second condition, and then perform an operation of changing the partial contents displayed in the display area, that is, an operation of satisfying the th condition, so that the operation data generated by the continuous operation actions performed by the operator in the present embodiment is responded to simultaneously, so as to achieve the effect that the th instruction and the second instruction are simultaneously executed when the operation data simultaneously satisfies the nd condition and the second condition, that is, the operator performs an operation of sliding right after sliding up the display area displaying the second partial content, for example, the operator performs an operation of sliding right after sliding up the adjustment control, first performs an operation of "sliding up" and then satisfies the second partial content, "and then performs a sliding up" to reach the values of the target attributes of the partial contents between the second partial contents "" and the operation of sliding right after sliding up the adjustment control, and the corresponding operation of the content in the present embodiment, the operation of changing the values of the target attributes of the partial contents between the display area displaying the contents, and the corresponding content, and the corresponding operation of the contents of the second partial contents, and the operation of the second partial contents displayed by performing the operation of the display area displaying the operation of the display area.

It should be noted that, in the third executing unit 1906, in addition to changing the values of the target attributes of the respective contents between the th part of the content and the second part of the content in the display content, the values of the target attributes of the th part of the content and the values of the target attributes of the second part of the content may be changed, or only the value of the target attribute of the th part of the content may be changed, and the value of the target attribute of the second part of the content is not modified.

Referring to fig. 23, a schematic structural diagram of an embodiment fourteen of electronic devices provided by the present invention is shown, where the electronic device may further include the following structure:

a repeated execution unit 1907, configured to, after the second execution unit 1905 executes the second instruction, sequentially execute the second instruction on a plurality of continuous partial contents subsequent to the th partial content, starting from the th partial content, so as to change the value of the target attribute of the plurality of continuous partial contents subsequent to the th partial content, until receiving an end instruction.

It should be noted that, the implementation and description of the repeatedly executing unit 1907 can refer to the corresponding contents of the corresponding method embodiments in the foregoing, and are not described in detail here.

In a specific implementation, the adjustment control includes an adjustment object and an adjustment range, the position adjustment of the adjustment range within the adjustment range can change the partial content displayed in the display area, and the relative position of the displayed partial content and the adjustment object within the adjustment range is matched, for example, the adjustment object z1 slides left and right within the adjustment range z2 to change the partial content displayed in the display area, as shown in fig. 9a, when the adjustment object z1 slides to the th position m1 on the adjustment range z2, the display area displays the partial content n1 in the display content, and when the adjustment object z1 slides to the right on the adjustment range z2 to the second position m2, the display area displays the partial content n2 in the display content, that is, the partial content displayed on the display area in the display content is matched with the relative position of the adjustment object z1 within the adjustment range z 2.

Based on the implementation of the adjusting control, the -th condition may be that the operating direction of the operating body is the -th direction p1, the included angle s1 between the -th direction p1 and the straight line p2 of the moving track of the adjusting object z1 in the adjusting range z2 is in the -th angular range, as shown in fig. 9b, and the second condition is that the operating direction of the operating body is the second direction p3, the included angle s2 between the second direction p3 and the straight line p2 of the moving track of the adjusting object z1 in the adjusting range z2 is in the second angular range, as shown in fig. 9c, for example, the -th angular range is 0 to 15 degrees, that is, the -th direction p1 is parallel or nearly parallel to the straight line p2, and the second angular range is 75 to 90 degrees, that is, the second direction p2 is perpendicular or nearly perpendicular to the straight line p 2.

Accordingly, the operation response unit 1903 triggers the execution unit 1904 to execute the instruction when determining that the operation direction of the operation body in the operation data is the th direction, and triggers the second execution unit 1905 to execute the second instruction when determining that the operation direction of the operation body in the operation data is the second direction, for example, in the operation data, the operation body is to execute the instruction when the adjustment object is operated in the moving direction of the adjustment range, to change the second partial content displayed as the display content in the display region, and the operation body executes the second instruction when the adjustment object is operated in the direction perpendicular to the moving direction of the adjustment range, to perform a corresponding operation on the th partial content displayed in the display region, such as changing the value of the target attribute of the th partial content.

The operation data in the above scheme may be an operation of the adjustment control itself by an operator, such as an operation of dragging the adjustment object to the right or upward or downward, or an operation of the operator on a region of the display region other than the adjustment control, as shown in fig. 9d, where the operation data is an operation of the operator on another region z3 of the display region different from the adjustment range z2, such as a rightward sliding operation, an upward sliding operation, or a downward sliding operation. This configuration is applicable to various operation modes of the operation body, without limiting the region or range where the operation start point and the operation end point of the operation body are located.

And based on the realization of the adjusting control, the th condition can also be that the operation body operation starting point q1 and the operation end point q2 are both in the adjusting range z2, as shown in fig. 9e, and the second condition is that of the operation body operation starting point q1 and the operation end point q2 is in the adjusting range z2, as shown in fig. 9 f.

Accordingly, the operation response unit 1903, when determining that both the operation start point q1 and the operation end point q2 in the operation data are in the adjustment range z2, triggers the execution unit 1904 to execute the -th instruction, that is, the operation body drags the adjustment object to move within the adjustment range, at which time the -th instruction is executed, for the purpose of adjusting the partial content displayed in the display area, and when determining that of the operation start point q1 and the operation end point q2 in the operation data is in the adjustment range z2, triggers the second execution unit 1905 to execute the second instruction, that is, the operation body drags the adjustment object to move in an area beyond the adjustment range, such as leaving the adjustment range or returning to the adjustment range, at which time the second instruction is executed, for the purpose of changing the value of the target attribute of the -th partial content displayed in the display area.

In the scheme, at least operation starting points and operation end points of the operation body are required to be limited in the adjustment range, and the method is applicable to any operation mode except the operation mode that the operation track of the operation body is not in the adjustment range.

Referring to fig. 24, a schematic structural diagram of an embodiment fifteen of electronic devices provided by the present invention is shown, where the electronic device may further include the following structure:

an -th curve displaying unit 1908, configured to display a -th marking curve on the adjustment control in a process of acquiring the operation data for the adjustment control by the operation acquiring unit 1902, where the -th marking curve corresponds to an operation trajectory of the operation body corresponding to the operation data.

It should be noted that, the implementation and description of the curve display unit 1908 can refer to the corresponding contents of the corresponding method embodiments in the foregoing, and are not described in detail here.

Referring to fig. 25, a sixteen structural schematic diagram of kinds of electronic device embodiments provided by the present invention is shown, where the electronic device may further include the following structures:

a second curve display unit 1909, configured to display a second labeled curve on the adjustment control after the second instruction is executed by the second execution unit 1905.

The display position of each mark point on the second mark curve on the adjusting control corresponds to the relative position of the part of content corresponding to the corresponding mark point in the display content, and the display attribute value of each mark point on the respective position corresponds to the value of the target attribute of the part of content displayed in the display content corresponding to the respective position.

It should be noted that the implementation and description of the second curve display unit 1909 can refer to the corresponding contents of the corresponding method embodiments in the foregoing, and are not described in detail here.

Referring to fig. 26, a schematic structural diagram of a seventeenth embodiment of electronic devices provided by the present invention is shown, where the electronic device may further include the following structure:

an th storage unit 1910 configured to store a value of a target attribute of each partial content in the display content, obtaining a set of attribute values, so that when a display instruction for the display content is received, the third curve display unit 1911 is triggered.

And each attribute value in the attribute value set has a corresponding position on the adjustment control of the display content, and the corresponding position of each attribute value corresponds to the relative position relationship of the part of content corresponding to the attribute value relative to the display content.

And a third curve display unit 1911, configured to display a third labeled curve on the adjustment control of the display content.

And each mark point in the third mark curve is provided with a display position on the adjusting control, and the display attribute value of each mark point corresponds to the attribute value corresponding to the display position of the mark point in the attribute value set. Namely: the display attribute value of each mark point in the third mark curve v3 corresponds to the value of the target attribute of the part of the content corresponding to the display position of the mark point, as shown in fig. 15, so as to prompt the user of the operation result of the adjustment control in the past, such as the wonderful difference of each part of the content in the display content.

It should be noted that, the attribute value set composed of the values of the target attributes of each part of the display content may be bound and stored in the display content, so that when the display content is called and displayed on any device or any display application, the corresponding third mark curve may be displayed on the adjustment control of the display content according to the values of the target attributes; the attribute value set may also be bound and stored in the device to which this embodiment is applied, so as to achieve the purpose of displaying the third markup curve only when the display content is displayed on the device.

Referring to fig. 27, a structural schematic diagram of an embodiment eighteen of electronic devices provided by the present invention is shown, where the electronic device may be any device having a display area, such as a mobile phone, a pad, a notebook, and other devices having a touch response function.

It should be noted that this embodiment is applicable to a non-touch device in addition to a device having a touch response function, and in this case, the operation body may be understood as a mouse input operation body.

In this embodiment, the electronic device may further include the following structure:

a second storage unit 1912, configured to store the value of the target attribute of each part of the display content, so as to obtain an attribute value set.

A set sending unit 1913, configured to send the set of attribute values to other electronic devices connected to the electronic device.

Here, other electronic devices such as a server and the like connected to the electronic device in this embodiment may be devices connected to the electronic device in a wireless manner or a wired manner, and these other electronic devices different from the electronic device may receive the attribute value set sent by the electronic device, and perform operations such as statistical processing on values in the attribute value set.

Referring to fig. 28, a schematic structural diagram of a nineteenth embodiment of electronic devices provided by the present invention is shown, where an electronic device in this embodiment may be a server or other devices, and an electronic device in this embodiment may include the following structure to implement a function of performing statistics on data:

a data receiving unit 2801 configured to receive result data of a plurality of operations for display content displayed in a display area, the result data including execution data for executing a second instruction when each operation data for each partial content in the display content satisfies a second condition.

In this embodiment, the electronic device may be a device such as a terminal where the display area is located, or may be a device such as a server connected to the device where the display area is located, so that no matter in the terminal where the display area is located or the server connected to the terminal, result data of a plurality of operations on the display content displayed in the display area may be received, and other operations may be performed.

And the result data includes execution data for executing a second instruction when each operation data for each partial content in the display content satisfies a second condition.

That is to say, when any part of the display content is displayed in the display area, the operation body operates through the adjustment control for the display content, and then generates operation data, when the operation data meets the second condition, the device executes a second instruction, the second instruction is different from the instruction corresponding to the operation data meeting the condition, the instruction is used for changing the content displayed in the display area, such as the adjustment display progress, and in this embodiment, execution data for executing the second instruction is received.

Wherein, the implementation of the second condition and the th condition can refer to the detailed description in the foregoing.

A data statistics unit 2802, configured to generate statistics data of each part of the display content according to the execution data.

That is, in the data statistics unit 2802, data statistics is performed on each partial content in the display content according to execution data of a second instruction executed when each operation data for each partial content in the display content satisfies a second condition, so as to indicate an attribute corresponding to the execution data, which each partial content in the display content has.

Specifically, the execution data may specifically include: in the embodiment, the current values of the target attributes of the respective partial contents in the display contents after executing each second instruction are received and statistically analyzed.

Referring to fig. 29, a schematic structural diagram of the data statistics unit 2802 in an information processing method embodiment twentieth provided by the present invention is shown, where the data statistics unit 2802 may include the following structures:

rd statistics subunit 2821, configured to obtain, according to the plurality of values of the target attribute of each of the parts of the display content, the number of times that the value of the target attribute of each of the parts of the display content is changed.

In the present embodiment, the received values of the target attribute of each part of the display content refer to: and the values of the target attributes of the partial contents after the different operation bodies operate the partial contents of the display contents, so that the values of the target attributes represent the attention difference value of each user to which the operation body belongs to each partial content in the display contents, or the heat difference value of each partial content in the users to which the operation bodies belong, and the like.

In this embodiment, the operation bodies may be distinguished by the user names corresponding to the operation bodies.

In this embodiment, an th statistical value of the display content is obtained by determining whether each part of the display content has the changed target attribute, and further performing statistics on the number of times each part of the display content has the changed target attribute.

For example, for the display content of , 10 user names a to J are respectively corresponding to the operation bodies to respectively operate a plurality of partial contents in the display content, wherein A, C, D, H, J performs the operation satisfying the second condition on the th partial content, the changed target attribute values of the th partial content are sequentially 3, 2, 4, 3, 4, and A, B, E, F performs the operation satisfying the second condition on the second partial content, the changed target attribute values of the second partial content are sequentially 2, 1, and I, J performs the operation satisfying the second condition on a third partial content which is different from the th partial content and the second partial content, and the changed target attribute values of the third partial content are sequentially 1 and 1, so that the partial contents of the changed target attribute values in the display content are respectively the th partial content, the second partial content, and the third partial content, the times of the changed target attribute values are respectively 5, 2, and 364, and the corresponding statistics are respectively 5, 364 and .

A second statistics subunit 2822, configured to obtain an accumulated value of the values of the changed target attribute of each part of the display content according to the plurality of values of the changed target attribute of each part of the display content.

After judging whether each part of content in the display content is changed by the target attribute, counting the changed values of the part of content with the changed value of the target attribute, and accumulating the counted values to obtain the accumulated value of the target attribute of each part of content in the display content, wherein the accumulated value is used as a second statistical value of the display content.

Taking the above example as an example, the th content part is respectively changed by A, C, D, H, J to obtain values of target attributes 3, 2, 4, 3 and 4, respectively, the th content part is changed by A, C, D, H, J to obtain values of accumulated values of target attributes 3, 2, 4, 3 and 4 and 16, the A, B, E, F second content part is respectively changed by A, B, E, F to obtain values of target attributes 2, 1, 2 and 1, respectively, the second content part is changed by A, B, E, F to obtain values of accumulated values of target attributes 2, 1, 2 and 1 and the I, J third content part is respectively changed by I, J to obtain values of target attributes 1 and 1, respectively, the third content part is changed by 352, and the obtained accumulated value of the target attribute values 16, 6 and 2 corresponding to each content part is the second statistical value of the display content.

Therefore, the th statistical value and the second statistical value of the display content are used for indicating the wonderness degree value, the attention degree value or the heat degree value of each part content in the display content for the users belonging to the operation bodies.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other.

Finally, it should also be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises an series of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The information processing methods and electronic devices provided by the present application are described in detail above, and the principles and embodiments of the present application are explained herein by applying specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present application, and meanwhile, for a person skilled in the art , according to the idea of the present application, there are changes in the specific embodiments and application scope, and in conclusion, the content of the present description should not be construed as a limitation to the present application.

Claims (15)

1, a method of information processing, the method comprising:

th part of the display content and an adjusting control are displayed in the display area, wherein the adjusting control is at least used for changing the relative position relation between the part of the display content and the display content;

collecting operational data for the adjustment control;

executing instructions to cause a second portion of the display content to be displayed in the display area in a second relative positional relationship to the display content that is different from a th relative positional relationship of the th portion of the content to the display content in response to the operational data when the operational data satisfies an th condition;

executing a second instruction when the operational data satisfies a second condition, the second instruction being different from the th instruction;

the second instruction is used for changing the value of the target attribute of the th part of content, wherein the value of the target attribute of the th part of content changed by the second instruction is the recommendation index of the th part of content by the user of the operation data, the wonderness value of the th part of content considered by the user of the operation data or the attention value of the th part of content by the user of the operation data.

2. The method of claim 1, wherein executing the second instruction comprises:

analyzing the operation data to obtain th operation parameters and second operation parameters corresponding to the operation data;

obtaining an adjustment value of a target attribute of the part of content according to the operation parameter and the second operation parameter;

generating the second instruction according to the adjusted value of the target attribute, wherein the second instruction is used for changing the value of the target attribute of the th part of content according to the adjusted value.

3. The method of claim 1, further comprising:

executing the instruction and the second instruction concurrently when the operational data satisfies the th condition and satisfies the second condition.

4. The method of claim 3, wherein said concurrently executing said th instruction and said second instruction comprises:

changing values of target attributes of respective portions of the display content between the th portion of content and the second portion of content while the display area displays the second portion of content, the target attributes indicating respective degrees of difference between the th portion of content and the second portion of content.

5. The method of claim 1, wherein after executing the second instruction, the method further comprises:

starting from the th partial content, the second instruction is sequentially executed on a plurality of consecutive partial contents subsequent to the th partial content to change the value of the target attribute of the plurality of consecutive partial contents subsequent to the th partial content until an end instruction is received.

6. The method according to claim 1, wherein the adjustment control comprises an adjustment object and an adjustment range, wherein the adjustment of the position of the adjustment object within the adjustment range can change the part of the content displayed in the display area, and the displayed part of the content and the relative position of the adjustment object within the adjustment range are matched;

the th condition is that the operation direction of the operation body is th direction, and the included angle formed by the th direction and the straight line of the moving track of the adjusting object in the adjusting range is in the th angle range;

correspondingly, the instruction is executed when the operation direction of the operation body in the operation data is the th direction, and the second instruction is executed when the operation direction of the operation body in the operation data is the second direction.

7. The method according to claim 1, wherein the adjustment control comprises an adjustment object and an adjustment range, wherein the adjustment of the position of the adjustment object within the adjustment range can change the part of the content displayed in the display area, and the displayed part of the content and the relative position of the adjustment object within the adjustment range are matched;

wherein the th condition is that both the operating body operation start point and the operating end point are in the adjustment range, the second condition is that , which is one of the operating body operation start point and the operating end point, is in the adjustment range;

correspondingly, the th instruction is executed when both the operation starting point and the operation end point in the operation data are in the adjusting range, and the second instruction is executed when of the operation starting point and the operation end point in the operation data are in the adjusting range.

8. The method of claim 1, wherein in collecting operational data for the adjustment control, the method further comprises:

displaying th marking curve on the adjusting control, wherein the th marking curve corresponds to the operation track of the operation body corresponding to the operation data.

9. The method of claim 1, wherein after executing the second instruction, the method further comprises:

displaying a second marking curve on the adjusting control, wherein the display position of each marking point on the second marking curve on the adjusting control corresponds to the relative position of the part of the content corresponding to the corresponding marking point in the display content, and the display attribute value of each marking point on the respective position corresponds to the value of the target attribute of the part of the content displayed in the display content corresponding to the respective position.

10. The method of claim 1, further comprising:

storing the value of the target attribute of each part of the display content to obtain an attribute value set, where each attribute value in the attribute value set has a corresponding position on an adjustment control of the display content, and the corresponding position of each attribute value corresponds to the relative position relationship of the part of the content corresponding to the attribute value with respect to the display content, so that when a display instruction for the display content is received, a third mark curve is displayed on the adjustment control of the display content, each mark point in the third mark curve has a display position on the adjustment control, and the display attribute value of each mark point corresponds to the attribute value corresponding to the display position of the mark point in the attribute value set.

11. The method of claim 1, wherein the method is applied to an th device, and the method further comprises:

storing the value of the target attribute of each part of content in the display content to obtain an attribute value set;

transmitting the set of attribute values to a second device connected to the th device.

12, a method of information processing, the method comprising:

receiving result data of a plurality of operations of an adjustment control for display content displayed in a display area, wherein the adjustment control is at least used for changing the relative position relationship between partial content displayed in the display area and the display content, and the result data comprises execution data for executing a second instruction when each operation data for each partial content in the display content meets a second condition, the second instruction is different from a instruction executed when an condition is met, and the second instruction is used for changing the value of a target attribute of each partial content, wherein the value of the target attribute of each partial content changed by the second instruction is a recommendation index of a user of the operation data for each partial content, a wonderness degree value of the user of the operation data considering each partial content or a wonderness degree value of the user of the operation data for each partial content, and the instruction is used for changing the content displayed in the display area;

and generating statistical data of each part of the display content according to the execution data.

13. The method of claim 12, wherein the executing data comprises: a plurality of values of a target attribute of each of the partial contents in the display contents that is changed;

correspondingly, generating statistical data of each part of the display content according to the execution data comprises:

acquiring the number of times that each part of the display content is changed by the value of the target attribute according to the plurality of values of the target attribute of each part of the display content;

and acquiring an accumulated value of the values of the changed target attribute of each part of the display contents according to the plurality of values of the changed target attribute of each part of the display contents.

14, an electronic device, comprising:

a content display unit, configured to display th partial content of display content and an adjustment control in a display area, where the adjustment control is at least used for a mutual position relationship between the partial content displayed in the display area and the display content;

the operation acquisition unit is used for acquiring operation data aiming at the adjusting control;

an operation response unit, which is used for responding to the operation data, triggering the execution unit when the operation data meets the th condition, and triggering the second execution unit when the operation data meets the second condition;

an execution unit for executing a instruction to cause a second portion of the display content to be displayed in the display area, the second relative positional relationship of the second portion of content to the display content being different from the relative positional relationship of the portion of content to the display content;

a second execution unit to execute a second instruction, the second instruction different from the th instruction;

the second instruction is used for changing the value of the target attribute of the th part of content, wherein the value of the target attribute of the th part of content changed by the second instruction is the recommendation index of the th part of content by the user of the operation data, the wonderness value of the th part of content considered by the user of the operation data or the attention value of the th part of content by the user of the operation data.

15, an electronic device, comprising:

a data receiving unit, configured to receive result data of a plurality of operations of an adjustment control for display content displayed in a display area, the adjustment control being at least configured to change a relative positional relationship of a partial content displayed in the display area to the display content, the result data including execution data for executing a second instruction when each operation data for each partial content in the display content satisfies a second condition, the second instruction being different from a instruction executed when an th condition is satisfied, the second instruction being configured to change a value of a target attribute of the each partial content, wherein the value of the target attribute of the each partial content changed by the second instruction is a recommendation index of the user of the operation data to the each partial content, a highlight value of the operation data considered by the user of the operation data to be the each partial content, or a focus value of the user of the operation data to the each partial content, the th instruction is configured to change the content displayed in the display area;

and the data statistical unit is used for generating statistical data of each part of the display content according to the execution data.

Images