CN111159975B

CN111159975B - Display method and device

Info

Publication number: CN111159975B
Application number: CN201911416509.3A
Authority: CN
Inventors: 张彤; 彭方振
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2022-09-23
Anticipated expiration: 2039-12-31
Also published as: CN111159975A

Abstract

The application claims a display method comprising: the method comprises the steps of obtaining a file to be processed for displaying on first electronic equipment, wherein the file to be processed comprises at least two objects to be processed; performing at least one processing operation meeting conditions on the file to be processed at least based on the primary identification information of the object to be processed, so as to simultaneously display the at least two objects to be processed on a current display interface of the first electronic device according to a determined display strategy; wherein the display strategy at least relates to the number of display areas of the current display interface. Meanwhile, the application also claims a display device.

Description

Display method and device

Technical Field

The present application relates to data display technologies, and in particular, to a display method and apparatus.

Background

With the recent spread of online education, more and more school teachers choose to issue test papers, jobs, practice problems, and the like using a network. The student obtains the examination questions through the intelligent equipment to complete the homework arranged by the teacher. In the student answering process, the current modes of displaying test questions at the client are mainly divided into two types: the other is to display the test questions in pages, and the students can browse the test questions one by clicking the pages or turning pages. Both of the two methods have the defect that the test questions in the test paper cannot be seen at a glance, and the browsing process is complicated.

Disclosure of Invention

The technical scheme of the application is realized as follows:

according to an aspect of the present application, there is provided a display method including:

the method comprises the steps of obtaining a file to be processed for displaying on first electronic equipment, wherein the file to be processed comprises at least two objects to be processed;

performing at least one processing operation meeting conditions on the file to be processed at least based on the primary identification information of the object to be processed, so as to simultaneously display the at least two objects to be processed on a current display interface of the first electronic device according to a determined display strategy;

wherein the display strategy at least relates to the number of display areas of the current display interface.

In the foregoing solution, the performing, on the file to be processed, at least one processing operation that satisfies a condition based on at least the primary identification information of the object to be processed includes:

processing the file to be processed into at least two subfiles at least based on the primary identification information, wherein each subfile corresponds to an object to be processed; or the like, or, alternatively,

and processing the file to be processed into at least two subfiles at least based on the primary identification information and the content information of the object to be processed, wherein each subfile corresponds to the object to be processed.

In the above scheme, processing the file to be processed into at least two subfiles includes:

and obtaining display parameters of the current display interface of the first electronic equipment, and editing content information contained in the file to be processed based on the display parameters and the number of the objects to be processed to obtain corresponding subfiles.

In the above solution, displaying the at least two objects to be processed on the current display interface of the first electronic device simultaneously according to the determined display policy includes:

acquiring first historical processing information of a current user of first electronic equipment on the file to be processed, wherein the first historical processing information at least comprises processing sequence information of the file to be processed;

configuring display parameters of the subfiles on a current display interface of the first electronic device based on at least the processing sequence information, wherein each subfile is configured with a display area, and the display parameters at least represent the processing sequence information;

and simultaneously displaying the at least two objects to be processed in corresponding display areas of the current display interface based on the display parameters.

obtaining second historical processing information of the file to be processed, wherein the second historical processing information at least comprises processing sequence information and processing result information of the file to be processed;

configuring display parameters of the subfiles on the current display interface based on the processing sequence information and the processing result information, wherein each subfile is configured with a display area, and the display parameters at least can represent the difficulty level of processing the subfile;

In the above scheme, the method further comprises:

and detecting an operation which acts on the display area and meets the condition, and processing the determined target display area into a plurality of sub display areas for displaying, or removing at least two target display areas from a current display interface of the first electronic equipment or combining at least two target display areas.

In the above solution, processing the determined target display area into a plurality of sub-display areas for displaying includes:

detecting the amplification operation acting on the target display area, and acquiring secondary identification information of the object to be processed corresponding to the target display area;

and processing the to-be-processed object into a corresponding number of to-be-processed sub-objects at least based on the secondary identification information, so as to correspondingly display the to-be-processed sub-objects in the plurality of sub-display areas.

In the above scheme, removing at least two target display areas from a current display interface of the first electronic device or merging at least two target display areas includes:

detecting reduction operation acting on the at least two target display areas, and acquiring processing information of the object to be processed corresponding to each target display area;

when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are all processed correspondingly, combining the at least two target display areas and then removing the combined object from the current display interface;

when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are not completely processed, merging the objects to be processed corresponding to the at least two target display areas and displaying the merged objects to be processed in a first target display area of the at least two target display areas;

and when the processing information indicates that the parts of the objects to be processed corresponding to the at least two target display areas are processed correspondingly, merging the objects to be processed corresponding to the at least two target display areas and then displaying the merged objects to be processed in a first target display area of the at least two target display areas, and highlighting the objects to be processed which are not processed correspondingly in the first target display area.

In the above solution, after the at least two target display areas are merged and then removed from the current display interface, the method further includes:

and sending the to-be-processed objects corresponding to the at least two merged target display areas to second electronic equipment for subsequent processing.

According to another aspect of the present application, there is provided a display device including:

the device comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring a file to be processed which is displayed on first electronic equipment, and the file to be processed comprises at least two objects to be processed;

the display unit is used for performing at least one processing operation meeting the condition on the file to be processed at least based on the primary identification information of the object to be processed so as to simultaneously display the at least two objects to be processed on a current display interface of the first electronic equipment according to the determined display strategy;

The third aspect of the present application also provides a first electronic device, including: a processor and a memory for storing a computer program capable of running on the processor,

wherein the processor is configured to execute, when running the computer program: the method comprises the steps of obtaining a file to be processed for displaying on first electronic equipment, wherein the file to be processed comprises at least two objects to be processed; performing at least one processing operation meeting conditions on the file to be processed at least based on the primary identification information of the object to be processed, so as to simultaneously display the at least two objects to be processed on a current display interface of the first electronic device according to a determined display strategy; wherein the display strategy at least relates to the number of display areas of the current display interface.

The processor is further configured to, when executing the computer program, perform: processing the file to be processed into at least two subfiles at least based on the primary identification information, wherein each subfile corresponds to an object to be processed; or processing the file to be processed into at least two subfiles at least based on the primary identification information and the content information of the object to be processed, wherein each subfile corresponds to the object to be processed.

The processor is further configured to, when executing the computer program, perform: and obtaining display parameters of the current display interface of the first electronic equipment, and editing content information contained in the file to be processed based on the display parameters and the number of the objects to be processed to obtain corresponding subfiles.

The processor is further configured to, when executing the computer program, perform: acquiring first historical processing information of a current user of first electronic equipment on the file to be processed, wherein the first historical processing information at least comprises processing sequence information of the file to be processed; configuring display parameters of the at least two objects to be processed on a current display interface of the first electronic device based on at least the processing sequence information, wherein each object to be processed is configured with a display area, and the display parameters at least can represent the processing sequence information; and simultaneously displaying the at least two objects to be processed in the corresponding display areas of the current display interface based on the display parameters.

The processor is further configured to, when executing the computer program, perform: obtaining second historical processing information aiming at the file to be processed, wherein the second historical processing information at least comprises processing sequence information and processing result information of the file to be processed; configuring display parameters of the at least two objects to be processed on the current display interface based on the processing sequence information and the processing result information, wherein each object to be processed is configured with a display area, and the display parameters at least can represent the difficulty level of processing the objects to be processed; and simultaneously displaying the at least two objects to be processed in corresponding display areas of the current display interface based on the display parameters.

The processor is further configured to, when executing the computer program, perform: and detecting an operation which acts on the display area and meets the condition, processing the determined target display area into a plurality of sub-display areas for displaying, or removing at least two target display areas from a current display interface of the first electronic equipment or combining at least two target display areas.

The processor is further configured to, when executing the computer program, perform: detecting the amplification operation acting on the target display area, and acquiring secondary identification information of the object to be processed corresponding to the target display area; and processing the to-be-processed object into a corresponding number of to-be-processed sub-objects at least based on the secondary identification information, so as to correspondingly display the to-be-processed sub-objects in the plurality of sub-display areas.

The processor is further configured to, when executing the computer program, perform: detecting reduction operation acting on the at least two target display areas, and acquiring processing information of the object to be processed corresponding to each target display area; when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are all processed correspondingly, combining the at least two target display areas and then removing the combined target display areas from the current display interface; when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are not completely processed, merging the objects to be processed corresponding to the at least two target display areas and then displaying the merged objects in a first target display area of the at least two target display areas; and when the processing information indicates that the parts of the objects to be processed corresponding to the at least two target display areas are processed correspondingly, merging the objects to be processed corresponding to the at least two target display areas and then displaying the merged objects to be processed in a first target display area of the at least two target display areas, and highlighting the objects to be processed which are not processed correspondingly in the first target display area.

The processor is further configured to, when executing the computer program, perform: and sending the objects to be processed corresponding to the at least two merged target display areas to a second electronic device for subsequent processing.

According to a fourth aspect of the present application, there is provided a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, performs: the method comprises the steps of obtaining a file to be processed for displaying on first electronic equipment, wherein the file to be processed comprises at least two objects to be processed; performing at least one processing operation meeting conditions on the file to be processed at least based on the primary identification information of the object to be processed, so as to simultaneously display the at least two objects to be processed on a current display interface of the first electronic device according to a determined display strategy; wherein the display strategy at least relates to the number of display areas of the current display interface.

The computer program, when executed by the processor, further performs: processing the file to be processed into at least two subfiles at least based on the primary identification information, wherein each subfile corresponds to an object to be processed; or processing the file to be processed into at least two subfiles at least based on the primary identification information and the content information of the object to be processed, wherein each subfile corresponds to the object to be processed.

The computer program, when executed by a processor, performs: and obtaining display parameters of the current display interface of the first electronic equipment, and editing content information contained in the file to be processed based on the display parameters and the number of the objects to be processed to obtain corresponding subfiles.

The computer program, when executed by a processor, performs: acquiring first historical processing information of a current user of first electronic equipment on the file to be processed, wherein the first historical processing information at least comprises processing sequence information of the file to be processed; configuring display parameters of the at least two objects to be processed on a current display interface of the first electronic device based on at least the processing sequence information, wherein each object to be processed is configured with a display area, and the display parameters at least can represent the processing sequence information; and simultaneously displaying the at least two objects to be processed in corresponding display areas of the current display interface based on the display parameters.

The computer program, when executed by a processor, performs: obtaining second historical processing information aiming at the file to be processed, wherein the second historical processing information at least comprises processing sequence information and processing result information of the file to be processed; configuring display parameters of the at least two objects to be processed on the current display interface based on the processing sequence information and the processing result information, wherein each object to be processed is configured with a display area, and the display parameters at least can represent the difficulty level of processing the objects to be processed; and simultaneously displaying the at least two objects to be processed in corresponding display areas of the current display interface based on the display parameters.

The computer program, when executed by a processor, performs: and detecting an operation which acts on the display area and meets the condition, and processing the determined target display area into a plurality of sub display areas for displaying, or removing at least two target display areas from a current display interface of the first electronic equipment or combining at least two target display areas.

The computer program, when executed by a processor, performs: detecting the amplification operation acting on the target display area, and acquiring secondary identification information of the object to be processed corresponding to the target display area; and processing the to-be-processed object into a corresponding number of to-be-processed sub-objects at least based on the secondary identification information, so as to correspondingly display the to-be-processed sub-objects in the plurality of sub-display areas.

The computer program, when executed by a processor, performs: detecting reduction operation acting on the at least two target display areas, and acquiring processing information of the object to be processed corresponding to each target display area; when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are all processed correspondingly, combining the at least two target display areas and then removing the combined target display areas from the current display interface; when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are not completely processed, merging the objects to be processed corresponding to the at least two target display areas and displaying the merged objects to be processed in a first target display area of the at least two target display areas; and when the processing information indicates that the parts of the objects to be processed corresponding to the at least two target display areas are processed correspondingly, merging the objects to be processed corresponding to the at least two target display areas and then displaying the merged objects to be processed in a first target display area of the at least two target display areas, and highlighting the objects to be processed which are not processed correspondingly in the first target display area.

The computer program, when executed by a processor, performs: and sending the to-be-processed objects corresponding to the at least two merged target display areas to second electronic equipment for subsequent processing.

The embodiment of the application provides a display method and a display device, wherein first identification information of first data to be displayed is obtained; classifying the first data based on the first identification information to obtain a plurality of second data; dividing the first display area into a plurality of independent second display areas based on the plurality of second data; each second display area corresponds to one second data, and the content of each second data is different; and simultaneously displaying the corresponding second data in each second display area. Therefore, the first data are displayed in a plurality of independent display areas of the same display screen at the same time, and the browsing speed and browsing convenience of the data can be improved.

Drawings

FIG. 1 is a first schematic diagram illustrating a first implementation of a process of a display method according to the present application;

FIG. 2 is a schematic diagram of a second flow implementation of the display method of the present application;

FIG. 3 is a third schematic view of a flow implementation of the display method of the present application;

FIG. 4 is a fourth schematic view of a flow implementation of the display method of the present application;

FIG. 5 is a fifth flowchart of a display method of the present application;

FIG. 6 is a schematic structural diagram of a display device according to the present application;

fig. 7 is a schematic structural component diagram of a first electronic device in the present application.

Detailed Description

The technical solution of the present application is further described in detail with reference to the drawings and specific embodiments of the specification.

Fig. 1 is a schematic view of a first process implementation of the display method in the present application, as shown in fig. 1, the method includes:

step 101, obtaining a file to be processed for displaying on a first electronic device, wherein the file to be processed comprises at least two objects to be processed;

here, the method is applied to a first electronic device having a display function, for example, the first electronic device may be a desktop computer, a notebook computer, a tablet computer, a projection screen, a mobile phone, and the like.

In an implementation manner, the first electronic device may generate a file obtaining instruction by detecting a file obtaining operation performed by a user on the first electronic device, so that a corresponding file to be processed may be obtained from a cloud database based on the file obtaining instruction.

Here, the file to be processed may include one object to be processed, or may include at least two objects to be processed.

For example, if the file to be processed is a test paper file, the object to be processed included in the file to be processed may be a test question to be answered. Here, the first electronic device may correspond to a test paper database, and a user may trigger the first electronic device to generate a test paper obtaining instruction by clicking a test paper obtaining key (e.g., a physical key or a virtual key) on the first electronic device, and the first electronic device may access the test paper database based on the test paper obtaining instruction, so as to obtain a corresponding test paper file from the test paper database.

Wherein, the test paper file may only comprise one test question, or may comprise a plurality of test questions.

In another implementation manner, the file to be processed is a test paper file, the first electronic device may further receive a test paper receiving instruction sent by the second electronic device, and by responding to the test paper receiving instruction, the first electronic device may receive the test paper file sent by the second electronic device. The test paper file may include one test question or multiple (at least two) test questions.

Here, the second electronic device may also be a desktop computer, a notebook computer, a mobile phone, a tablet computer, a camera, a scanner, or the like.

The test paper file can be uploaded to the test paper database through the second electronic device. Therefore, the first electronic equipment can conveniently obtain the test paper file from the test paper database.

Here, when uploading the test paper file through the second electronic device, the user may directly edit the test paper through a data editing function that the second electronic device has, and then upload the edited test paper file to the test paper database. Of course, the user may also take a picture or scan the paper test paper file to be uploaded through an image collecting function (e.g., a camera or a scanner) provided by the second electronic device, and then upload the collected test paper file to the test paper database in a picture format. Therefore, the file uploading of the user in various modes can be realized, and the aim of file uploading diversification is fulfilled.

102, performing at least one processing operation meeting conditions on the file to be processed at least based on the primary identification information of the object to be processed, so as to simultaneously display the at least two objects to be processed on a current display interface of the first electronic device according to a determined display strategy; wherein the display strategy is at least related to the number of display areas of the current display interface.

Here, when the first electronic device performs a content segmentation operation on the file to be processed based on the primary identification information of the object to be processed, the operation is represented to satisfy a condition; or when the first electronic equipment extracts the key content of the file to be processed based on the primary identification information of the object to be processed, representing that the operation meets the condition. Or when the first electronic device performs font color adjustment on the file to be processed based on the primary identification information of the object to be processed, representing that the operation meets the condition.

Specifically, after the first electronic device acquires the file to be processed, format information of the file to be processed may also be acquired, and after the format information of the file to be processed is acquired, an analysis mode of the file to be processed is determined based on the format information.

Specifically, when the format information is in a data format, the file to be processed is represented as an editable file, and the first electronic device may directly perform data analysis on the file to be processed, so as to obtain primary identification information corresponding to each object to be processed in the file to be processed.

When the format information is in a picture format, the file to be processed is represented as a non-edited file, the first electronic device needs to perform Optical Character Recognition (OCR) on the file to be processed to obtain a recognized file to be processed, and then perform data analysis on the recognized file to be processed to obtain primary identification information corresponding to each object to be processed in the file to be processed.

Here, the primary identification information may be an identification code, an identifier, an identification number, or the like of the object to be processed.

In this application, after the first electronic device obtains the primary identification information corresponding to each object to be processed in the file to be processed, the object to be processed corresponding to each primary identification information in the file to be processed may be determined based on the primary identification information, and then the current display area of the first electronic device is subjected to area division based on the number of the objects to be processed, so as to obtain a plurality of second display areas corresponding to the number of the objects to be processed, and each second display area is independently displayed. Then, each object to be processed is displayed in a second display area, so that the purpose of simultaneously displaying all the objects to be processed in one display interface is achieved.

Fig. 2 is a schematic view illustrating a second implementation flow of the display method in the present application, and as shown in fig. 2, a first display area 21 is displayed in the current display interface 2 of the first electronic device. The document to be processed displayed in the first display area 21 is a test paper document, and the test paper document includes six test questions (i.e., six objects to be processed), and the question number (one, two, three, four, five) corresponding to each test question in the test paper document can be determined based on the question numbers (primary identification information) of the six test questions. Then, the first electronic device divides the current display interface 2 of the first electronic device based on the total number of the test questions in the test paper file to obtain six mutually independent second display areas 22, and the first electronic device can respectively display the test questions corresponding to each question number in one second display area 22 according to the way that one test question is displayed in one display area, so that the effect of simultaneously displaying all the test questions in different display areas of one display interface 2 is realized. Therefore, the test questions are respectively and independently displayed in different display areas of the same display screen, so that the content of the test paper can be seen by students in one display screen at a glance, and the browsing efficiency of the students on the content of the test paper is improved.

In this application, when the first electronic device performs at least one processing operation that satisfies a condition on the file to be processed based on the primary identification information of the object to be processed, the file to be processed may be further specifically divided based on the primary identification information, so as to process the file to be processed into at least two subfiles, where each subfile corresponds to the object to be processed; then, according to the mode that one subfile is displayed in one display area, the current display area of the first electronic equipment is subjected to area division to obtain a plurality of independently displayed second display areas corresponding to the number of the subfiles, then, the to-be-processed objects corresponding to each subfile are output through one second display area, so that the to-be-processed objects are displayed in different display areas of the same display interface at the same time, therefore, a user does not need to perform roller sliding on the to-be-processed files through a mouse, browsing of the user is facilitated, and browsing efficiency of the user is improved.

In this application, when the first electronic device performs at least one processing operation that satisfies a condition on the file to be processed based on the primary identification information of the object to be processed, the file to be processed may be further specifically divided based on the primary identification information and the content information of the object to be processed, so as to process the file to be processed into at least two subfiles, where each subfile corresponds to the object to be processed. Then, according to the mode that one subfile is displayed in one display area, area division is carried out on the current display area of the first electronic device to obtain a plurality of independently displayed second display areas corresponding to the number of the subfiles, then the objects to be processed corresponding to each subfile are output through one second display area, so that each object to be processed is displayed in different display areas of the same display interface at the same time, therefore, a user can browse all contents of the files to be processed without carrying out page turning operation on the files to be processed, and therefore browsing efficiency of the user can be improved.

In the application, when the first electronic device processes the file to be processed into at least two subfiles, the display parameters of the current display interface of the first electronic device can be specifically obtained, and then content information contained in the file to be processed is edited based on the display parameters and the number of the objects to be processed, so that the corresponding subfiles are obtained.

Here, the display parameter may be a display size, a display color, and the like of the current display interface of the first electronic device. The first electronic device may specifically obtain the display parameter of the current display interface through a device manager of the first electronic device.

In this application, when the display parameter acquired by the first electronic device from the device manager is the display size of the current display interface, the first electronic device may perform content segmentation on content information included in the file to be processed based on the display size and the number of the objects to be processed, so as to obtain a plurality of subfiles corresponding to the number and the display size of the objects to be processed, and the plurality of subfiles may be simultaneously displayed on the current display interface of the first electronic device. Therefore, the plurality of subfiles are displayed on the current display interface at the same time, the user can see the content information included by the file to be processed at a glance, and the content information included by the file to be processed is browsed without complex operations such as rolling wheels, page turning and the like, so that the browsing efficiency of the user is improved.

In the application, when the first electronic device obtains the display size of the current display interface of the first electronic device, the first electronic device may further calculate the word number of the content information contained in the file to be processed, and comparing the total word number corresponding to the file to be processed with the preset word number corresponding to the display size, if the comparison result indicates that the total number of words corresponding to the file to be processed is greater than the preset number of words corresponding to the display size, the current display interface representing the first electronic device cannot simultaneously display the content information contained in the file to be processed, and at this time, the first electronic device may perform key content extraction on content information contained in the file to be processed based on the display size and the number of objects to be processed, so as to obtain the key contents corresponding to the display size and the number of the objects to be processed, and thus, the extracted key contents are simultaneously displayed on the current display interface. Here, each key content characterizes one subfile. Therefore, by simultaneously displaying the key contents of the object to be processed on the current display interface, the user can quickly grasp the key points of the file contents, so that the reading speed and the question making speed of the user can be improved.

For example, the file to be processed is a test paper file, the test paper file includes 5 test questions, and the content of each test question is large, and the whole content of the 5 test questions cannot be displayed in the current display interface at the same time.

In the application, after extracting the key content from the content information contained in the file to be processed, the first electronic device may further calculate a total number of the extracted key content, compare the total number of the key content with a preset number of words corresponding to the display size, and if the comparison result indicates that the total number of the key content is greater than the preset number of words corresponding to the display size, indicate that the key content of the file to be processed cannot be simultaneously displayed on the current display interface of the first electronic device. At this time, the first electronic device may extract primary identification information corresponding to the number of the objects to be processed from content information included in the file to be processed based on the number of the objects to be processed, so as to simultaneously display each piece of primary identification information on a current display interface of the first electronic device.

Here, the primary identification information corresponding to each processing object may characterize one subfile.

For example, the file to be processed is a test paper file, the test paper file includes 5 test questions, and the content of each test question is large, and the whole content of the 5 test questions cannot be displayed in the current display interface at the same time, at this time, after the key content of each test question in the test paper file is extracted, it is found that the key content of the 5 test questions cannot be displayed in the current display interface at the same time, at this time, only the question number of each test question in the test paper file can be extracted, and the question number of each test question is displayed in the current display interface at the same time, so that the user can clearly and conveniently know that the test paper file includes a total number of test questions, thereby avoiding user question leakage, and facilitating better grasping of the user about question making time.

In this application, when the display parameter acquired by the first electronic device from the device manager is the display color of the current display interface, the first electronic device may perform content segmentation on the content information included in the file to be processed based on the number of the objects to be processed to obtain the content information corresponding to the number of the objects to be processed, and perform font color adjustment on the content information of each object to be processed based on the display color, so that the adjusted content information of each object to be processed can be simultaneously displayed on the current display interface of the first electronic device. Therefore, the font color of the display content of the current display interface is adjusted, the identification degrees of the display content of the current display interface and the background color of the current display interface can be improved, and therefore a user can see the text content displayed on the current display interface clearly.

Here, the content information of each object to be processed represents one subfile after being subjected to font color adjustment.

For example, the document to be processed is a test paper document, the test paper document includes 5 test questions, and the font color of each test question is blue, the first electronic device finds that the test paper document is also blue by obtaining the background color of the current display interface, and if the test paper document with the blue font is displayed on the display interface with the blue background, it is obvious that the problem that the user cannot clearly identify the test paper document is caused, and the eye fatigue of the user is increased. Therefore, the first electronic device may adjust the font color (blue) of the test question based on the background color (blue) so that the adjusted font color of the test question is different from the background color, for example, adjust the font color of the test question to (black, red, etc.), where the font color of the test question is not particularly limited as long as it can be clearly distinguished from the background color of the current display interface.

After the font color of the test questions is adjusted, the test paper file can be further divided into 5 sub-files based on 5 test questions, each sub-file corresponds to one test question, for example, 1 question corresponds to one sub-file, 2 questions corresponds to one sub-file, … …, 5 questions correspond to one sub-file, and then the content information of the 5 sub-files is displayed on the current display interface at the same time.

Here, the test paper file may be divided based on the number of test questions, and then the font color adjustment may be performed on the content information of each divided subfile.

By adjusting the font color of the display content of the current display interface, the identification degree of the display content can be improved, so that a user can see the display content more clearly, and the eye fatigue of the user can be reduced.

In the application, when the first electronic device processes the content of the file to be processed based on the display color of the current display interface, the font color of the content of the unfinished test questions in the file to be processed can be adjusted, and after the adjustment, the unfinished test question content is simultaneously displayed on the current display interface.

For example, the display color of the current display interface is blue, and the third question and the fourth question in the current file to be processed are not completed, only the font colors of the third question and the fourth question are adjusted to be different colors from the display color of the current display interface, for example, the font colors of the third question and the fourth question are adjusted to be high-brightness colors such as yellow and red, so as to play a role in reminding the user, and avoid the problem of missing questions when the user makes questions.

In this application, when the first electronic device simultaneously displays the at least two to-be-processed objects on the current display interface of the first electronic device according to the determined display policy, first historical processing information of the current user of the first electronic device on the to-be-processed file may also be obtained, where the first historical processing information at least includes processing sequence information of the to-be-processed file; configuring display parameters of the subfiles on a current display interface of the first electronic device based on at least the processing sequence information, wherein each subfile is configured with a display area, and the display parameters at least represent the processing sequence information; and simultaneously displaying at least two objects to be processed in the corresponding display areas of the current display interface based on the display parameters.

Here, when the first electronic device simultaneously displays at least two objects to be processed in the corresponding display areas of the current display interface based on the display parameters of the at least two objects to be processed on the current display interface of the first electronic device, the first electronic device may further reorder the display order of each test question based on the display parameters, so as to sequentially display the reordered test questions in the corresponding display areas of the current display interface.

For example, the first electronic device is a computer a, the user B is usually used to perform answer training using the computer a, if at this time, the document to be processed displayed on the computer a is a test paper document, and the test paper document includes 4 test questions, where the first large question is a blank filling question, the second large question is a selection question, the third large question is a question answering, and the fourth large question is a judgment question. The computer A can obtain the usual behavior habit characteristic information of the user B when the 4 questions are simultaneously displayed on the current display interface of the computer A according to the determined display strategy, and the usual question making sequence of the user B represented by the behavior habit characteristic information of the user B is as follows: firstly, selecting questions, then judging questions, then making questions and answers, and finally making blank filling questions, configuring a display parameter for each question when the current display interface of the computer A is displayed based on the behavior habit characteristic information of the user B, for example, the display parameter configured for the first question in the test paper file is 4, the display parameter configured for the second question is 1, the display parameter configured for the third question is 3, and the display parameter configured for the fourth question is 2, and then simultaneously displaying 4 questions in the corresponding display area of the current display interface of the computer A based on the display parameter configured for each question. For example, if the display parameter of the first topic configuration is 4, the display parameter of the second topic configuration is 1, the display parameter of the third topic configuration is 3, and the display parameter of the fourth topic configuration is 2, when the current display interface displays, each topic can be reordered, and the display order after reordering is: and simultaneously displaying at least two objects to be processed in the corresponding display areas of the current display interface based on the rearranged display sequence of the second big question, the fourth big question, the third big question and the first big question. Therefore, the test paper content is displayed on the current display interface according to the behavior habit characteristic information of the user, the user can conveniently answer the test paper in the optimal state according to the daily question making preference of the user, and the problem that the user fails to answer the test paper in a question jumping mode is avoided.

In this application, when the first electronic device displays at least two objects to be processed in the corresponding display areas of the current display interface simultaneously based on the display parameters of the at least two objects to be processed, which are configured on the current display interface of the first electronic device, the display size of each test question on the current display interface of the first electronic device may be adjusted based on the display parameters, so that the content information of each test question is displayed based on the adjusted display size.

For example, the display parameter of the first large question configuration is 4, the display parameter of the second large question configuration is 1, the display parameter of the third large question configuration is 3, the display parameter of the fourth large question configuration is 2, and the first electronic device can adjust the display sizes of the second large question and the fourth large question to be larger than the display sizes of the first question and the third question based on the display parameters, so that the user can clearly distinguish the test question to be preferentially processed from the test question to be post-processed by displaying different test questions in different display sizes.

In this application, the first history processing information of the current user obtained by the first electronic device may also be an answer accuracy, and when the first history processing information is an answer accuracy, the first electronic device may determine, based on the first history processing information, a type of test question that the current user excels in, so as to configure, for at least two objects to be processed, display parameters of the at least two objects to be processed on a current display interface of the first electronic device, based on the type of test question that the current user excels in, where each object to be processed is configured with a display area, and the display parameters at least can represent the type of test question that the current user excels in.

For example, the first history processing information indicates that the answer accuracy of the current user on the judgment questions is 90%, the answer accuracy of the selection questions is 80%, and the answer accuracy of the short answer questions is 60%, it is determined that the types of the test questions which are good at the current user are the judgment questions and the selection questions, so that the display parameters of the at least two objects to be processed on the current display interface of the first electronic device are configured based on the types of the test questions which are good at the user, for example, the display parameters of the judgment questions on the current display interface of the first electronic device are configured to be 80%, and the display parameters of the judgment questions on the current display interface of the first electronic device are configured to be 90%. In this way, the display parameters of the object to be processed on the current display interface of the first electronic device are configured for the object to be processed according to the answer type good for the user, so that the user can be prompted that the test question is the question type good for the user, and the confidence can be improved for the user.

In this application, when the first electronic device simultaneously displays at least two to-be-processed objects on the current display interface of the first electronic device according to the determined display policy, second historical processing information for the to-be-processed file may also be obtained, where the second historical processing information at least includes processing sequence information (such as answer sequence) and processing result information (answer accuracy) for the to-be-processed file; then configuring display parameters (display size or font color or display sequence) of the at least two objects to be processed on a current display interface for the at least two objects to be processed based on the processing sequence information and the processing result information, wherein each object to be processed is configured with a display area, and the display parameters can at least represent the difficulty level of processing the objects to be processed; and simultaneously displaying at least two objects to be processed in the corresponding display areas of the current display interface based on the display parameters.

In the application, after the first electronic device displays at least two to-be-processed objects of the to-be-processed file on the current display interface, the first electronic device can also detect an operation which acts on a display area on the current display interface and meets the condition, and process the determined target display area into a plurality of sub-display areas for displaying; or, removing the at least two target display areas from the current display interface of the first electronic device or merging the at least two target display areas.

Here, when the first electronic device detects an operation that is applied to the display area and satisfies a condition, and processes the determined target display area into a plurality of sub-display areas for display, specifically, when an enlargement operation applied to the target display area is detected, the second-level identification information of the object to be processed corresponding to the target display area may be obtained; and then processing the to-be-processed object into a corresponding number of to-be-processed sub-objects at least based on the secondary identification information, so as to correspondingly display the to-be-processed sub-objects in the plurality of sub-display areas.

Fig. 3 is a schematic view showing a third implementation process of the display method in the present application, and as shown in fig. 3, the file 3 to be processed is a test paper file, where the file includes primary identification information 31 and secondary identification information 32, where the primary identification information 31 includes: one, two, three, four, five and six; the secondary identification information 32 includes: 1. 2; of course, the secondary identification information 32 may also be: the 1 st, 2 nd, 3 rd, … … th and 10 th problems.

In the application, when the first electronic device removes at least two target display areas from a current display interface of the first electronic device or merges at least two target display areas, specifically, when a zoom-out operation acting on the at least two target display areas is detected, processing information of an object to be processed corresponding to each target display area is obtained; then, when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are all processed correspondingly, combining the at least two target display areas and removing the combined object from the current display interface; or when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are not finished with corresponding processing, merging the objects to be processed corresponding to the at least two target display areas and displaying the merged objects to be processed in a first target display area of the at least two target display areas; or when the processing information indicates that the to-be-processed object parts corresponding to the at least two target display areas complete corresponding processing, merging the to-be-processed objects corresponding to the at least two target display areas, displaying the merged to-be-processed objects in a first target display area of the at least two target display areas, and highlighting the to-be-processed objects which do not complete corresponding processing in the first target display area.

For example, in the using process, a user can freely control each display area in the current display interface in a mode of pressing and dragging the zooming by two fingers. The method comprises the steps that a first electronic device detects the positions of two fingers of a user, the number of questions can be detected firstly for amplification dragging, and the questions can be separated into multiple regions for display according to the mode of each question; for the single question, single-area amplification display is carried out, and each area can be matched through self-adaptation display. For the zooming-out and dragging, the first electronic device can judge the answering states of the test questions in the two selected areas in advance, if the test questions are both answered, the contents of the two selected areas are merged, and then the merged contents are removed from the display area of the main area. If the questions are unanswered, the contents of the two selected areas are combined, and the combined contents are displayed in one area. If the answer state is both the answered state and the unanswered state, the contents of the two selected regions are combined, and after the combined contents are displayed in one region, the unanswered region is highlighted.

Fig. 4 is a schematic view illustrating a fourth flow implementation of the display method in the present application, as shown in fig. 4, six display areas are simultaneously displayed on the current display interface, which are a first display area 41, a second display area 42, a third display area 43, a fourth display area 44, a fifth display area 45, and a sixth display area 46, respectively, and when the first electronic device detects a reduction operation performed on the first display area 41 and the second display area 42, processing information of an object to be processed corresponding to the first display area 41 and the second display area 42 is obtained (for example, the processing information is a non-answer area); the objects to be processed corresponding to the first display area 41 and the second display area 42 are merged and then displayed in the first target display area, for example, the first target display area is the second display area 42, of course, the first target display area may also be the first display area 41, and may be set by itself specifically as needed.

When the first electronic device detects a zoom-out operation acting on the third display area 43 and the fourth display area 44, processing information of an object to be processed corresponding to the third display area 43 and the fourth display area 44 is obtained (for example, the processing information is an answered area), and the third display area 43 and the fourth display area 44 are merged and then removed from the current display interface;

when the first electronic device detects a zoom-out operation acting on the fifth display area 45 and the sixth display area 46, processing information of the object to be processed corresponding to the fifth display area 45 and the sixth display area 46 is obtained, for example, the processing information is: and a mixed answer area, where the mixed answer area indicates that the parts of the objects to be processed corresponding to the fifth display area 45 and the sixth display area 46 complete corresponding processing, and at this time, the objects to be processed corresponding to the fifth display area 45 and the sixth display area 46 may be merged and then displayed in a first target display area of the at least two target display areas, and the objects to be processed which do not complete corresponding processing are highlighted in the first target display area.

Here, the two target display regions may be the fifth display region 45 and the sixth display region 46, and the first target display region of the two target display regions may be the sixth display region 46 or the fifth display region 45.

Therefore, students can timely overview all contents of the test paper when the test paper is issued, and make answer modes according with the students. The problem answer can be switched at any time according to the self condition, and the screens are independent and do not influence each other. In the answering process, the answered questions can be combined at any time and removed from the main screen display, and the achievement feeling of answering is increased. For questions which are not answered, the display mode of the test questions can be changed at will by pressing and dragging the screen according to external factors such as time and the like, and the answer strategy can be adjusted in time. The answered questions and unanswered questions can be distinguished on the main screen display, wherein unanswered question areas can be highlighted, and the unanswered question areas serve as reminders visually, so that the situation that students have missed answers is prevented more intuitively.

In the application, after the first electronic device merges at least two target display areas in the file to be processed and removes the merged target display areas from the current display interface, the object to be processed corresponding to the merged at least two target display areas can be sent to the second electronic device for subsequent processing.

Here, the second electronic device has an association relationship with the first electronic device.

For example, the first electronic device may be a computer of a student a, the second electronic device may be a computer of a teacher B of the student a, and after the student a completes the examination paper answering through the first electronic device, the completed answer may be sent to the computer of the teacher B through an account of the teacher B, so that the student a is read by the teacher B.

Fig. 5 is a schematic view of a fifth implementation of a flow of the display method in the present application, and as shown in fig. fifth, the method includes:

50, uploading the picture-format test paper file or the data-format test paper file to a cloud test paper library by the teacher;

and step 51, when the first electronic device needs to acquire the test paper file, downloading the corresponding test paper file from the cloud test paper library.

Step 52, if the downloaded test paper file is a file in a picture format, carrying out picture recognition on the test paper file by an OCR recognition method; then step 53 is performed;

and step 53, analyzing the test paper file identified by the OCR. Or, if the downloaded test paper file is a file in a data format, the test paper analysis is directly performed on the downloaded test paper file.

And step 54, positioning the content area of each large topic according to the label of each large topic in the analysis of the test paper.

And step 55, identifying the labels of the questions in the analysis of the test paper, and displaying the questions in different areas by default according to the mode that each question is displayed in one area.

Therefore, the students can answer the questions respectively through the content displayed in the subareas, and the areas are independent and do not influence each other.

In the using process, a user can freely control each display area in the current display interface in a mode of pressing, dragging and zooming by two fingers. The first electronic device can then detect the position of the user's two fingers. If the amplification operation acting on the target display area is detected, acquiring secondary identification information of the object to be processed corresponding to the target display area; and then processing the to-be-processed object into a corresponding number of to-be-processed sub-objects at least based on the secondary identification information, so as to correspondingly display the to-be-processed sub-objects in the plurality of sub-display areas.

Step 56, judging whether the test questions corresponding to the current two target display areas are multiple questions or single questions;

specifically, when there are multiple questions, step 58 is executed, and when there are single questions, step 57 is executed;

step 57, displaying the single questions;

step 58, separating multiple questions;

step 59, displaying in multiple areas;

step 60, merging test questions;

if the reduction operation acting on at least two target display areas is detected, acquiring the answer type of the test question corresponding to each target display area; then, test question merging processing is performed according to the answer type.

The concrete combination mode is as follows: when the answer type indicates that the answer of the test questions corresponding to the at least two target display areas is finished, combining the at least two target display areas and removing the combined test questions from the current display interface; or when the answer type indicates that the to-be-processed test questions corresponding to the at least two target display areas are not completely answered, merging the to-be-processed objects corresponding to the at least two target display areas and displaying the merged objects in a first target display area of the at least two target display areas; or when the answer type indicates that the answer is completed in the part of the to-be-processed test questions corresponding to the at least two target display areas and the answer is not completed in the part of the to-be-processed test questions, combining the test questions corresponding to the at least two target display areas, displaying the combined test questions in a first target display area of the at least two target display areas, and highlighting the to-be-processed test questions which are not completed in the first target display area.

By the display method, the whole process is simple and convenient to operate. And students can timely overview all contents of the test paper when the test paper is issued, and make answering modes according with the students. The problem answer can be switched at any time according to the self condition, and the screens are independent and do not influence each other. In the answering process, the answered questions can be combined at any time and removed from the main screen display, and the achievement feeling of answering is increased. For questions which are not answered, the display mode of the test questions can be changed at will by pressing and dragging the screen according to external factors such as time and the like, and the answer strategy can be adjusted in time. The answered questions and unanswered questions can be distinguished on the main screen display, wherein unanswered question areas can be highlighted, and the unanswered question areas serve as reminders visually, so that the situation that students have missed answers is prevented more intuitively.

Fig. 6 is a schematic structural composition diagram of a display device according to the present application, and as shown in fig. 6, the display device includes: an obtaining unit 601, configured to obtain a to-be-processed file for displaying on a first electronic device, where the to-be-processed file includes at least two to-be-processed objects;

a processing unit 602, configured to perform at least one processing operation that meets a condition on the file to be processed based on at least the primary identification information of the object to be processed, so as to simultaneously display the at least two objects to be processed on a current display interface of the first electronic device according to a determined display policy;

wherein the display strategy at least relates to the number of display areas of the current display interface;

the display unit 603 is configured to simultaneously display the at least two objects to be processed on the current display interface of the first electronic device according to the determined display policy.

In a preferred embodiment of the present application, the processing unit 602 is specifically configured to process the file to be processed into at least two subfiles based on at least the primary identification information, where each subfile corresponds to an object to be processed; or processing the file to be processed into at least two subfiles at least based on the primary identification information and the content information of the object to be processed, wherein each subfile corresponds to the object to be processed.

In a preferred embodiment of the present application, the processing unit 602 is further specifically configured to obtain a display parameter of a current display interface of the first electronic device, and edit content information included in a file to be processed based on the display parameter and the number of objects to be processed, to obtain a corresponding subfile.

In a preferred embodiment of the present application, the processing unit 602 is further specifically configured to obtain first historical processing information of a current user of a first electronic device on the to-be-processed file, where the first historical processing information at least includes processing sequence information of the to-be-processed file; configuring display parameters of the at least two objects to be processed on a current display interface of the first electronic device based on at least the processing sequence information, wherein each object to be processed is configured with a display area, and the display parameters at least can represent the processing sequence information;

the display unit 603 is specifically configured to display the at least two objects to be processed in the corresponding display areas of the current display interface simultaneously based on the display parameters.

In a preferred embodiment of the present application, the processing unit 602 is further specifically configured to obtain second historical processing information for the to-be-processed file, where the second historical processing information at least includes processing sequence information and processing result information of the to-be-processed file; configuring display parameters of the at least two objects to be processed on the current display interface based on the processing sequence information and the processing result information, wherein each object to be processed is configured with a display area, and the display parameters at least can represent the difficulty level of processing the objects to be processed;

In a preferred embodiment of the present application, the processing unit 602 is further specifically configured to detect an operation that acts on the display area and satisfies a condition, process the determined target display area into a plurality of sub-display areas for displaying, or remove at least two of the target display areas from a current display interface of the first electronic device or merge at least two of the target display areas.

In a preferred embodiment of the present application, the processing unit 602 is further specifically configured to detect a zoom-in operation applied to the target display area, and obtain secondary identification information of the object to be processed corresponding to the target display area; and processing the to-be-processed object into a corresponding number of to-be-processed sub-objects at least based on the secondary identification information, so as to correspondingly display the to-be-processed sub-objects in the plurality of sub-display areas.

In a preferred embodiment of the present application, the processing unit 602 is further specifically configured to detect a zoom-out operation applied to the at least two target display areas, and obtain processing information of an object to be processed corresponding to each target display area; when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are all processed correspondingly, combining the at least two target display areas and then removing the combined target display areas from the current display interface;

the display unit 603 is specifically configured to, when the processing information indicates that none of the objects to be processed corresponding to the at least two target display areas has completed corresponding processing, merge the objects to be processed corresponding to the at least two target display areas and display the merged objects in a first target display area of the at least two target display areas; and when the processing information indicates that the parts of the objects to be processed corresponding to the at least two target display areas are processed correspondingly, merging the objects to be processed corresponding to the at least two target display areas and then displaying the merged objects to be processed in a first target display area of the at least two target display areas, and highlighting the objects to be processed which are not processed correspondingly in the first target display area.

In this application, the processing unit 602 is further configured to send the to-be-processed objects corresponding to the at least two merged target display areas to the second electronic device for subsequent processing.

It should be noted that: in the display device provided in the above embodiment, when displaying information, only the division of the program modules is described as an example, and in practical applications, the processing distribution may be completed by different program modules according to needs, that is, the internal structure of the device may be divided into different program modules to complete all or part of the processing described above. In addition, the display device and the display method provided by the above embodiments belong to the same concept, and specific implementation processes thereof are described in the method embodiments and are not described herein again.

An embodiment of the present application further provides a first electronic device, where the first electronic device includes: a processor and a memory for storing a computer program capable of running on the processor,

The processor is further configured to, when executing the computer program, perform: acquiring first historical processing information of a current user of first electronic equipment on the file to be processed, wherein the first historical processing information at least comprises processing sequence information of the file to be processed; configuring display parameters of the at least two objects to be processed on a current display interface of the first electronic device based on at least the processing sequence information, wherein each object to be processed is configured with a display area, and the display parameters at least can represent the processing sequence information; and simultaneously displaying the at least two objects to be processed in corresponding display areas of the current display interface based on the display parameters.

The processor is further configured to, when executing the computer program, perform: detecting reduction operation acting on the at least two target display areas, and acquiring processing information of the object to be processed corresponding to each target display area; when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are all processed correspondingly, combining the at least two target display areas and then removing the combined object from the current display interface; when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are not completely processed, merging the objects to be processed corresponding to the at least two target display areas and displaying the merged objects to be processed in a first target display area of the at least two target display areas; and when the processing information indicates that the parts of the objects to be processed corresponding to the at least two target display areas are processed correspondingly, merging the objects to be processed corresponding to the at least two target display areas and then displaying the merged objects to be processed in a first target display area of the at least two target display areas, and highlighting the objects to be processed which are not processed correspondingly in the first target display area.

The processor is further configured to, when executing the computer program, perform: and sending the to-be-processed objects corresponding to the at least two merged target display areas to second electronic equipment for subsequent processing.

Fig. 7 is a schematic structural component diagram of a first electronic device 700 in the present application, which may be a mobile phone, a computer, a digital broadcast terminal, an information transceiver device, a game console, a tablet device, a medical device, a fitness device, a personal digital assistant, or the like. The first electronic device 700 shown in fig. 7 includes: at least one processor 701, a memory 702, at least one network interface 704, and a user interface 703. The various components in the first electronic device 700 are coupled together by a bus system 705. It is understood that the bus system 705 is used to enable connected communication between these components. The bus system 705 includes a power bus, a control bus, and a status signal bus in addition to a data bus. But for clarity of illustration the various busses are labeled in figure 7 as the bus system 705.

The user interface 703 may include, among other things, a display, a keyboard, a mouse, a trackball, a click wheel, a key, a button, a touch pad, or a touch screen.

It will be appreciated that the memory 702 can be either volatile memory or nonvolatile memory, and can include both volatile and nonvolatile memory. Among them, the nonvolatile Memory may be a Read-Only Memory (ROM), a Programmable Read-Only Memory (PROM), an Erasable Programmable Read-Only Memory (EPROM), an Electrically Erasable Programmable Read-Only Memory (EEPROM), a magnetic random access Memory (FRAM), a magnetic random access Memory (Flash Memory), a magnetic surface Memory, an optical Disc, or a Compact Disc Read-Only Memory (CD-ROM); the magnetic surface storage may be disk storage or tape storage. Volatile Memory can be Random Access Memory (RAM), which acts as external cache Memory. By way of illustration and not limitation, many forms of RAM are available, such as Static Random Access Memory (SRAM), Synchronous Static Random Access Memory (SSRAM), Dynamic Random Access Memory (DRAM), Synchronous Dynamic Random Access Memory (SDRAM), Double Data Rate Synchronous Dynamic Random Access Memory (DDRSDRAM, Double Data Rate Synchronous Dynamic Random Access Memory), Enhanced Synchronous Dynamic Random Access Memory (ESDRAM, Enhanced Synchronous Dynamic Random Access Memory), Synchronous link Dynamic Random Access Memory (SLDRAM, Synchronous Dynamic Random Access Memory), Direct Memory (DRmb Access Memory, Random Access Memory). The memory 702 described in embodiments herein is intended to comprise, without being limited to, these and any other suitable types of memory.

The memory 702 in the embodiment of the present application is used to store various types of data to support the operation of the first electronic device 700. Examples of such data include: any computer programs for operating on the first electronic device 700, such as an operating system 7021 and application programs 7022; contact data; telephone book data; a message; a picture; video, etc. The operating system 7021 includes various system programs, such as a framework layer, a core library layer, a driver layer, and the like, for implementing various basic services and processing hardware-based tasks. The application 7022 may include various applications such as a Media Player (Media Player), a Browser (Browser), and the like, for implementing various application services. A program for implementing the methods according to embodiments of the present application may be included in application 7022.

The method disclosed in the embodiments of the present application may be applied to the processor 701, or implemented by the processor 701. The processor 701 may be an integrated circuit chip having signal processing capabilities. In implementation, the steps of the above method may be implemented by integrated logic circuits of hardware or instructions in the form of software in the processor 701. The Processor 701 may be a general purpose Processor, a Digital Signal Processor (DSP), or other programmable logic device, discrete gate or transistor logic device, discrete hardware components, etc. The processor 701 may implement or perform the methods, steps, and logic blocks disclosed in the embodiments of the present application. A general purpose processor may be a microprocessor or any conventional processor or the like. The steps of the method disclosed in the embodiments of the present application may be directly implemented by a hardware decoding processor, or implemented by a combination of hardware and software modules in the decoding processor. The software modules may be located in a storage medium located in the memory 702, and the processor 701 may read the information in the memory 702 and perform the steps of the aforementioned methods in conjunction with its hardware.

In an exemplary embodiment, the first electronic Device 700 may be implemented by one or more Application Specific Integrated Circuits (ASICs), DSPs, Programmable Logic Devices (PLDs), Complex Programmable Logic Devices (CPLDs), Field Programmable Gate Arrays (FPGAs), general purpose processors, controllers, Micro Controllers (MCUs), microprocessors (microprocessors), or other electronic components for performing the aforementioned methods.

In an exemplary embodiment, the present application further provides a computer readable storage medium, for example, a memory 702 including a computer program, which is executable by a processor 701 of the first electronic device 700 to perform the steps of the foregoing method. The computer readable storage medium can be Memory such as FRAM, ROM, PROM, EPROM, EEPROM, Flash Memory, magnetic surface Memory, optical disk, or CD-ROM; or may be a variety of devices including one or any combination of the above memories, such as a mobile phone, computer, tablet device, personal digital assistant, etc.

A computer-readable storage medium, on which a computer program is stored which, when executed by a processor, performs: the method comprises the steps of obtaining a file to be processed for displaying on first electronic equipment, wherein the file to be processed comprises at least two objects to be processed; performing at least one processing operation meeting conditions on the file to be processed at least based on the primary identification information of the object to be processed, so as to simultaneously display the at least two objects to be processed on a current display interface of the first electronic device according to a determined display strategy; wherein the display strategy is at least related to the number of display areas of the current display interface.

The computer program, when executed by a processor, performs: and detecting an operation which acts on the display area and meets the condition, processing the determined target display area into a plurality of sub-display areas for displaying, or removing at least two target display areas from a current display interface of the first electronic equipment or combining at least two target display areas.

The computer program, when executed by a processor, performs: detecting reduction operation acting on the at least two target display areas, and acquiring processing information of the object to be processed corresponding to each target display area; when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are all processed correspondingly, combining the at least two target display areas and then removing the combined object from the current display interface; when the processing information indicates that the objects to be processed corresponding to the at least two target display areas are not completely processed, merging the objects to be processed corresponding to the at least two target display areas and then displaying the merged objects in a first target display area of the at least two target display areas; and when the processing information indicates that the parts of the objects to be processed corresponding to the at least two target display areas are processed correspondingly, merging the objects to be processed corresponding to the at least two target display areas and then displaying the merged objects to be processed in a first target display area of the at least two target display areas, and highlighting the objects to be processed which are not processed correspondingly in the first target display area.

The computer program, when executed by a processor, performs: and sending the objects to be processed corresponding to the at least two merged target display areas to a second electronic device for subsequent processing.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and in actual implementation, there may be other divisions, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or in other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on multiple network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

The methods disclosed in the several method embodiments provided in the present application may be combined arbitrarily without conflict to obtain new method embodiments.

Features disclosed in several of the product embodiments provided in the present application may be combined in any combination to yield new product embodiments without conflict.

The features disclosed in the several method or apparatus embodiments provided in the present application may be combined arbitrarily, without conflict, to arrive at new method embodiments or apparatus embodiments.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. A display method, comprising:

the method comprises the steps of obtaining a file to be processed, wherein the file to be processed comprises a test paper file, and the test paper file comprises at least two objects to be processed;

performing at least one processing operation meeting conditions on the test paper file at least based on the primary identification information of the objects to be processed so as to simultaneously display the at least two objects to be processed on a current display interface of the first electronic device according to a determined display strategy; each object to be processed corresponds to one display area in the current display interface; the at least one processing operation meeting the condition is used for processing the test paper file into at least two subfiles respectively corresponding to an object to be processed, and the processing operation meeting the condition comprises at least one of the following operations: content segmentation operation, key content extraction operation and font color adjustment; wherein the display strategy at least relates to the number of display areas of the current display interface.

2. The method of claim 1, wherein the performing at least one processing operation on the test paper file based on at least the primary identification information of the object to be processed, which satisfies a condition, comprises:

processing the test paper file into at least two subfiles at least based on the primary identification information, wherein each subfile corresponds to an object to be processed; or the like, or, alternatively,

and processing the test paper file into at least two subfiles at least based on the primary identification information and the content information of the object to be processed, wherein each subfile corresponds to the object to be processed.

3. The method of claim 2, processing the test paper file into at least two subfiles, comprising:

and obtaining display parameters of the current display interface of the first electronic equipment, and editing content information contained in the test paper file based on the display parameters and the number of the objects to be processed to obtain corresponding subfiles.

4. The method of claim 1, wherein simultaneously displaying the at least two objects to be processed on a current display interface of the first electronic device according to the determined display policy comprises:

obtaining first historical processing information of a current user of first electronic equipment on the test paper file, wherein the first historical processing information at least comprises processing sequence information of the test paper file;

configuring display parameters of the at least two objects to be processed on a current display interface of the first electronic device based on at least the processing sequence information, wherein each object to be processed is configured with a display area, and the display parameters at least can represent the processing sequence information;

5. The method of claim 1, wherein simultaneously displaying the at least two objects to be processed on a current display interface of the first electronic device according to the determined display policy comprises:

obtaining second historical processing information for the test paper file, wherein the second historical processing information at least comprises processing sequence information and processing result information of the test paper file;

configuring display parameters of the at least two objects to be processed on the current display interface based on the processing sequence information and the processing result information, wherein each object to be processed is configured with a display area, and the display parameters at least can represent the difficulty level of processing the objects to be processed;

6. The method of claim 4 or 5, further comprising:

and detecting an operation which acts on the display area and meets the condition, processing the determined target display area into a plurality of sub-display areas for displaying, or removing at least two target display areas from a current display interface of the first electronic equipment or combining at least two target display areas.

7. The method of claim 6, wherein processing the determined target display area into a plurality of sub-display areas for display comprises:

8. The method of claim 6, wherein removing or merging at least two of the target display areas from a currently displayed interface of the first electronic device comprises:

9. The method of claim 8, further comprising, after removing from the current display interface after merging the at least two target display regions:

10. A display device, comprising:

the device comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring a file to be processed which is displayed on first electronic equipment, the file to be processed comprises a test paper file, and the test paper file comprises at least two objects to be processed;

the processing unit is used for performing at least one processing operation meeting the condition on the test paper file at least based on the primary identification information of the objects to be processed so as to simultaneously display the at least two objects to be processed on the current display interface of the first electronic equipment according to the determined display strategy; each object to be processed corresponds to one display area in the current display interface; the at least one processing operation meeting the condition is used for processing the test paper file into at least two sub-files respectively corresponding to an object to be processed, and the processing operation meeting the condition comprises at least one of the following operations: content segmentation operation, key content extraction operation and font color adjustment; wherein the display strategy at least relates to the number of display areas of the current display interface.