CN114064579A - Information interaction marking method, storage medium and electronic equipment - Google Patents

Abstract

The invention discloses a marking method of information interaction, a storage medium and electronic equipment, wherein the method comprises the following steps: acquiring a first interactive operation on a first configuration interface; responding to the first interactive operation, configuring the relation between the first task and the second task as a file generated by an account executing the first task, and automatically transmitting the file to the account executing the second task; under the condition that the first account does not transmit files to the second account, displaying a first interaction result on a first display interface, wherein the first interaction result is used for indicating that information interaction does not occur between the first task and the second task; and displaying a second interaction result on the first display interface while the first account transmits the generated first file of the first version to the second account, wherein the second interaction result is used for indicating that the first task and the second task have information interaction. The invention solves the technical problem of higher complexity of interactive marking operation caused by simpler and more simple processing logic in the marking process of related information interaction.

Description

Information interaction marking method, storage medium and electronic equipment

Technical Field

The invention relates to the field of computers, in particular to a marking method of information interaction, a storage medium and electronic equipment.

Background

Computer (Computer), commonly known as Computer, is a modern electronic computing machine for high-speed computation, can be used for numerical computation and logic computation, and in addition, the Computer also has a memory function, and can be operated according to stored programs, and modern intelligent electronic equipment for automatically and high-speed processing mass data. Generally, a computer is composed of a hardware system and a software system. Software (Software) is a collection of computer data and instructions organized in a particular order.

In order to help human behavior activities, a common way at present is to establish a development mode taking software and a database system as a core based on a computer, and perform information interaction through man-machine interaction operation, so as to solve problems in a certain field or a certain type.

However, in the information interaction method provided in the prior art, the computer data computation mode which is mainly used for solving the problem of single event is often adopted, and the processing logic is simple and single, so that the marking operation of information interaction is complicated.

Disclosure of Invention

The embodiment of the invention provides an information interaction marking method, a storage medium and electronic equipment, which at least solve the technical problem of higher complexity of interactive marking operation caused by simpler and simpler processing logic in the marking process of related information interaction.

According to an aspect of an embodiment of the present invention, there is provided a method for marking information interaction, including: acquiring a first interactive operation on a first configuration interface; in response to the first interaction operation, automatically transmitting a file generated by an account which is configured to execute a first task and a second task to the account which executes the second task, wherein the first task is set to be executed by a first account, and the second task is set to be executed by a second account;

under the condition that the first account does not transmit files to the second account, displaying a first interaction result on a first display interface, wherein the first interaction result is used for indicating that information interaction does not occur between the first task and the second task; and displaying a second interaction result on the first display interface while the first account transmits the generated first file of the first version to the second account, wherein the second interaction result is used for indicating that information interaction has occurred between the first task and the second task.

According to another aspect of the embodiments of the present invention, there is also provided a computer-readable storage medium, where the computer-readable storage medium includes a stored program, and the program is executed to perform the above-mentioned information interaction marking method.

According to another aspect of the embodiments of the present invention, there is also provided an electronic device, including a memory and a processor, where the memory stores a computer program, and the processor is configured to execute the above-mentioned information interaction marking method through the computer program.

In the embodiment of the invention, after the first interaction operation is acquired on the first configuration interface, the first interaction operation is responded, and the relation between the first task and the second task is configured into a file generated by a first account for executing the first task and automatically transmitted to a second account for executing the second task. Under the condition that the first account does not transmit files to the second account, displaying a first interaction result on a first display interface, wherein the first interaction result is used for indicating that information interaction does not occur between the first task and the second task; and displaying a second interaction result on the first display interface while the first account transmits the generated first file of the first version to the second account. The second interaction result is used for indicating that the information interaction between the first task and the second task has occurred. That is, after the relationship between the first task and the second task is configured, the interaction result of whether information interaction occurs between the accounts is visually displayed on the display interface. The marking operation of information interaction is not completed through manual operation, so that the effect of simplifying the marking operation of information interaction is achieved. And further overcome the problem that the marking operation of the related information interaction is more complicated.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a flow diagram illustrating an alternative information-interactive tagging method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a file in an alternative information interaction tagging method according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an alternative method for tagging information interaction according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an alternative marking method of information interaction according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of yet another alternative information interaction tagging method according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of yet another alternative information interaction tagging method according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of yet another alternative information interaction tagging method according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of yet another alternative information interaction tagging method according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of yet another alternative information-interactive tagging interaction method, according to an embodiment of the present invention;

FIG. 10 is a diagram illustrating an alternative information interaction tagging method, according to an embodiment of the present invention.

Detailed Description

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

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

In the embodiment of the present application, the above marking method of information interaction may be applied to, but not limited to, an information management system. The related concepts in the information management system are as follows:

the method is a group concurrency information management system for establishing association relation between scattered data and data of computers, and is realized by a method for establishing inevitable mathematical relation of data association between computers through inevitable rules of occurrence of things in the objective world, cooperation between data and data, a link informatization management system between data sets, and large system engineering of computer heterogeneous distributed data sets of a data exchange digital system of data and data structuring.

The information management is a computer technology which is based on a database management system and assists a manager to improve decision level and operation strategy. The information processing specifically comprises a series of work of data acquisition, storage, processing, classification, sorting, retrieval, publishing and the like. Information processing has become a major task of contemporary computers. Is the basis of modern management. According to statistics, more than 80% of computers are mainly used for information management, and become the leading direction of computer application. Information management has been widely used in office automation, enterprise and public institution computer-aided management and decision making, information retrieval, library, movie and television animation design, accounting computerization and other industries.

A database is a "warehouse that organizes, stores, and manages data according to a data structure," which is an organized, shared, and uniformly managed collection of data that is stored in a computer for a long period of time. The database is a data set which is stored together in a certain mode, can be shared by a plurality of users, has the redundancy as small as possible, is independent from an application program, can be regarded as an electronic file cabinet, namely a place for storing electronic files, and can be used for adding, inquiring, updating, deleting and the like of data in the files.

The data exchange platform is an information exchange platform which is constructed by integrating a plurality of application information systems which are constructed in a scattered way and constructing through a computer network, and enables a plurality of application subsystems to transmit and share information/data so as to improve the utilization rate of information resources and become a basic target for information construction. Under the condition of ensuring interconnection and intercommunication among the distributed heterogeneous systems, the data can be extracted, concentrated, loaded and displayed by establishing a central database so as to construct uniform data processing and exchange.

Extensible markup language (XML for short) is a subset of standard universal markup languages, and is used for markup electronic documents to make them have a structural markup language.

In electronic computers, the above-mentioned markup refers to information symbols understood by the computer, which can be used to mark data, define data types, and be a source language that allows the user to define his own markup language. By means of the mark, computers can process and transmit various information, such as articles, etc. Moreover, the above-described tags are well suited for transmission over the world wide web, describing and exchanging structured data independent of the application or vendor by providing a unified approach, are a cross-platform, content-dependent technology in the Internet (Internet) environment, and are today's effective tool for processing distributed structural information. As early as 1998, the XML1.0 specification was published by W3C, which was used to simplify the transmission of Internet documents.

A functional module refers to a collection of program elements, such as data descriptions, executable statements, etc., that refer to individually named procedures, functions, subroutines, or macro-calls accessible by name. The function modularization is to divide the program into a plurality of function modules, each function module completes a sub-function, and then the function modules are combined into a whole to meet the required functions of the whole system.

And (4) central data exchange. Because the database is based on a database structure with a computer recognizable structured data as a core, the work is completed. That means that the different functions, the different required databases or the software generated database structures are all different. If the database or the software needs to work, the database or the software can work only by adopting a mode corresponding to the database structure used by the software. Therefore, different databases must realize complete data corresponding interconnection relation to realize work. The more functions the database is expected to perform means that the database boundaries need to be continually enlarged. In addition, by establishing the distributed data set, taking distributed data exchange as a starting point, the contradiction of central data exchange can be solved.

In the embodiment of the present application, in order to improve the efficiency of information interaction, a Locking database and a software mode (a Locking mode for short, which may also be referred to as a data exchange method of a heterogeneous distributed data aggregation system) may be used. The core problem solved by the Locking mode is as follows:

the exchange process of the database and the database established by taking software as a core enables the use and exchange of data to become a non-uniform multi-center mode. How to establish a set of group concurrent data logic to realize data uniformity and data exchange simplicity is the problem that the method is intended to solve.

The establishing principle of the Locking mode comprises the following steps:

1) establishing the mode to make the mode consistent with the operation mode of the real world and meet the general principle and standard mode of the inevitable law of object development;

2) establishing a time development-based process database;

3) establishing a database incidence relation and an operation relation based on the inevitable development rule of the objects summarized mathematically;

the method for establishing the Locking mode can be based on, but not limited to, the following theories:

1) the essence of database or document management is the application of mathematical collections.

The concept aggregated here: refers to a collection of concrete or abstract objects with specific properties. The objects that make up the set are referred to as elements in the set. Furthermore, the elements that make up the set are made up of combinations of subsets that are combined into different levels of the set.

2) The process of actual production of things and the tree structure of the decomposition method of a computer database collection.

A set is decomposed into subsets of different levels to express the hierarchical relationship of the set. The expression relationship of the set can be decomposed in a multi-level way through a tree structure, so that the description of the composition relationship of the elements of the whole set is completed. The decomposition method in this way is similar to a Work break down Structure (WBS), which forms an object tree Structure for the data set of the object.

The data set combination hierarchical relationship of a certain thing can be established through the WBS, but the WBS still cannot solve the problem when the hierarchical relationship in the established tree structure is utilized, so that the result is only used as the planning result.

A. The tree structure is a mathematical method for dividing the hierarchical structure. Between the work packages in the tree structure decomposition, at present, the complete connection relation is difficult to express or the exchange relation of the group cannot be expressed only through the tree structure, but the tree structure can solve the problems of work package order and encoding, so that all the encoding can be expressed according to the diagonal matrix mode. Here, the diagonal position in the diagonal matrix will be the position of the work package in the matrix, and the other "0" position in the diagonal matrix can be expressed as a12 and a21, thereby establishing the connection relationship of a1 and a 2. The expression of this matrix is very similar to the matrix relation table of the team games in the football game, and A12 and A21 represent the relation of the main guest field, and 0 is not expressed. Through the symmetric matrix, the element relation which can not be expressed by the WBS tree structure can be expressed clearly.

B. Each decomposition is a result of the delivery of the target, but in actual operation is experienced for the same delivery: delivering the target plan, executing the target process, obtaining the final target result, and is a dynamic process. And the decomposition expression of the WBS in a single dimension lacks a dynamically implementable mode. Then data should be able to be dynamically run, recorded and captured from stereo multidimensional considerations during computerized twinning. The tree-shaped delivery target result of WBS under the original unidirectional horizontal dimension is expressed into the description of a single delivery target result from multiple dimensions, so that data results under different states can be obtained. And expressing the result of the multi-dimensional description into a diagonal matrix to form a three-dimensional array so as to realize the description of the relationship between elements under the multi-dimensional condition.

And performing multi-dimensional decomposition on the object to obtain unit elements of different levels, performing data collection to realize the association relationship of the unit elements, and finishing the data exchange relationship in the data collection. The process may include:

building heterogeneous distributed data set system

All things in the world have respective operation modes and have necessary association relationship with each other. Things can be from global to local, from global to individual. The distributed data set acquisition method is an expression method for carrying out necessary scientific decomposition and classification on all things and establishing an incidence relation on the decomposed things of different levels. This is necessarily a summary of the laws of operation of things objectively, and not a new approach. The method can be used for expressing object states, incidence relations, time relations and the like in different dimensions in a multi-dimensional way through a mathematical form. By decomposing objects in the universe from large to small and establishing an integral three-dimensional hierarchical relationship, association between sets and time relationship are realized according to the set relationship after decomposition, and a twin relationship between the real world and virtual data is realized by computer data exchange expression of the time relationship.

The above-mentioned multiple dimensions may include:

1. first dimension decomposition: the full life cycle of things is structurally decomposed according to different tenses (the decomposition stages of the life cycle of different things are different in name but are from generation to extinction in nature. For example:

(1) plan-design-production-operation-extinction

(2) Pregnancy-birth-juvenile-youth-strong-old-death

2. And (3) second dimension decomposition: the physical composition of the object is decomposed and classified, and the content precision and complexity of the composition are increased under the tense with different first dimensions, so that the decomposition template and the classification template are called.

The decomposition and classification of things from the physical layer can be based on the following theory:

1) representing element relations of different levels after physical layer decomposition by using a tree structure;

creating WBSs based on a tree structure is a process that breaks down project work into smaller, more manageable components by stepwise deliverables. WBS, however, does not have a uniform decomposition criterion for the content decomposition of work tasks to meet the situation of things development, resulting in a way that an individual exists by itself according to each WBS decomposition.

2) The incidence relations between different elements are represented by a matrix structure (incidence relations that may span different levels;

for example, it can be understood that the football game team is a battle table, the decomposed unit elements are used as a team, the main court data represents the association with others, and the guest court data represents the association with others).

3) And expressing the incidence relation of the element exchange relation generating time dimension by using a topological structure.

For example, it can be understood that the authentication time relationship, such as contract signing,DocumentReceiving and generating the result of association at the time point of certificate issuance, prize winning, etc.

3. And (3) decomposing in a third dimension:

the decomposition is carried out based on the attribute dimensions of things and the entity of the things decomposition element, and each element can be distinguished from other things elements only by the attribute characteristics of the element. The expression of the attribute hierarchy the hierarchical structure of the breakdown classification is divided into common attributes and unique attributes.

Wherein, the common attribute can be decomposed into:

layer 0 is a planning layer (or a contract layer, a contract layer: a hierarchy for expressing the attributes of the evaluation entity, wherein the total number of the attribute hierarchies is 4),

layer 1 is a solid layer and is a hierarchical structure of constituent elements of the solid in different tenses;

the 2 layer is a time layer and is the time of the generation stage of the expression entity, and the layer is also used as a single element generation point of the topological relation, similar to the single-person accounting principle of mahjong playing;

the 3 layers are quality layers and are used for evaluating the appointed content. Also known as proofreading, auditing, approval, etc.;

the 4 layers are value layers and are value evaluations such as price and index generated by the entity layer.

The four layers are shared attribute layers, and the interior of each layer needs to be decomposed according to the layers.

In addition, others may be considered as unique attributes:

for example, the N +1 level and other added levels are non-fixed attribute levels. Attribute hierarchy decomposed according to the development characteristics of different things.

4. A decomposition step: a classification method of elements is adopted.

It should be noted that the first dimension and the second dimension are dimensional relationships of entity development changes in laterally different tenses. Each element can be expressed as a plane dimension relation constructed by an X \ Y axis by utilizing a tree structure and a matrix. The topology may then express a four-dimensional relationship of exchange time and exchange frequency between elements. And the third dimension is to express the attribute relation of each element in the Z axis. Together they form a four-dimensional relationship in the decomposition of things and express an aggregate set of associations of each element to the element.

(II) acquiring the hierarchical relation of the object decomposition structure

1. Starting from the whole of something, anything is a component of something else, and then as a real object means an element that can be decomposed indefinitely into the smallest units. Any element is a constituent element of the last unit.

2. According to the decomposition principle and mathematical expression, the hierarchical structure of each decomposition can be determined to which level the decomposition is not used as the unit node of the work. The principle of the set of unit elements under the unit of work node is an executable unit. The executable unit is a work node decomposed in a layer and used as an integral element set under a work node, and a node function module which works in a cross unit is not needed to be used as an executed node unit element set.

A first dimension: temporal decomposition, the process from production to extinction of an item is used as a decomposition process. The node change process from decomposition level to executable unit may be: when a node with a coarser overall granularity is decomposed to a next node, if an actual multi-node element appears in a next level, the node needs to be decomposed into a temporal node.

The second dimension is as follows: the physical layer decomposition is that the granularity and the fineness of describing the physical body under different time states are gradually increased and complicated. And the entity executable unit under each stage is used as an element rendezvous point according to the integrity of the work content under the work. Without any further work being decomposed.

The third dimension: the attribute level of each element results consistently within the common attribute, but the requirements are different, which results in the need to decompose the executable unit within the attribute level.

(III) determining data exchange within a data set

An overall set of things is established, and associations between elements are decomposed by establishing a matrix.

1. And establishing the exchange relationship between the executable unit and the executable unit.

The executable unit means that a set can be used as a set of independent units as a set of working data after being decomposed to a certain working point position and is not decomposed any more, and the set is called as an executable unit. As a decomposition node of a job, the content of the job necessarily requires other nodes to establish an association relationship with the decomposition node, so that the job can be performed and completed. The implementation mode is that executable units are built in a tree structure as working element sets under the hierarchy. The executable unit establishes input and output relationships in the matrix that need to be exchanged with other executable units. The principle of establishing the exchange is based on an exchange relationship configured for the executable unit in advance.

The hierarchy broken down into executable units is treated as each point of operation. The integrated decomposed tree structure and matrix structure are the working templates of something.

2. And establishing an exchange relationship between the element set under the executable unit and the elements in the element set.

After the executable unit establishes a swap relationship with other executable units. The set of work elements under each work node is exchanged with the set of work elements under other executable units. Expressed as an in-to-out relationship within the matrix. When data exchange is carried out between one point bit and a plurality of point bits, the element exchange is also carried out. The actual work is the element set of the executable unit, and as the storage standard of the executable unit of the work, other people can extract necessary work elements required by the other people at the point of the executable unit of the work. By analogy, data exchange among a plurality of jobs is stored by the job to extract the work elements of others.

The storage criteria within the working set of elements of an executable unit is referred to as a boilerplate of executable elements.

Each of the four components or executable units of the heterogeneous distributed data aggregation system includes the following elements:

1. storage and exchange of distributed data sets;

2. storage criteria for executable units;

3. software functions of the executable unit;

4. data exchange of the executable units;

5. the hardware functions of the unit may be performed.

According to an aspect of the embodiment of the present invention, an information interaction marking method is provided, and optionally, as an optional implementation manner, as shown in fig. 1, the information interaction marking method may include:

s102, acquiring a first interactive operation on a first configuration interface;

s104, responding to the first interactive operation, automatically transmitting a file generated by an account for executing the first task and configured by the relationship between the first task and the second task to an account for executing the second task, wherein the first task is set to be executed by the first account, and the second task is set to be executed by the second account;

s106, under the condition that the first account does not transmit files to the second account, displaying a first interaction result on a first display interface, wherein the first interaction result is used for indicating that information interaction does not occur between the first task and the second task;

and S108, when the first account transmits the generated first file of the first version to the second account, displaying a second interaction result on the first display interface, wherein the second interaction result is used for indicating that the information interaction between the first task and the second task occurs.

Optionally, in this embodiment, the information interaction tagging method may be applied to, but not limited to, an information interaction tagging system, where the information interaction tagging system includes a terminal device and a server running an information interaction application client. Here, the terminal device may be a terminal device configured with a target client, and may include but is not limited to at least one of the following: mobile phones (such as Android phones, iOS phones, etc.), notebook computers, tablet computers (PAD), palm computers, Mobile Internet Devices (MID for short), desktop computers, smart televisions, and the like. The target client may be a video client, an instant messaging client, a browser client, an educational client, etc. The server may be a single server, a server cluster composed of a plurality of servers, or a cloud server. The terminal device and the server may communicate data through, but not limited to, the following networks: a wired network, a wireless network, wherein the wired network comprises: a local area network, a metropolitan area network, and a wide area network, the wireless network comprising: bluetooth, WIFI, and other networks that enable wireless communication. In addition, the information interaction application can be used for completing a data file interaction process among executable units after a thing is decomposed. The application client logged in by each information interaction application account is used as a point for completing a work task corresponding to one executable unit. Here, the information interaction application accounts may be, but not limited to, pre-configured with an interaction relationship (or exchange relationship) for accomplishing the above. The above is merely an example, and this is not limited in this embodiment.

It should be noted that, in this embodiment, after the first interaction operation is acquired on the first configuration interface, in response to the first interaction operation, the file generated by the first account configured to execute the first task and configured to configure the relationship between the first task and the second task is automatically transmitted to the second account configured to execute the second task. Under the condition that the first account does not transmit files to the second account, displaying a first interaction result on a first display interface, wherein the first interaction result is used for indicating that information interaction does not occur between the first task and the second task; and displaying a second interaction result on the first display interface while the first account transmits the generated first file of the first version to the second account. The second interaction result is used for indicating that the information interaction between the first task and the second task has occurred. That is, after the relationship between the first task and the second task is configured, the interaction result of whether information interaction occurs between the accounts is visually displayed on the display interface. The marking operation of information interaction is not completed through manual operation, so that the effect of simplifying the marking operation of information interaction is achieved.

Optionally, in this embodiment, the display interface may be, but is not limited to, a human-computer interaction interface, which is a channel for information exchange between a human and a computer, where a user inputs information to the computer through the display interface and performs an operation, and the computer provides information to the user through the interaction interface for reading, analyzing, and determining.

Optionally, in this embodiment, the file may be, but is not limited to, a database file, and one of the expressions may be a form on a page. For example, as shown in fig. 2, the first file may be a form file, and the data items included in the first file may be, but are not limited to, form items in the form file. Padding as shown in fig. 2: name, cell phone, place of work, etc. Here, the examples are merely examples, and the embodiments of the present application are not limited thereto.

It should be noted that, in this embodiment, the different files may be, but are not limited to, pending files in different tasks of a product or project, where the product or project may be, but is not limited to, a series of associated activities, and the activities are to be completed according to specifications within a specific time, budget, and resource limit range in order to achieve a specific purpose. In the present embodiment, the above-mentioned product or item may correspond to, but is not limited to, a thing, and each function after the thing is decomposed corresponds to each task in the present embodiment.

Alternatively, the task may be, but is not limited to, indicating the work, duties, responsibilities being assigned. In this embodiment, the task may be, but is not limited to, a work task assigned in an information interaction process, where the work task may be, but is not limited to, an editing operation task performed on a file by an account through an interaction interface.

In addition, the above account number may refer to, but is not limited to, a record kept in the network and the multi-user operating system for recording the behavior of the authorized user. In this embodiment, the account may be, but is not limited to, an identity used for logging in the interactive interface provided in this embodiment. After logging in by using the account, the record corresponding to the account is read, and the content in the record, such as the task to be processed by the account and the related file, is displayed in the interactive interface.

It should be noted that, in this embodiment, the data interaction process implemented based on the above-mentioned interaction interface is to implement file transfer interaction between different accounts so as to achieve the purpose of interacting data recorded in a file.

Optionally, in this embodiment, the configuration interface may be, but is not limited to, display configuration items associated with an information interaction process, where the configuration items may include, but are not limited to: configuring the name of a task, and configuring the relationship (such as interaction relationship) between two tasks. Assume that an icon 01 of a first task and an icon 02 of a second task are displayed on the configuration interface. Further, two icons of the task 01 and the task 02 can be connected to the configuration interface so as to establish an interactive relationship between the two icons. In addition, arrows may be added to the connecting lines to indicate the transmission direction of information interaction. Here, this is an example, and this is not limited in this embodiment.

Optionally, in this embodiment, the relationship between the first task and the second task may be, but is not limited to, an interactive relationship is preconfigured between the first account and the second account. The interaction relationship is determined according to the attribute characteristics of the executable unit after the transaction is decomposed. For example, as shown in FIG. 3, an item A is broken down into three executable units, 01, 02 and 03, where 01 is again broken down into 0101 and 0102 and 02 is again broken down into 0201 and 0202, where 0201 includes 020101 and 03 includes 0301. And further configuring an interactive relation for the decomposed executable units. As shown in the matrix of fig. 4(b), assuming that the interaction relationship is configured for a part of executable units in fig. 3, the arrows in the topology shown in fig. 4(a) will indicate the information transfer direction (i.e. interaction relationship) in item a, 0101 transfers information to 01, 01 transfers information to 02, and 02 transfers information to 03. Further, a matrix for visually displaying the above-mentioned interaction relationship may also be constructed, where each executable unit is configured on an object line of the matrix as shown in fig. 4(b), and the interaction relationship is indicated by an arrow.

Further, in the present embodiment, the interaction relationship between the tasks may be represented by, but not limited to, a topological structure. For example, as shown in fig. 5, if the task corresponding to the first account is 02, the task corresponding to the second account is 03, and here, the first account has not yet transferred a file to the second account, the first interaction result may be displayed in a display interface, and in the topology structure shown in fig. 6, a connecting line between the task 02 and the task 03 is represented by a dotted line. If the task corresponding to the first account is 0101 and the task corresponding to the second account is 01, where the first account has already transmitted the first file of the first version to the second account synchronously, the second interaction result may be displayed in the display interface, and as shown in the topology structure shown in fig. 5, a connection line between the task 0101 and the task 01 is represented by a solid line.

Specifically, the embodiment is implemented by combining the configured interaction relationship, and it is assumed that a first interaction interface used by the first account corresponds to the executable unit 01 shown in fig. 4, and a second interaction interface used by the second account corresponds to the executable unit 02 shown in fig. 4. Furthermore, as shown in fig. 6, a collaboration space in the information interaction system logged by the first account is displayed, in which a currently running project a and member icons or member identifiers of a plurality of members participating in the project a are displayed.

In the information interaction process, a first file identifier (e.g., "file 1" shown in fig. 6 (a)) of a first file is displayed on a first interaction interface used by a first account (e.g., account ID-1). Then, when the first file of the first version on the first interactive interface is edited into the first file of the second version (as shown in the figure, "c" represents the second version), according to the configured interaction relationship, the first file of the second version is set as the second interactive interface which allows synchronous transmission to the second account for use. Therefore, after the first account edits the first file of the first version to obtain the first file of the second version, the first file of the second version is automatically transmitted to the second account (for example, account ID-2) and displayed in the second interactive interface. As shown in fig. 6(b), a first file identifier "file 1" (shown as "c" indicates a second version) is displayed on the second interactive interface, and when it is detected that a click review operation is performed on the first file identifier, "file 1" (shown as "c" indicates a second version), the opening of the updated first file of the second version is triggered.

After the synchronous transmission process is completed, the connecting line in the topological structure corresponding to the task relationship is adjusted from a dotted line to a solid line.

It should be noted that, in the embodiment of the present application, synchronous transmission of the first file is implemented through the first interactive interface and the second interactive interface, so as to achieve the purpose of timely and efficiently transmitting data in the file. That is, in the present implementation, attention is paid to the safe, reliable and efficient storage and interaction of files and data therein by means of computer software technology, without any limitation on the calculation process of the data itself. I.e. a computer software implemented data manipulation process, may be, but is not limited to being, decoupled from the data storage and interaction processes provided in the embodiments of the present application. For example, after the data is interacted and stored, the operation process of the data can be further completed by means of a third-party tool without limitation.

According to the embodiment provided by the application, after the relationship between the first task and the second task is configured, the interaction result of whether information interaction occurs between the accounts is displayed intuitively on the display interface. The marking operation of information interaction is not completed through manual operation, so that the effect of simplifying the marking operation of information interaction is achieved.

As an alternative, displaying the second interaction result on the first display interface includes: and displaying first result information on the first display interface, wherein the second interaction result comprises the first result information, the first result information is used for indicating that the first task and the second task have information interaction, and the information interaction direction is that the first task carries out information interaction to the second task.

The description will be made with reference to fig. 7: when the result information of the second interaction result is displayed, the result information may include, but is not limited to, progress indication information of the interaction that has occurred, and direction information of the information interaction direction. Assuming that the first task is identified by 01 and the second task is identified by 02 as shown in fig. 7, when information interaction has not occurred between the first task and the second task, a first interaction result as shown in fig. 7(a) is displayed, and a dotted line indicates that information interaction has not occurred. In the case that the information interaction has occurred between the first task and the second task, the solid line indicates that the data interaction has occurred, and the information interaction direction during the interaction is as shown in fig. 7(b), and task 01 is pointed to by task 02.

As an alternative, displaying the second interaction result on the first display interface includes: and displaying second result information on the first display interface, wherein the second interaction result comprises second result information, the second result information is used for indicating that the first task carries out information interaction to the second task at a first moment, and the first moment is the moment when the first account transmits the first file of the first version to the second account.

Specifically, the description will be made with reference to fig. 8: when the result information of the second interaction result is displayed, the result information may include, but is not limited to, progress indication information that interaction has occurred, direction information of the information interaction direction, and the interaction time. Assuming that a first task is identified by 01 and a second task is identified by 02 as shown in fig. 8, in the case that information interaction has occurred between the first task and the second task, a solid line is used to indicate that the information interaction has occurred, the information interaction direction during the interaction is indicated by the task 02 to the task 01 as shown in fig. 8, and the interaction time T1 is identified on the connecting line.

As an alternative, displaying the second interaction result on the first display interface includes: and displaying third result information on the first display interface, wherein the second interaction result comprises the third result information, the third result information is used for indicating that the first task carries out information interaction to the second task at the first moment, the interacted file is the first file of the first version, and the first moment is the moment when the first account number transmits the first file of the first version to the second account number.

Specifically, the description will be made with reference to fig. 9: when the result information of the second interaction result is displayed, the result information may include, but is not limited to, progress indication information that interaction has occurred, direction information of information interaction direction, interaction time, and file and version information of the interaction. Assuming that a first task is identified by 01 and a second task is identified by 02 as shown in fig. 9, in the case that information interaction has occurred between the first task and the second task, a solid line is used to indicate that the information interaction has occurred, the information interaction direction during the interaction is indicated by the task 02 to the task 01 as shown in fig. 9, and the interaction time T1 is identified on the connecting line. In addition, the data of the display interaction is the first version of the first file F1-V1.0.

It should be noted that, in the present embodiment, in the process of displaying the interaction result through the topology structure in the display interface, the direction of information interaction may be indicated through the connected arrow, and the interaction time and the interaction file of information interaction may also be indicated together by combining the connected arrow and continuous virtual and real information. For example, after a first version of a first file is generated by executing a task for the first time, the time when the first version of the first file is transmitted to a second account, such as the first time, may be visually displayed through the display interface.

According to the embodiment provided by the application, the information interaction direction, time and file are indicated through the interaction result displayed on the display interface. Therefore, background configuration personnel can visually observe the actual process of information interaction, and the information interaction system can be conveniently maintained and adjusted in real time.

As an optional solution, the method further includes: and displaying fourth result information on the first display interface while the first account transmits the first file of the second version to the second account, wherein the fourth result information is used for indicating that the first task carries out information interaction to the second task at the second moment, and the second moment is the moment when the first account transmits the first file of the second version to the second account.

As an optional solution, the method further includes: and displaying fifth result information on the first display interface while the first account transmits the first file of the second version to the second account, wherein the fifth result information is used for indicating that the first task performs information interaction to the second task at the second moment, the interacted file is the first file of the second version, and the second moment is the moment when the first account transmits the first file of the second version to the second account.

It should be noted that, in the present embodiment, in the process of displaying the interaction result through the topology structure in the display interface, the direction of information interaction may be indicated through the connected arrow, and the interaction time and the interaction file of information interaction may also be indicated together by combining the connected arrow and continuous virtual and real information. For example, after a task is not first executed to generate a file (e.g., a first file of a first version is updated to obtain a first file of a second version), a time when the first file of the second version is transmitted to a second account, such as a second time, may be visually displayed through the display interface.

According to the embodiment provided by the application, the information interaction direction, time and file are indicated through the interaction result displayed on the display interface. Therefore, background configuration personnel can visually observe the actual process of information interaction, and the information interaction system can be conveniently maintained and adjusted in real time.

As an optional solution, the method further includes:

s1, acquiring a second interactive operation on the first configuration interface;

s2, responding to the second interaction operation, configuring the relationship between the first task and the third task as a file generated by the account executing the third task, and automatically transmitting the file to the account executing the first task, wherein the third task is set to be executed by the third account;

s3, displaying a third interaction result on the first display interface under the condition that the third account does not transmit files to the first account, wherein the third interaction result is used for indicating that information interaction does not occur between the third task and the first task;

and S4, displaying a fourth interaction result on the first display interface while the third account transmits the generated first version of the second file to the first account, wherein the fourth interaction result is used for indicating that information interaction has occurred between the third task and the first task.

Optionally, in this embodiment, the third account executing the third task may be, but is not limited to, an account having an interactive relationship with the first account, except for the second account, and is used to automatically transmit a file generated by the third account to the account executing the first task through a third interactive interface.

That is, in the configuration interface, the interaction relationship between the first task to be executed and the third task may be configured in advance, but not limited to, so that the file generated by the first account executing the first task may be automatically transmitted from the third account to the first account according to the configured interaction relationship. The first task and the third task may be, but are not limited to, work tasks obtained by decomposing from the same project work. In other words, in the present embodiment, the work task associated with the first task may include, but is not limited to, the second task and/or the third task, and may also include other more tasks.

For a specific configuration example, reference may be made to the configuration process of the relationship between the first task and the second task, which is not described herein again in this embodiment.

Through the embodiment provided by the application, the first account can also synchronously display the file synchronously transmitted by other accounts (such as the third account), and the file is not required to be transmitted after the third account finishes the editing process of the file. And displaying an interaction result that the third account transmits the generated second file of the first version to the first account on a display interface, so that the effect of simplifying the marking operation of information interaction is realized, and the aim of improving the marking efficiency of information interaction is fulfilled.

As an optional scheme, displaying the fourth interaction result on the first display interface includes:

1) displaying sixth result information on the first display interface, wherein the fourth interaction result comprises sixth result information, the sixth result information is used for indicating that information interaction has occurred between the third task and the first task, and the information interaction direction is from the third task to the first task; or

2) Displaying seventh result information on the first display interface, wherein the fourth interaction result includes seventh result information, the seventh result information is used for indicating that a third task carries out information interaction to the first task at a third moment, and the third moment is a moment when the third account transmits the second file of the first version to the first account; or

3) And displaying eighth result information on the first display interface, wherein the fourth interaction result includes eighth result information, the eighth result information is used for indicating that the third task performs information interaction to the first task at a third moment, the interacted file is the second file of the first version, and the third moment is the moment when the third account transmits the second file of the first version to the first account.

It should be noted that, in the present embodiment, in the process of displaying the interaction result through the topology structure in the display interface, the direction of information interaction may be indicated through the connected arrow, and the interaction time and the interaction file of information interaction may also be indicated together by combining the connected arrow and continuous virtual and real information. For example, after the first-version second file is generated by executing the task for the first time, the third account may visually display, through the display interface, a time at which the first-version second file is transmitted to the first account, such as a third time.

For a specific configuration example, reference may be made to the configuration process of the relationship between the first task and the second task, which is not described herein again in this embodiment.

According to the embodiment provided by the application, the information interaction direction, time and file are indicated through the interaction result displayed on the display interface. Therefore, background configuration personnel can visually observe the actual process of information interaction, and the information interaction system can be conveniently maintained and adjusted in real time.

As an optional solution, the method further comprises:

1) displaying ninth result information on the first display interface while the third account transmits the second file of the second version to the first account, wherein the ninth result information is used for indicating that information interaction is performed on the first task by the third task at a fourth moment, and the fourth moment is the moment when the third account transmits the second file of the second version to the first account; or

2) And displaying tenth result information on the first display interface while the third account transmits the second file of the second version to the first account, wherein the tenth result information is used for indicating that the third task performs information interaction to the first task at a fourth moment, the interacted file is the second file of the second version, and the fourth moment is the moment when the third account transmits the second file of the second version to the first account.

It should be noted that, in the present embodiment, in the process of displaying the interaction result through the topology structure in the display interface, the direction of information interaction may be indicated through the connected arrow, and the interaction time and the interaction file of information interaction may also be indicated together by combining the connected arrow and continuous virtual and real information. For example, after a file (e.g., a second file of a second version) is generated by performing a task for a non-first time, the third account may visually display, through the display interface, a time at which the second file of the second version is transmitted to the first account, e.g., a fourth time.

According to the embodiment provided by the application, the information interaction direction, time and file are indicated through the interaction result displayed on the display interface. Therefore, background configuration personnel can visually observe the actual process of information interaction, and the information interaction system can be conveniently maintained and adjusted in real time.

As an alternative, it is characterized in that,

displaying a first interaction result on a first display interface, comprising: displaying a topological structure on a first display interface, wherein topological nodes in the topological structure comprise a first node and a second node, the first node is used for representing a first task, the second node is used for representing a second task, a first connecting line in a first format is displayed between the first node and the second node, the first connecting line points to the second node from the first node, and the first connecting line is used for representing that information interaction does not occur between the first task and the second task;

the method includes the steps that when the first account transmits the generated first file of the first version to the second account, a second interaction result is displayed on a first display interface, and the method includes the following steps: and when the first account transmits the first file of the first version to the second account, replacing the first connecting line displayed between the first node and the second node on the first display interface with a second connecting line of a second format, wherein the second connecting line points to the second node from the first node, and the second connecting line is used for indicating that the first task and the second task have information interaction.

It should be noted that the first format may be, but is not limited to, a dashed format, and the second format may be, but is not limited to, a solid format. That is, when the first task and the second task perform information interaction, the connection line between the first node corresponding to the first task and the second node corresponding to the second task is adjusted from the first format to the second format.

For example, as shown in fig. 5, assuming that a first task corresponds to a first node 01 and a second task corresponds to a second node 02, a connection line between the first node and the second node may be adjusted from a dotted line to a solid line.

By the embodiment provided by the application, the interaction result of whether information interaction occurs between the accounts can be displayed through the form of the connection line in the topological structure. Therefore, the purpose of visually and visually displaying the interaction result is achieved.

As an optional scheme, after the second interaction result is displayed on the first display interface, the method further includes: and when the relation between the first task and the second task is deleted, displaying a fifth interaction result on the first display interface, wherein the fifth interaction result is used for indicating that no information interaction relation exists between the first task and the second task.

For example, as shown in fig. 10, assume that the first task is identified with 01 and the second task is identified with 02. When the interaction relationship between the first task 01 and the second task 02 is deleted, in the interaction result to be displayed in the topology structure, no connecting line exists between the first task 01 and the second task 02, so as to indicate that no data interaction relationship exists between the two tasks.

Optionally, in this embodiment, after deleting the configured relationship between the first task and the second task, the following situations may be included, but not limited to:

1) and automatically deleting the file identification of the file synchronously transmitted by the first account displayed on the second interactive interface. That is to say, the file identifier of the file generated by the task with the deleted interactive relationship is no longer displayed in the second interactive interface, so that the second account does not repeatedly request to open the file with the deleted relationship.

2) And setting the first target file identifier of the file which is transmitted to the second account by the first account and is not synchronized from the second interactive interface by the second account as a first target file which cannot be opened. That is to say, when the interactive relationship is deleted and the file generated in the task and transmitted to the second account by the first account is not opened synchronously, the file identifier of the file may be continuously displayed in the second interactive interface, but the file identifier of the file is adjusted to be unable to trigger the opening of the file. In other words, in the present embodiment, the file identifier of the file generated by the task of deleting the interaction relationship may continue to be displayed in the second interactive interface, but the file identifier will lose the function of triggering the opening of the file.

3) And setting a second target file identifier of the file which is transmitted to the second account by the first account and is synchronized by the second account as a corresponding second target file which cannot be opened, and deleting the displayed second target file identifier from the second interactive interface.

As an optional implementation manner, when the interactive relationship is deleted and a file generated in a task and transmitted to the second account by the first account is already synchronously opened, the file identifier of the file may be continuously displayed in the second interactive interface, but the file identifier of the file is adjusted to be unable to trigger the opening of the file; but after the file identifier of the file is displayed for a period of time, deleting the file identifier from the second interactive interface, so that the file generated by the task with the deleted interactive relationship can not be opened any more. In other words, the file identifier of the file generated by the task of deleting the interactive relationship may continue to be displayed in the second interactive interface, but the file identifier will lose the function of triggering the opening of the file, and then delete the file identifier with the lost function. Further, in order to reopen the file, the file may be opened by accessing a specified path, but not limited thereto. The designated path may be, but is not limited to, a synchronization path for synchronizing the files or a backup storage path for the files.

As another optional implementation manner, in the case that the interaction relationship is deleted and the file generated in the task and transmitted to the second account by the first account is already synchronously opened, the file identifier of the file may be continuously displayed in the second interaction interface, and the file identifier of the file may still continuously trigger the opening of the file.

By the embodiment provided by the application, after the deletion of the relation between the first task and the second task is completed, the display state of the file identifier can be adjusted, so that the effect of flexibly controlling different display forms of the file is realized.

As an optional scheme, after the second interaction result is displayed on the first display interface, the method further includes: and under the condition that the first file is the only file transmitted to the second account by the first account, when the first file is set to not allow synchronous transmission to the second account, displaying a first interaction result on the first display interface.

Optionally, in this embodiment, each account in the information interaction application completes an information interaction process in each interaction interface according to an interaction relationship configured for each executable unit after the transaction is decomposed. That is, in this embodiment, it may be preconfigured whether to automatically synchronize transmission rights to other accounts other than the first account.

According to the embodiment provided by the application, under the condition that the first file is set to not allow synchronous transmission to the second account, the display state of the file is controlled by directly configuring the synchronous transmission permission of the file, and the flexibility of information interaction can be improved.

According to another aspect of the embodiment of the present invention, there is also provided an electronic device for implementing the information interaction method, where the electronic device may be a terminal device or a server. The present embodiment takes the electronic device as a terminal device as an example for explanation. The electronic device comprises a memory having a computer program stored therein and a processor arranged to perform the steps of any of the above method embodiments by means of the computer program.

Optionally, in this embodiment, the electronic device may be located in at least one network device of a plurality of network devices of a computer network.

Optionally, in this embodiment, the processor may be configured to execute the following steps by a computer program:

s1, acquiring a first interactive operation on the first configuration interface;

s2, responding to the first interaction operation, automatically transmitting a file generated by an account which configures the relationship between the first task and the second task to execute the first task to an account which executes the second task, wherein the first task is set to be executed by the first account, and the second task is set to be executed by the second account;

s3, displaying a first interaction result on a first display interface under the condition that the first account does not transmit files to the second account, wherein the first interaction result is used for indicating that information interaction does not occur between the first task and the second task;

and S4, displaying a second interaction result on the first display interface while the first account transmits the generated first file of the first version to the second account, wherein the second interaction result is used for indicating that information interaction has occurred between the first task and the second task.

Alternatively, in this embodiment, a person skilled in the art may understand that all or part of the steps in the methods of the foregoing embodiments may be implemented by a program instructing hardware associated with the terminal device, where the program may be stored in a computer-readable storage medium, and the storage medium may include: flash disks, Read-Only memories (ROMs), Random Access Memories (RAMs), magnetic or optical disks, and the like.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

The integrated unit in the above embodiments, if implemented in the form of a software functional unit and sold or used as a separate product, may be stored in the above computer-readable storage medium. Based on such understanding, the technical solution of the present invention may be substantially or partially implemented in the prior art, or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium, and including instructions for causing one or more computer devices (which may be personal computers, servers, or network devices) to execute all or part of the steps of the method according to the embodiments of the present invention.

In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

In the several embodiments provided in the present application, it should be understood that the disclosed client may be implemented in other manners. The above-described embodiments of the apparatus are merely illustrative, and for example, a division of a unit is merely a division of a logic function, and an actual implementation may have another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of 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.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that it is obvious to those skilled in the art that various modifications and improvements can be made without departing from the principle of the present invention, and these modifications and improvements should also be considered as the protection scope of the present invention.

Claims (14)

1. A marking method for information interaction is characterized by comprising the following steps:

acquiring a first interactive operation on a first configuration interface;

in response to the first interaction operation, automatically transmitting a file generated by an account which is configured to execute a first task and a second task to the account which executes the second task, wherein the first task is set to be executed by a first account, and the second task is set to be executed by a second account;

under the condition that the first account does not transmit files to the second account, displaying a first interaction result on a first display interface, wherein the first interaction result is used for indicating that information interaction does not occur between the first task and the second task;

and displaying a second interaction result on the first display interface while the first account transmits the generated first file of the first version to the second account, wherein the second interaction result is used for indicating that information interaction has occurred between the first task and the second task.

2. The method of claim 1, wherein displaying the second interaction result on the first display interface comprises:

and displaying first result information on the first display interface, wherein the second interaction result comprises the first result information, the first result information is used for indicating that information interaction has occurred between the first task and the second task, and the direction of the information interaction is that the first task carries out the information interaction to the second task.

3. The method of claim 1, wherein displaying the second interaction result on the first display interface comprises:

and displaying second result information on the first display interface, wherein the second interaction result comprises the second result information, the second result information is used for indicating that the first task carries out information interaction to the second task at a first moment, and the first moment is the moment when the first account transmits the first file of the first version to the second account.

4. The method of claim 1, wherein displaying the second interaction result on the first display interface comprises:

and displaying third result information on the first display interface, wherein the second interaction result includes the third result information, the third result information is used for indicating that the first task performs information interaction to the second task at a first moment, an interacted file is a first file of the first version, and the first moment is a moment when the first account transmits the first file of the first version to the second account.

5. The method of claim 3, further comprising:

and displaying fourth result information on the first display interface while the first account transmits a second version of the first file to the second account, wherein the fourth result information is used for indicating that the first task performs information interaction to the second task at a second moment, and the second moment is the moment when the first account transmits the second version of the first file to the second account.

6. The method of claim 4, further comprising:

and displaying fifth result information on the first display interface while the first account transmits a second version of the first file to the second account, wherein the fifth result information is used for indicating that the first task performs information interaction to the second task at a second moment, the interacted file is the second version of the first file, and the second moment is the moment when the first account transmits the second version of the first file to the second account.

7. The method of claim 1, further comprising:

acquiring a second interactive operation on the first configuration interface;

in response to the second interaction operation, automatically transmitting a file generated by the account which is configured to execute the third task and generated by the relationship between the first task and the third task to the account which executes the first task, wherein the third task is set to be executed by the third account;

under the condition that the third account does not transmit files to the first account, displaying a third interaction result on the first display interface, wherein the third interaction result is used for indicating that information interaction does not occur between the third task and the first task;

and displaying a fourth interaction result on the first display interface while the third account transmits the generated first-version second file to the first account, wherein the fourth interaction result is used for indicating that information interaction has occurred between the third task and the first task.

8. The method of claim 7, wherein displaying the fourth interaction result on the first display interface comprises:

displaying sixth result information on the first display interface, wherein the fourth interaction result includes the sixth result information, and the sixth result information is used for indicating that information interaction has occurred between the third task and the first task, and the direction of the information interaction is from the third task to the first task; or

Displaying seventh result information on the first display interface, wherein the fourth interaction result includes the seventh result information, the seventh result information is used for indicating that the third task performs information interaction to the first task at a third time, and the third time is a time when the third account transmits the first version of the second file to the first account; or

And displaying eighth result information on the first display interface, wherein the fourth interaction result includes the eighth result information, the eighth result information is used for indicating that the third task performs information interaction to the first task at a third time, an interacted file is the second file of the first version, and the third time is a time when the third account transmits the second file of the first version to the first account.

9. The method of claim 8, further comprising:

displaying ninth result information on the first display interface while the third account transmits a second version of a second file to the first account, wherein the ninth result information is used for indicating that information interaction is performed on the first task by the third task at a fourth moment, and the fourth moment is a moment when the third account transmits the second version of the second file to the first account; or

And displaying tenth result information on the first display interface while the third account transmits a second version of a second file to the first account, wherein the tenth result information is used for indicating that the third task performs information interaction to the first task at a fourth moment, the interacted file is the second version of the second file, and the fourth moment is a moment when the third account transmits the second version of the second file to the first account.

10. The method according to any one of claims 1 to 9,

the displaying a first interaction result on a first display interface comprises: displaying a topological structure on the first display interface, wherein topological nodes in the topological structure comprise a first node and a second node, the first node is used for representing the first task, the second node is used for representing the second task, a first connection line in a first format is displayed between the first node and the second node, the first connection line points to the second node from the first node, and the first connection line is used for representing that information interaction does not occur between the first task and the second task;

the displaying a second interaction result on the first display interface while the first account transmits the generated first file of the first version to the second account includes: and replacing the first connection line displayed between the first node and the second node on the first display interface with a second connection line in a second format while the first account transmits the first file of the first version to the second account, wherein the second connection line points to the second node from the first node, and the second connection line is used for indicating that the first task and the second task have information interaction.

11. The method of any of claims 1-9, wherein after displaying the second interaction result on the first display interface, the method further comprises:

and when the relation between the first task and the second task is deleted, displaying a fifth interaction result on the first display interface, wherein the fifth interaction result is used for indicating that no information interaction relation exists between the first task and the second task.

12. The method of any of claims 1-9, wherein after displaying the second interaction result on the first display interface, the method further comprises:

and under the condition that the first file is the only file transmitted to the second account by the first account, when the first file is set to not allow synchronous transmission to the second account, displaying the first interaction result on the first display interface.

13. A computer-readable storage medium comprising a stored program, wherein the program when executed performs the method of any of claims 1 to 12.

14. An electronic device comprising a memory and a processor, characterized in that the memory has stored therein a computer program, the processor being arranged to execute the method of any of claims 1 to 12 by means of the computer program.

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