CN117155891B - Method and device for sending messages on multiple social media platforms by one key - Google Patents

Abstract

The embodiment of the invention provides a method and a device for sending messages on a plurality of social media platforms by one key, belonging to the technical field of data processing, wherein the method comprises the following steps: through a preset identity authentication flow, identity authentication and authorization are realized for a plurality of social media platforms; acquiring JSON data C sent by a front-end platform to obtain a message analysis result set J containing m messages; forming a first message analysis result set and a second message analysis result set through the intensive calculation function g; and sending the truncated message set and the link message set as replacement messages of the first message analysis result set together with the second message analysis result set in the plurality of social media platforms. By adopting the scheme, the sending requirements of a plurality of social media can be automatically analyzed and matched, and the accuracy and the instantaneity of multi-platform message sending are further improved.

Description

Method and device for sending messages on multiple social media platforms by one key

Technical Field

The present invention relates to the field of data processing technologies, and in particular, to a method and an apparatus for sending a message on multiple social media platforms by one key, and an electronic device.

Background

With the development of internet technology, more and more social media (e.g., newwave microblogs, instagram, facebook, etc.) may be provided for users to send social messages, and a social media platform generally provides an API (application program interface) to enable third party applications to interact with the social media platform, so as to implement a function of sending messages by one key. However, these APIs typically have limitations, including limitations on the number of requests per day or hour, and thus one-touch sending of multiple messages may be limited by these limitations. If the usage limit of the API is exceeded, the message cannot be normally published. In the course of transmitting a plurality of messages by one key, various errors may occur, such as transmission failure, server failure, or network connection problem. Applications need to have the ability to handle these error conditions and provide an effective failure recovery mechanism. At the same time, the social media platform may continually update its APIs, which may cause compatibility problems for the application after updating. The application needs to be updated in time to ensure compatibility with the latest version of the platform. In addition, different social media platforms may have different requirements on the format and content of the message, including character limitations, image size, and link format. An application needs to ensure that the generated message is properly displayed and formatted on each platform.

The above problems affect that a key can cause unsuccessful message sending in the process of sending messages by a plurality of social media platforms.

Disclosure of Invention

In view of the above, embodiments of the present invention provide a method, an apparatus, and an electronic device for sending a message by one key on multiple social media platforms, which at least partially solve the problems existing in the prior art.

In a first aspect, an embodiment of the present invention provides a method for sending a message by one key on a plurality of social media platforms, including:

through a preset identity authentication flow, identity authentication and authorization are realized on a plurality of social media platforms, and after n social media platforms are obtained and pass authentication, a social media platform message sending structure body set S= { S is constructed according to message sending rules of different social media platforms ₁ ,S ₂ ,…S _n }；

Acquiring JSON data C sent by a front-end platform, wherein the JSON data comprises to-be-sent messages M applied to a plurality of social media platforms, and analyzing the to-be-sent messages M based on a structure set S through a content analysis function f to obtain a message analysis result set J comprising M pieces of messages, wherein J=f (S, C) = { J ₁ ,J ₂ ,…J _m }，m≤n；

The message density of each message analysis result in the set J is calculated through the intensive calculation function g, so that a message density vector rho=g (J) = [ rho ] ₁ ,ρ ₂ ,…,ρ _m ]By combining the individual elements in the message density vector ρ with a reference density ρ ₀ Comparing, selecting k density values from the set J to be larger than the reference density ρ ₀ The message analysis results form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -selecting from the set J m-k density values smaller than the reference density ρ ₀ The message analysis results form a second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m }，k≤m；

Parsing result set J for first message ¹ ＝{J ₁ ,J ₂ ,…J _k The message content in the message is truncated to obtain a truncated message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ To truncate message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The first message analysis result set is used as a replacement message of the first message analysis result set in a plurality of social media platforms and the second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m And transmitting all together.

According to a specific implementation manner of the embodiment of the present disclosure, the implementing identity verification and authorization on a plurality of social media platforms through a preset identity authentication procedure includes:

the user logs in one-time authorization and manages homepages of a plurality of social media platforms, and agrees to give authorization to the client;

the client applies tokens to the authentication server by using the authorization obtained by managing homepages of a plurality of social media platforms;

after the authentication server authenticates the client, the client confirms that the client agrees to issue the token so that the client can use the token to apply for obtaining the resource from the resource server, and after the resource server confirms that the token is correct, the client agrees to open the resource.

According to a specific implementation manner of the embodiment of the present disclosure, the acquiring JSON data C sent by the front-end platform includes:

a database or data structure is created for receiving JSON data C sent by the front-end platform, the JSON data C including the user's message content associated with the user's social media account, media files, and posting plans.

According to a specific implementation of an embodiment of the disclosure, the method further includes:

integrating APIs of the respective social media platforms so that messages can be posted through the APIs;

logic for implementing message posting for each social media platform, including transferring message text, media files to corresponding API endpoints;

the response of the API is processed to ensure that the message has been successfully published and to record the published status.

According to a specific implementation of an embodiment of the disclosure, the method further includes:

allowing the user to select the time of release of the message so that the message can be scheduled to be released on a particular date and time in the future;

setting a task scheduling system to automatically trigger message release at a designated time;

setting an error processing mechanism to cope with errors or faults of the social media API;

issue activity and error logs are recorded to enable tracking and troubleshooting of problems.

According to a specific implementation of an embodiment of the disclosure, the method further includes:

when the API is used for publishing the message, the following operations are carried out on the published content:

and (3) data verification: ensuring that the message data meets the requirements of the social media platform, including character restrictions, format requirements and content requirements;

checking media materials: aiming at the pictures and video materials contained in the message, ensuring that the pictures and the video materials are successfully uploaded to a social media platform, and acquiring effective media ID or URL;

checking authority: checking whether the API access token has the right to issue a message, and ensuring that the API access token has the right to issue to a target page or account;

content inspection: according to the policies and criteria of the social media platform, ensuring that the message content does not contain illegal, harmful or non-compliant content;

repeated inspection: repeated distribution of the same content is avoided.

According to a specific implementation manner of the embodiment of the disclosure, the message density of each message analysis result in the set J is calculated by the dense calculation function g, so as to obtain a message density vector ρ=g (J) = [ ρ ₁ ,ρ ₂ ,…,ρ _m ]Comprising:

for m message elements contained in set J, preprocessing them to obtain a standard message sequenceStandard message sequence->Divided into tau sub-sequence segments and using the formula

Calculate message density vector, J ₀ For the average length value of the messages in the message parsing result set J, size () is a length calculation function, τ > m.

According to a specific implementation of an embodiment of the present disclosure, the method includes the step of combining each element in the message density vector ρ with the reference density ρ ₀ Comparing, selecting k density values from the set J to be larger than the reference density ρ ₀ The message analysis results form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -further comprising:

by the formula

Calculating the reference density ρ ₀ Sim () represents a similarity calculation function.

In a second aspect, an embodiment of the present invention provides an apparatus for sending a message by one key on a plurality of social media platforms, including:

the receiving module is used for realizing identity verification and authorization on a plurality of social media platforms through a preset identity authentication flow, and constructing a social media platform message sending structure set S= { S aiming at message sending rules of different social media platforms after n social media platforms pass verification ₁ ,S ₂ ,…S _n }；

The analysis module is used for acquiring JSON data C sent by the front-end platform, wherein the JSON data comprises to-be-sent messages M applied to a plurality of social media platforms, and the to-be-sent messages M are analyzed based on a structural body set S through a content analysis function f to obtain a message analysis result set J comprising M pieces of messages, wherein J=f (S, C) = { J ₁ ,J ₂ ,…J _m }，m≤n；

A forming module for calculating the message density of each message analysis result in the set J by the dense calculation function g to obtain a message density vector ρ=g (J) = [ ρ ] ₁ ,ρ ₂ ,…,ρ _m ]By combining the individual elements in the message density vector ρ with a reference density ρ ₀ Comparing, selecting k density values from the set J to be larger than the reference density ρ ₀ The message analysis results form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -selecting from the set J m-k density values smaller than the reference density ρ ₀ The message analysis results form a second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m }，k≤m；

A sending module for analyzing the result set J for the first message ¹ ＝{J ₁ ,J ₂ ,…J _k The message content in the message is truncated to obtain a truncated message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ To truncate message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The first message analysis result set is used as a replacement message of the first message analysis result set in a plurality of social media platforms and the second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m And transmitting all together.

In a third aspect, an embodiment of the present invention further provides an electronic device, including:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform a method of sending messages at a plurality of social media platforms by one key in any implementation of the foregoing Ren Di aspect or the first aspect.

In a fourth aspect, embodiments of the present invention also provide a non-transitory computer readable storage medium storing computer instructions for causing a computer to perform a method of sending a message on a plurality of social media platforms by a key in any implementation of the foregoing first aspect or the first aspect.

In a fifth aspect, embodiments of the present invention also provide a computer program product comprising a computer program stored on a non-transitory computer readable storage medium, the computer program comprising program instructions which, when executed by a computer, cause the computer to perform the method of sending a message at a plurality of social media platforms by a key in any of the foregoing first aspect or implementations of the first aspect.

The scheme for sending messages by one key in the embodiment of the invention on a plurality of social media platforms comprises the following steps: through a preset identity authentication flow, identity authentication and authorization are realized on a plurality of social media platforms, and after n social media platforms are obtained and pass authentication, a social media platform message sending structure body set S= { S is constructed according to message sending rules of different social media platforms ₁ ,S ₂ ,…S _n -a }; acquiring JSON data C sent by a front-end platform, wherein the JSON data comprises to-be-sent messages M applied to a plurality of social media platforms, and analyzing the to-be-sent messages M based on a structure set S through a content analysis function f to obtain a message analysis result set J comprising M pieces of messages, wherein J=f (S, C) = { J ₁ ,J ₂ ,…J _m M is less than or equal to n; the message density of each message analysis result in the set J is calculated through the intensive calculation function g, so that a message density vector rho=g (J) = [ rho ] ₁ ,ρ ₂ ,…,ρ _m ]By combining the individual elements in the message density vector ρ with a reference density ρ ₀ Comparing, selecting k density values from the set J to be larger than the reference density ρ ₀ The message analysis results form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -selecting from the set J m-k density values smaller than the reference density ρ ₀ The message analysis results form a second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m M is less than or equal to k; parsing result set J for first message ¹ ＝{J ₁ ,J ₂ ,…J _k The message content in the message is truncated to obtain a truncated message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ To truncate message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The first message analysis result set is used as a replacement message of the first message analysis result set in a plurality of social media platforms and the second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m And transmitting all together. According to the scheme, the sending requirements of a plurality of social media can be automatically analyzed and matched, and the accuracy and the instantaneity of multi-platform message sending are improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of a method for sending messages on multiple social media platforms by one key according to an embodiment of the present invention;

FIG. 2 is a flowchart of another method for sending messages on multiple social media platforms by one key according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a device for sending messages on multiple social media platforms by one key according to an embodiment of the present invention;

fig. 4 is a schematic diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Other advantages and effects of the present disclosure will become readily apparent to those skilled in the art from the following disclosure, which describes embodiments of the present disclosure by way of specific examples. It will be apparent that the described embodiments are merely some, but not all embodiments of the present disclosure. The disclosure may be embodied or practiced in other different specific embodiments, and details within the subject specification may be modified or changed from various points of view and applications without departing from the spirit of the disclosure. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict. All other embodiments, which can be made by one of ordinary skill in the art without inventive effort, based on the embodiments in this disclosure are intended to be within the scope of this disclosure.

It is noted that various aspects of the embodiments are described below within the scope of the following claims. It should be apparent that the aspects described herein may be embodied in a wide variety of forms and that any specific structure and/or function described herein is merely illustrative. Based on the present disclosure, one skilled in the art will appreciate that one aspect described herein may be implemented independently of any other aspect, and that two or more of these aspects may be combined in various ways. For example, an apparatus may be implemented and/or a method practiced using any number of the aspects set forth herein. In addition, such apparatus may be implemented and/or such methods practiced using other structure and/or functionality in addition to one or more of the aspects set forth herein.

It should also be noted that the illustrations provided in the following embodiments merely illustrate the basic concepts of the disclosure by way of illustration, and only the components related to the disclosure are shown in the drawings and are not drawn according to the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complicated.

In addition, in the following description, specific details are provided in order to provide a thorough understanding of the examples. However, it will be understood by those skilled in the art that the aspects may be practiced without these specific details.

The embodiment of the disclosure provides a method for sending messages on a plurality of social media platforms by one key. The method for sending messages by one key on multiple social media platforms according to the embodiment may be performed by a computing device, where the computing device may be implemented as software, or as a combination of software and hardware, and the computing device may be integrally provided in a server, a terminal device, or the like.

Referring to fig. 1 and 2, an embodiment of the present disclosure provides a method for sending messages on a plurality of social media platforms by one key, including:

s101, identity verification and authorization are achieved on a plurality of social media platforms through a preset identity authentication flow, and after n social media platforms pass verification, a social media platform message sending structure set S= { S is constructed according to message sending rules of different social media platforms ₁ ,S ₂ ,…S _n }。

Authentication and authorization is implemented for each social media platform so that the user's application may post messages on behalf of the user.

For this reason, the scheme of the invention is provided with a user authorized multi-social platform homepage, and the user authorized multi-social platform homepage can:

(1) Allowing a user to authorize and manage home pages of a plurality of social media platforms at one time;

(2) After the user selects one platform, the user is guided to complete the authorization process. This involves logging into an account with the social media platform and then granting the appropriate rights. The step of authorizing will vary according to the requirements of each platform, requiring the user to log in and grant publishing and management rights.

After n social media platforms pass verification, the message sending rules of different social media platforms can be further searched, and different social media platforms may have different character restrictions and rules, for example:

character restriction：

Twitter: buffer typically supports message content of 280 characters according to the character restriction of Twitter. If the user's message exceeds this limit, buffer will alert the user and ask for the shortened content.

Facebook: the character restrictions of Facebook depend on different types of messages. The normal status update may contain up to 63,206 characters. However, lengthy messages may be truncated, so it is preferable to keep the content thin.

Instagram: the character limitations of the instragram are related to the message header and description. Titles typically support up to 30 characters, and descriptions support up to 2,200 characters.

Linkedln: the character limit of LinkedIn also depends on different types of messages, but in general the status update may contain a maximum of 1,300 characters.

Picture and video limitations：

Allowing users to add pictures and videos to messages, but different social media platforms have different requirements on the size and format of the multimedia. Ensuring that the user's pictures and videos meet the requirements of each platform avoids problems.

For message sending rules of different social media platforms, constructing a social media platform message sending structure set S= { S ₁ ,S ₂ ,…S _n Through the message sending structure set S, the message sent by the user can be further filtered and parsed, so that the sending requirement of each social media is met.

S102, acquiring JSON data C sent by a front-end platform, wherein the JSON data comprises to-be-sent messages M applied to a plurality of social media platforms, and analyzing the to-be-sent messages M based on a structure set S through a content analysis function f to obtain a message analysis result set J comprising M pieces of messages, wherein J=f (S, C) = { J ₁ ,J ₂ ,…J _m }，m≤n。

Accepting JSON data sent by the front end generally requires writing corresponding code in the back end to process the request and parse the JSON data, which may contain the content of the message to be sent

As an example, the partial content in JSON data may be:

[{"page_id":"17841411597761034","platform":"instagram","material_type":3,"duration":"15","video_thumbnail":"https://oneupload.onesight.com/publish/video/2023/09/25/1565628_NwqDUn-1695633777736-7149.mp4x-oss-process＝video/snapsh ot,t_0000,f_jpg,ar_auto","material_title":"1565628_NOvhri-1693375316993-3441.mp4","link":"","linkedin_title":"","link_description":"","resource":"https://oneupload.onesight.com/publish/video/2023/09/25/1565628_NwqDUn-1695633777736-7149.mp4","privacy_status":"","size":1565628,"scheduling_type":3,"material_id":"","faceboo kmentionselected":"","reviewer":0,"message":"","thumb_offset":0,"send_time":1695633792000,"is_reels":1,"share_to_feed":1},{"page_id":"831177093898451","platfor m":"facebook","material_type":3,"duration":"15","video_thumbnail":"https://oneupload.onesight.com/publish/video/2023/09/25/1565628_NwqDUn-1695633777736-7149.mp4x-oss-process＝video/snapshot,t_0000,f_jpg,ar_auto","material_title":"1565628_NOvhri-1693375316993-3441.mp4","link":"","linkedin_title":"","link_description":"","resource":"https://oneupload.onesight.com/publish/video/2023/09/25/1565628_NwqDUn-1695633777736-7149.mp4","privacy_status":"","size":1565628,"schedulin g_type":3,"material_id":"","facebookmentionselected":[],"reviewer":0,"message":"","send_time":1695633792000},{"page_id":"1405070111816372225","platform":"twitt er","material_type":3,"duration":"15","video_thumbnail":"https://oneupload.onesight.com/publish/1c60db13-dc79-4520-a785-569e084b1143.mp4x-oss-process＝video/sn apshot,t_000,f_jpg,ar_auto","material_title":"","link":"","linkedin_title":"","link_desc ription":"","resource":"https://oneupload.onesight.com/publish/1c60db13-dc79-4520-a785-569e084b1143.mp4","privacy_status":"","size":null,"scheduling_type":3,"mater ial_id":"","facebookmentionselected":"","reviewer":0,"message":"","send_time":1695633792000}]

the content in JSON can be extracted to obtain a message M to be sent, and the message M to be sent is analyzed based on the structure set S by the content analysis function f to obtain a result set J containing M message analysis results J, j=f (S, C) = { J ₁ ,J ₂ ,…J _m The m is less than or equal to n, and the m message analysis results can be matched with the message sending rules of n social media platforms, so that the message sending structure body set S= { S of the social media platforms is met ₁ ,S ₂ ,…S _n Requirements of }.

S103, by dense calculationFunction g, calculating the message density of each message analysis result in the set J, and obtaining a message density vector rho=g (J) = [ rho) ₁ ,ρ ₂ ,…,ρ _m ]By combining the individual elements in the message density vector ρ with a reference density ρ ₀ Comparing, selecting k density values from the set J to be larger than the reference density ρ ₀ The message analysis results form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -selecting from the set J m-k density values smaller than the reference density ρ ₀ The message analysis results form a second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m }，k≤m。

In order to further improve the real-time performance of message transmission, the message density in the m message analysis result sets J can be further calculated, and the real-time performance of one-key transmission is improved. For this purpose, the m message elements contained in the set J can be preprocessed to obtain a standard message sequenceStandard message sequence->Divided into tau sub-sequence segments and using the formula

Calculate message density vector, J ₀ For the average length value of the messages in the message parsing result set J, size () is a length calculation function, τ > m.

Further, the formula can be obtained

Calculating the reference density ρ ₀ Sim () represents a similarity calculation function.

S104, for the first cancellationInformation analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k The message content in the message is truncated to obtain a truncated message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ To truncate message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The first message analysis result set is used as a replacement message of the first message analysis result set in a plurality of social media platforms and the second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m And transmitting all together.

The elements in the first message analysis result set can be truncated, so that the message represented by the elements is split into truncated message elements and link message elements to form a truncated message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ }. Truncated message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k The message contained in the message is that the density value is larger than the reference density ρ ₀ Is linked to the message content of message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The information in the message is issued in advance through a third party platform and forms a link of the third party platform, and the link of the third party platform forms a link information set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ Thus, message set J will be truncated ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ Second message parsing result set J as replacement message for first message parsing result set ² ＝{J _k+1 ,J _k+2 ,…J _m The message is sent together in the multimedia platform, so that the sending load of the message can be greatly lightened, and the real-time performance of the message sending is improved.

Referring to fig. 2, according to a specific implementation manner of the embodiment of the present disclosure, the implementing identity verification and authorization on a plurality of social media platforms through a preset identity authentication procedure includes:

s201, a user logs in one-time authorization and manages homepages of a plurality of social media platforms, and agrees to give authorization to a client;

s202, a client applies tokens to an authentication server by using authorizations obtained by managing homepages of a plurality of social media platforms;

s203, after the authentication server authenticates the client, the authentication server confirms that the client agrees to issue the token so that the client can use the token to apply for obtaining the resource from the resource server, and after the authentication server confirms that the token does not have any error, the resource server agrees to open the resource to the client.

According to a specific implementation manner of the embodiment of the present disclosure, the acquiring JSON data C sent by the front-end platform includes:

a database or data structure is created for receiving JSON data C sent by the front-end platform, the JSON data C including the user's message content associated with the user's social media account, media files, and posting plans.

According to a specific implementation of an embodiment of the disclosure, the method further includes:

integrating APIs of the respective social media platforms so that messages can be posted through the APIs;

logic for implementing message posting for each social media platform, including transferring message text, media files to corresponding API endpoints;

the response of the API is processed to ensure that the message has been successfully published and to record the published status.

According to a specific implementation of an embodiment of the disclosure, the method further includes:

allowing the user to select the time of release of the message so that the message can be scheduled to be released on a particular date and time in the future;

setting a task scheduling system to automatically trigger message release at a designated time;

setting an error processing mechanism to cope with errors or faults of the social media API;

issue activity and error logs are recorded to enable tracking and troubleshooting of problems.

According to a specific implementation of an embodiment of the disclosure, the method further includes:

when the API is used for publishing the message, the following operations are carried out on the published content:

and (3) data verification: ensuring that the message data meets the requirements of the social media platform, including character restrictions, format requirements and content requirements;

checking media materials: aiming at the pictures and video materials contained in the message, ensuring that the pictures and the video materials are successfully uploaded to a social media platform, and acquiring effective media ID or URL;

checking authority: checking whether the API access token has the right to issue a message, and ensuring that the API access token has the right to issue to a target page or account;

content inspection: according to the policies and criteria of the social media platform, ensuring that the message content does not contain illegal, harmful or non-compliant content;

repeated inspection: repeated distribution of the same content is avoided.

According to a specific implementation manner of the embodiment of the disclosure, the message density of each message analysis result in the set J is calculated by the dense calculation function g, so as to obtain a message density vector ρ=g (J) = [ ρ ₁ ,ρ ₂ ,…,ρ _m ]Comprising:

for m message elements contained in set J, preprocessing them to obtain a standard message sequenceStandard message sequence->Divided into tau sub-sequence segments and using the formula

J ₀ For the average length value of the messages in the message parsing result set J, size () is a length calculation function, τ > m.

According to a specific implementation of an embodiment of the present disclosure, the method includes the step of combining each element in the message density vector ρ with the reference density ρ ₀ Comparing, selecting k density values from the set J to be larger than the reference density ρ ₀ The message analysis results form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -further comprising:

by the formula

Calculating the reference density ρ ₀ Sim () represents a similarity calculation function.

Corresponding to the above method embodiment, referring to fig. 3, the embodiment of the present invention further discloses a device 30 for sending messages by one key on multiple social media platforms, including:

the receiving module 301 is configured to implement identity verification and authorization on multiple social media platforms through a preset identity authentication procedure, and construct social media platforms for message sending rules of different social media platforms after n social media platforms pass verificationStation message transmission structure set s= { S ₁ ,S ₂ ,…S _n }；

The parsing module 302 is configured to obtain JSON data C sent by the front-end platform, where the JSON data includes a message M to be sent applied to a plurality of social media platforms, parse the message M to be sent based on a structure set S by a content parsing function f, and obtain a result set J including M message parsing results J, j=f (S, C) = { J ₁ ,J ₂ ,…J _m }，m≤n；

A forming module 303, configured to calculate, by using the dense calculation function g, the message density of each message analysis result in the set J, to obtain a message density vector ρ=g (J) = [ ρ) ₁ ,ρ ₂ ,…,ρ _m ]By combining the individual elements in the message density vector ρ with a reference density ρ ₀ Comparing, selecting k density values from the set J to be larger than the reference density ρ ₀ The message analysis results form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -selecting from the set J m-k density values smaller than the reference density ρ ₀ The message analysis results form a second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m }，k≤m；

A sending module 304 for parsing the result set J for the first message ¹ ＝{J ₁ ,J ₂ ,…J _k The message content in the message is truncated to obtain a truncated message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ To truncate message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The first message analysis result set is used as a replacement message of a plurality of social media platformsResolving result set J with second message ² ＝{J _k+1 ,J _k+2 ,…J _m And transmitting all together.

Referring to fig. 4, an embodiment of the present invention also provides an electronic device 60, including:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of one-touch messaging across multiple social media platforms of the method embodiments described above.

Embodiments of the present invention also provide a non-transitory computer readable storage medium storing computer instructions for causing a computer to perform the foregoing method embodiments.

Embodiments of the present invention also provide a computer program product comprising a computer program stored on a non-transitory computer readable storage medium, the computer program comprising program instructions which, when executed by a computer, cause the computer to perform the method of sending messages at a plurality of social media platforms by one of the foregoing method embodiments.

Referring now to fig. 4, a schematic diagram of an electronic device 60 suitable for use in implementing embodiments of the present disclosure is shown. The electronic devices in the embodiments of the present disclosure may include, but are not limited to, mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and stationary terminals such as digital TVs, desktop computers, and the like. The electronic device shown in fig. 4 is merely an example and should not be construed to limit the functionality and scope of use of the disclosed embodiments.

As shown in fig. 4, the electronic device 60 may include a processing means (e.g., a central processing unit, a graphics processor, etc.) 601, which may perform various appropriate actions and processes according to a program stored in a Read Only Memory (ROM) 602 or a program loaded from a storage means 608 into a Random Access Memory (RAM) 603. In the RAM 603, various programs and data necessary for the operation of the electronic device 60 are also stored. The processing device 601, the ROM 602, and the RAM 603 are connected to each other through a bus 604. An input/output (I/O) interface 605 is also connected to bus 604.

In general, the following devices may be connected to the I/O interface 605: input devices 606 including, for example, a touch screen, touchpad, keyboard, mouse, image sensor, microphone, accelerometer, gyroscope, etc.; an output device 607 including, for example, a Liquid Crystal Display (LCD), a speaker, a vibrator, and the like; storage 608 including, for example, magnetic tape, hard disk, etc.; and a communication device 609. The communication means 609 may allow the electronic device 60 to communicate with other devices wirelessly or by wire to exchange data. While fig. 4 shows the electronic device 60 with various means, it is to be understood that not all of the illustrated means are required to be implemented or provided. More or fewer devices may be implemented or provided instead.

In particular, according to embodiments of the present disclosure, the processes described above with reference to flowcharts may be implemented as computer software programs. For example, embodiments of the present disclosure include a computer program product comprising a computer program embodied on a computer readable medium, the computer program comprising program code for performing the method shown in the flowcharts. In such an embodiment, the computer program may be downloaded and installed from a network via communication means 609, or from storage means 608, or from ROM 602. The above-described functions defined in the methods of the embodiments of the present disclosure are performed when the computer program is executed by the processing device 601.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the scope of the present invention should be included in the present invention. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims (10)

1. A method for sending messages on a plurality of social media platforms in one key, comprising:

through a preset identity authentication flow, identity authentication and authorization are realized on a plurality of social media platforms, and after n social media platforms are obtained and pass authentication, a social media platform message sending structure body set S= { S is constructed according to message sending rules of different social media platforms ₁ ,S ₂ ,…S _n }；

Acquiring JSON data C sent by a front-end platform, wherein the JSON data comprises to-be-sent messages M applied to a plurality of social media platforms, and analyzing the to-be-sent messages M based on a structure set S through a content analysis function f to obtain a message analysis result set J comprising M pieces of messages, wherein J=f (S, C) = { J ₁ ,J ₂ ,…J _m }，m≤n；

The message density of each message analysis result in the set J is calculated through the intensive calculation function g, so that a message density vector rho=g (J) = [ rho ] ₁ ,ρ ₂ ,…,ρ _m ]By combining the individual elements in the message density vector ρ with a reference density ρ ₀ Comparing, selecting k density values from the set J to be larger than the reference density ρ ₀ Form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -selecting from the set J m-k density values smaller than the reference density ρ ₀ The message analysis results form a second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m }，k≤m；

Parsing result set J for first message ¹ ＝{J ₁ ,J ₂ ,…J _k The message content in the message is truncated to obtain a truncated message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ Message set to be truncatedJ in combination ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The first message analysis result set is used as a replacement message of the first message analysis result set in a plurality of social media platforms and the second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m And transmitting together, wherein the message set J is truncated ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k The message contained in the message is that the density value is larger than the reference density ρ ₀ Is linked to the message content of message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The information in the message is issued in advance through a third party platform and forms a link of the third party platform, and the link of the third party platform forms a link information set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ }。

2. The method of claim 1, wherein the authenticating and authorizing the plurality of social media platforms through the preset authentication procedure comprises:

the user logs in one-time authorization and manages homepages of a plurality of social media platforms, and agrees to give authorization to the client;

the client applies tokens to the authentication server by using the authorization obtained by managing homepages of a plurality of social media platforms;

after the authentication server authenticates the client, the client confirms that the client agrees to issue the token so that the client can use the token to apply for obtaining the resource from the resource server, and after the resource server confirms that the token is correct, the client agrees to open the resource.

3. The method according to claim 2, wherein the acquiring JSON data C sent by the front-end platform includes:

a database or data structure is created for receiving JSON data C sent by the front-end platform, the JSON data C including the user's message content associated with the user's social media account, media files, and posting plans.

4. A method according to claim 3, characterized in that the method further comprises:

integrating APIs of the respective social media platforms so that messages can be posted through the APIs;

logic for implementing message posting for each social media platform, including transferring message text, media files to corresponding API endpoints;

the response of the API is processed to ensure that the message has been successfully published and to record the published status.

5. The method according to claim 4, wherein the method further comprises:

allowing the user to select the time of release of the message so that the message can be scheduled to be released on a particular date and time in the future;

setting a task scheduling system to automatically trigger message release at a designated time;

setting an error processing mechanism to cope with errors or faults of the social media API;

issue activity and error logs are recorded to enable tracking and troubleshooting of problems.

6. The method of claim 5, wherein the method further comprises:

when the API is used for publishing the message, the following operations are carried out on the published content:

and (3) data verification: ensuring that the message data meets the requirements of the social media platform, including character restrictions, format requirements and content requirements;

checking media materials: aiming at the pictures and video materials contained in the message, ensuring that the pictures and the video materials are successfully uploaded to a social media platform, and acquiring effective media ID or URL;

checking authority: checking whether the API access token has the right to issue a message, and ensuring that the API access token has the right to issue to a target page or account;

content inspection: according to the policies and criteria of the social media platform, ensuring that the message content does not contain illegal, harmful or non-compliant content;

repeated inspection: repeated distribution of the same content is avoided.

7. The method of claim 6, wherein the message density of each message analysis result in the set J is calculated by a dense calculation function g to obtain a message density vector ρ=g (J) = [ ρ ₁ ,ρ ₂ ,…,ρ _m ]Comprising:

for m message elements contained in set J, preprocessing them to obtain a standard message sequenceStandard message sequence->Divided into tau sub-sequence segments and using the formula

Calculate message density vector, J ₀ For the average length value of the messages in the message parsing result set J, size () is a length calculation function,representing a standard message sequence +.>Is greater than τ > m.

8. The method of claim 7, wherein the information is obtained by combining each element in the message density vector ρ with a reference density ρ ₀ Comparing, selecting k density values from the set J to be larger than the reference density ρ ₀ The message analysis results form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -further comprising:

by the formula

Calculating the reference density ρ ₀ Sim () represents a similarity calculation function.

9. An apparatus for sending messages in a plurality of social media platforms in one key, comprising:

the receiving module is used for realizing identity verification and authorization on a plurality of social media platforms through a preset identity authentication flow, and constructing a social media platform message sending structure set S= { S aiming at message sending rules of different social media platforms after n social media platforms pass verification ₁ ,S ₂ ,…S _n }；

The analysis module is used for acquiring JSON data C sent by the front-end platform, wherein the JSON data comprises to-be-sent messages M applied to a plurality of social media platforms, and the to-be-sent messages M are analyzed based on a structural body set S through a content analysis function f to obtain a message analysis result set J comprising M pieces of messages, wherein J=f (S, C) = { J ₁ ,J ₂ ,…J _m }，m≤n；

A forming module for calculating the message density of each message analysis result in the set J by the dense calculation function g to obtain a message density vector ρ=g (J) = [ ρ ] ₁ ,ρ ₂ ,…,ρ _m ]By combining the individual elements in the message density vector ρ with a reference density ρ ₀ Comparing, selecting k ciphers from the set JThe degree value is greater than the reference density ρ ₀ Form a first message analysis result set J ¹ ＝{J ₁ ,J ₂ ,…J _k -selecting from the set J m-k density values smaller than the reference density ρ ₀ The message analysis results form a second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m }，k≤m；

A sending module for analyzing the result set J for the first message ¹ ＝{J ₁ ,J ₂ ,…J _k The message content in the message is truncated to obtain a truncated message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ To truncate message set J ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k Sum of linked message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The first message analysis result set is used as a replacement message of the first message analysis result set in a plurality of social media platforms and the second message analysis result set J ² ＝{J _k+1 ,J _k+2 ,…J _m And transmitting together, wherein the message set J is truncated ^1′ ＝{J ^′ ₁ ,J ^′ ₂ ,…J ^′ _k The message contained in the message is that the density value is larger than the reference density ρ ₀ Is linked to the message content of message set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ The information in the message is issued in advance through a third party platform and forms a link of the third party platform, and the link of the third party platform forms a link information set J ^1″ ＝{J ^′ ₁ ^′ ,J ^′ ₂ ^′ ,…J ^′ _k ^′ }。

10. An electronic device, the electronic device comprising:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of one-touch messaging at a plurality of social media platforms of any of the preceding claims 1-8.