CN117151449A - Data platform chain type information interaction method based on full scene linkage - Google Patents

Abstract

The invention provides a full scene linkage-based data platform chain information interaction method, which comprises the steps of receiving a target scene input by a first user terminal, and calling a preset circulation unit corresponding to the target scene to generate a basic chain; obtaining a node matching request of a first user terminal, matching a circulating node to a basic chain according to the node matching request to obtain the circulating chain, wherein the node matching request comprises an automatic matching request and a customized matching request; generating a flow rotating shaft according to the flow chain, wherein the flow rotating shaft comprises flow grooves corresponding to all flow nodes, and each flow groove comprises a plurality of prompting grooves and data grooves corresponding to the prompting grooves; and acquiring filling data corresponding to each circulation node, updating the circulation groove according to the circulation chain and the filling data, and transmitting the obtained circulation data to the first user terminal.

Description

Data platform chain type information interaction method based on full scene linkage

Technical Field

The invention relates to a data processing technology, in particular to a full scene linkage-based data platform chain type information interaction method.

Background

As business progresses, various processes and links become more and more complex, wherein the corresponding business chains are different for different business scenarios. At present, when business personnel perform business processing under different scenes, the business chains often need to be confirmed one by one through offline communication of the business personnel, which is complex and has low configuration efficiency. Therefore, how to efficiently customize the service chain according to the user's demands and present the data in the service circulation process to the user is a current urgent problem to be solved.

Disclosure of Invention

The embodiment of the invention provides a full scene linkage-based data platform chained information interaction method, which can efficiently customize a service chain according to user requirements and display data in a service circulation process for a user.

In a first aspect of the embodiment of the present invention, a data platform chained information interaction method based on full scene linkage is provided, including:

receiving a target scene input by a first user terminal, and calling a preset circulation unit corresponding to the target scene to generate a basic chain;

obtaining a node matching request of the first user side, matching the circulating nodes of the basic chain according to the node matching request to obtain a circulating chain, wherein the node matching request comprises an automatic matching request and a customized matching request;

generating a flow rotating shaft according to the flow chain, wherein the flow rotating shaft comprises flow grooves corresponding to all the flow nodes, and the flow grooves comprise a plurality of prompting grooves and data grooves corresponding to the prompting grooves;

and acquiring filling data corresponding to each circulation node, updating the circulation groove according to the circulation chain and the filling data, and sending the obtained circulation data to the first user terminal.

Optionally, in one possible implementation manner of the first aspect, receiving a target scene input by a first user terminal, and invoking a preset circulation unit corresponding to the target scene to generate a base chain, including:

receiving a service request of the first user side, and calling a scene interface to send to the first user side, wherein the scene interface comprises a plurality of preset service scenes;

acquiring a service scene selected by the first user side based on the scene interface as a target scene, and calling a plurality of preset circulation units corresponding to the target scene;

and connecting the preset circulation units according to the service circulation direction to obtain a basic chain.

Optionally, in one possible implementation manner of the first aspect, a node matching request of the first user side is obtained, matching of a circulation node is performed on the base chain according to the node matching request, and a circulation chain is obtained, where the node matching request includes an automatic matching request and a custom matching request, and the method includes:

receiving an automatic matching request input by the first user terminal, and invoking an automatic matching strategy to match the circulating nodes of the basic chain to obtain a circulating chain; or alternatively, the first and second heat exchangers may be,

And receiving a customized matching request input by the first user terminal, and calling the customized matching request to match the circulation nodes of the basic chain to obtain the circulation chain.

Optionally, in one possible implementation manner of the first aspect, receiving an automatic matching request input by the first user side, invoking an automatic matching policy to perform matching of a circulation node on the base chain, so as to obtain a circulation chain, including:

receiving an automatic matching request input by the first user side, and acquiring a plurality of available nodes in an available state corresponding to each preset circulation unit in the basic chain;

randomly determining any one available node as a corresponding circulation node of the corresponding preset circulation unit, and connecting all circulation nodes according to the service circulation direction to obtain the circulation chain.

Optionally, in one possible implementation manner of the first aspect, receiving a custom matching request input by the first user side, invoking the custom matching request to perform matching of a circulation node on the base chain, to obtain a circulation chain, including:

receiving a customized matching request input by the first user side, and generating a customized interface according to the circulation attribute of each preset circulation unit, wherein the circulation attribute is a designated attribute, a fixed attribute or a self-selected attribute;

Determining a circulation node corresponding to each preset circulation unit in the basic chain according to the interaction information of the first user side on the customized interface;

and connecting all the circulation nodes according to the service circulation direction to obtain the circulation chain.

Optionally, in one possible implementation manner of the first aspect, receiving a custom matching request input by the first user side, generating a custom interface according to a circulation attribute of each preset circulation unit, including:

responding to a customized matching request, calling an initial interface, and arranging a plurality of preset circulation units in the initial interface from top to bottom in sequence according to the service circulation direction;

all available nodes of the preset circulation unit with the appointed attribute are called, displayed on the right side of the corresponding preset circulation unit, and marked as appointed nodes;

a circulation node of a preset circulation unit with the fixed attribute is called and displayed on the right side of the corresponding preset circulation unit, and is marked as a fixed node;

and calling all available nodes of the preset circulation unit with the self-selected attribute, displaying the nodes on the right side of the corresponding preset circulation unit, marking the nodes as self-selected nodes, and generating the customized interface.

Optionally, in one possible implementation manner of the first aspect, determining, according to the interaction information of the first user side on the custom interface, a circulation node corresponding to each preset circulation unit in the base chain includes:

receiving interaction information of the first user side to any designated node, and when the designated node is inconsistent with the corresponding circulation node of the preset circulation unit, sending the designated node to a management side of the corresponding preset circulation unit;

determining that the designated node is a circulation node corresponding to the preset circulation unit according to the determination information of the corresponding management end on the designated node;

and receiving interaction information of the first user side to any self-selected node, deleting the self-selected node when the self-selected node is inconsistent with the corresponding circulation node of the preset circulation unit, and taking the self-selected node as the circulation node of the corresponding preset circulation unit.

Optionally, in a possible implementation manner of the first aspect, the generating a flow shaft according to the flow chain, where the flow shaft includes flow slots corresponding to the flow nodes, the flow slots include a plurality of hint slots, and the data slots corresponding to the hint slots include:

Constructing an initial shaft corresponding to each circulation node, and constructing a prompting groove corresponding to the corresponding circulation node at the beginning position of the initial shaft;

acquiring a plurality of preset data labels corresponding to each circulation node, constructing necessary slots corresponding to each data label, and adding corresponding slot position labels for each necessary slot according to the data labels;

generating a supplement groove corresponding to the circulation node according to the preset supplement quantity corresponding to the circulation node;

after the necessary grooves and the supplementary grooves corresponding to the circulation nodes are placed in the corresponding prompting grooves, generating circulation grooves corresponding to the circulation nodes according to the prompting grooves, the necessary grooves and the supplementary grooves;

updating the initial shaft according to the circulation groove to obtain sub-stream rotating shafts corresponding to the circulation nodes;

and connecting the sub-stream axles according to the service sequence of the stream nodes to obtain stream axles.

Optionally, in one possible implementation manner of the first aspect, acquiring filling data corresponding to each circulation node, updating the circulation slot according to the circulation chain and the filling data, and sending the obtained circulation data to the first user terminal, where the method includes:

Generating a prompt image corresponding to each circulation node according to the circulation chain, and filling the prompt image into a prompt slot corresponding to the corresponding circulation node;

acquiring a plurality of necessary images corresponding to each circulation node, wherein each necessary image is preset with a corresponding data tag;

determining a necessary image corresponding to each necessary slot as a target image according to the slot position label and the data label, and filling the target image into the corresponding necessary slot;

and receiving the supplementary image uploaded by the first user terminal based on the corresponding circulation node, randomly filling the supplementary image into a supplementary groove corresponding to the corresponding circulation node, obtaining circulation data, and sending the circulation data to the first user terminal, wherein the filling data comprises necessary images and supplementary images.

Optionally, in one possible implementation manner of the first aspect, generating, according to the circulation chain, a prompt image corresponding to each circulation node, and filling the prompt image into a prompt slot corresponding to the corresponding circulation node, including:

sequentially acquiring a circulation node in the circulation chain as a target node, and calling a preset pixel value to perform highlighting on the target node to obtain a highlighting interface corresponding to the target node;

And generating a prompt image corresponding to the circulation node according to the salient interface, and filling the prompt image into a prompt slot corresponding to the circulation node.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

if the necessary image corresponding to the necessary groove does not exist, a blank image is called, and the blank image comprises a preset missing filling area;

generating a missing field according to the slot position label corresponding to the necessary slot, updating the missing filling area based on the missing field to obtain a missing image, and filling the missing image into the necessary slot.

In a second aspect of an embodiment of the present invention, there is provided an enterprise compliance data processing platform, including:

the basic module is used for receiving a target scene input by a first user terminal, and calling a preset circulation unit corresponding to the target scene to generate a basic chain;

the matching module is used for acquiring a node matching request of the first user side, matching the circulating nodes of the basic chain according to the node matching request to obtain a circulating chain, wherein the node matching request comprises an automatic matching request and a customized matching request;

The groove position module is used for generating a flow rotating shaft according to the flow chain, the flow rotating shaft comprises flow grooves corresponding to the flow nodes, and the flow grooves comprise a plurality of prompting grooves and data grooves corresponding to the prompting grooves;

and the filling module is used for acquiring filling data corresponding to each circulation node, updating the circulation groove according to the circulation chain and the filling data, obtaining circulation data and transmitting the circulation data to the first user terminal.

In a third aspect of an embodiment of the present invention, there is provided an electronic device including: a memory, a processor and a computer program stored in the memory, the processor running the computer program to perform the first aspect of the invention and the methods that the first aspect may relate to.

In a fourth aspect of embodiments of the present invention, there is provided a readable storage medium having stored therein a computer program for implementing the method of the first aspect and the various possible aspects of the first aspect when executed by a processor.

The beneficial effects of the invention are as follows:

1. the invention can efficiently customize the service chain according to the user demands and display the data in the service circulation process for the user. According to the invention, the corresponding basic chain is generated according to the target scene selected by the user, so that the corresponding service scene can be selected according to the user requirement to customize the service chain. And then, according to the automatic matching request or the customized matching request input by the user, the invention invokes different matching strategies to match the circulation nodes to obtain the circulation chain, thereby customizing the circulation chain according to the requirements of the user. In order to enable a user to view data in a circulation service, the scheme can generate a circulation shaft corresponding to a circulation chain, so that filling data and prompt data corresponding to each circulation node can be filled into a groove corresponding to the circulation shaft to generate corresponding circulation data, and the corresponding circulation data is sent to the user for viewing, and the user can know service data in the service circulation process.

2. When a circulation chain is generated according to a user's customization matching request, a customization interface is generated according to circulation attributes of each preset circulation unit, and then circulation nodes corresponding to the corresponding preset circulation units are selected in different modes according to different circulation attributes, wherein the circulation attributes respectively have designated attributes, fixed attributes and self-selection attributes, the corresponding circulation nodes can be determined only after the determination of a management end is obtained for the nodes corresponding to the preset circulation units of the designated attributes, the circulation nodes are fixed and cannot be changed for the preset circulation units of the fixed attributes, and the circulation nodes corresponding to the preset circulation units of the self-selection attributes can be selected by the user by combining the circulation attributes of the preset circulation units and the user requirements, so that the circulation nodes corresponding to the preset circulation units can be selected correspondingly.

3. When generating the circulation data, the invention generates the prompting image corresponding to each circulation node and fills the prompting image into the corresponding prompting groove in the flow rotating shaft, so that the user can be prompted by the prompting image which circulation node corresponds to the next service data. And the invention can also obtain necessary images and supplementary images corresponding to each circulation node and fill the necessary and supplementary grooves, so that necessary data and supplementary data corresponding to the corresponding circulation node can be displayed to the user. In addition, when the necessary groove does not have a corresponding necessary image, the invention also generates a corresponding missing image to be filled into the corresponding necessary groove, so that a user can know what the missing specific data is through the missing image, and a corresponding reference is provided for the user when the user views the service data.

Drawings

Fig. 1 is a schematic flow chart of a full scene linkage-based data platform chained information interaction method provided by an embodiment of the application;

fig. 2 is a schematic structural diagram of a data platform chained information interaction system based on full scene linkage according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1, a flowchart of a full scene linkage-based data platform chained information interaction method provided by an embodiment of the present application is shown, and an execution subject of the method shown in fig. 1 may be a software and/or hardware device. The execution body of the present application may include, but is not limited to, at least one of: user equipment, network equipment, etc. The user equipment may include, but is not limited to, computers, smart phones, personal digital assistants (Personal Digital Assistant, abbreviated as PDA), and the above-mentioned electronic devices. The network device may include, but is not limited to, a single network server, a server group of multiple network servers, or a cloud of a large number of computers or network servers based on cloud computing, where cloud computing is one of distributed computing, and a super virtual computer consisting of a group of loosely coupled computers. This embodiment is not limited thereto. The embodiment includes steps S1 to S4, which are specifically as follows:

S1, receiving a target scene input by a first user terminal, and calling a preset circulation unit corresponding to the target scene to generate a basic chain.

It can be understood that, depending on the service scenario, the corresponding preset circulation units may be different, for example, for the purchase scenario, the preset circulation units may correspond to the purchase unit, the transportation unit, the receiving unit, and the like, and for the logistics scenario, the preset circulation units may correspond to the storage unit, the transportation unit, and the distribution unit, and the like, so that the scheme may first generate the corresponding basic chain according to the target scenario selected by the user.

In some embodiments, the base chain described above may be generated by:

s11, receiving a service request of the first user side, and calling a scene interface to send to the first user side, wherein the scene interface comprises a plurality of preset service scenes.

In practical application, the service scene in the scene interface can be set by a worker in advance, and the worker can also add a new service scene according to the practical requirement.

S12, acquiring a service scene selected by the first user terminal based on the scene interface as a target scene, and calling a plurality of preset circulation units corresponding to the target scene.

When the target scene is acquired, the corresponding target scene can be obtained based on the interaction information of the first user terminal and the scene interface, and in practical application, the interaction information can be click information of the first user terminal on the corresponding service scene.

And S13, connecting the preset circulation units according to the service circulation direction to obtain a basic chain.

For example, for a purchase scenario, if the service flow direction is from the purchasing unit to the transporting unit and then to the receiving unit, a plurality of preset flow units in the purchase scenario may be connected according to the corresponding flow direction, so as to obtain the basic chain.

By the mode, the corresponding service scene can be selected according to the user requirement to customize the service chain.

S2, acquiring a node matching request of the first user side, matching the circulating nodes of the basic chain according to the node matching request to obtain a circulating chain, wherein the node matching request comprises an automatic matching request and a customized matching request.

After the basic chain is obtained, a user can correspondingly customize the business circulation chain according to own requirements, and when the circulation chain is customized, the scheme correspondingly customizes the circulation chain according to an automatic matching request or a customizing matching request input by the user.

Specifically, the specific implementation manner of step S2 may be:

s21, receiving an automatic matching request input by the first user terminal, and invoking an automatic matching strategy to match the circulating nodes of the basic chain to obtain a circulating chain.

In some embodiments, step S21 may be implemented through steps S211 to S212, specifically as follows:

s211, receiving an automatic matching request input by the first user side, and acquiring a plurality of available nodes in an available state corresponding to each preset circulation unit in the basic chain.

It may be understood that each preset forwarding unit may correspond to a plurality of nodes, for example, for a purchasing unit, it may correspond to a plurality of purchasing nodes, each purchasing node may correspond to a different purchasing person, and some purchasing persons may be in a purchasing state and cannot perform corresponding service processing, so when a forwarding node meeting the condition is automatically selected, the scheme may select from available nodes in an available state.

S212, randomly determining any available node as a circulation node corresponding to the corresponding preset circulation unit, and connecting the circulation nodes according to the service circulation direction to obtain the circulation chain.

When the circulation node is automatically selected, one node can be randomly selected from a plurality of available nodes to serve as the circulation node. It can be understood that, because the preset circulation units have corresponding service circulation directions, a plurality of circulation nodes can be connected according to the corresponding service circulation directions to obtain a circulation chain.

S22, or, receiving the customized matching request input by the first user terminal, and calling the customized matching request to match the circulation nodes of the basic chain to obtain the circulation chain.

In some embodiments, step S22 may be implemented through steps S221 to S223, specifically as follows:

s221, receiving a customized matching request input by the first user terminal, and generating a customized interface according to the circulation attribute of each preset circulation unit, wherein the circulation attribute is a designated attribute, a fixed attribute or a self-selected attribute.

It can be understood that the circulation attributes corresponding to different preset circulation units may be different, for example, the nodes corresponding to the purchasing units in the purchasing scene may need authorization of the management end to be designated correspondingly, the nodes corresponding to the transporting units may be fixed, the nodes corresponding to the receiving units may be selected by the user, and therefore, the node selection modes of the preset circulation units with different attributes may be different.

Specifically, step S221 includes steps S2211 to S2214:

s2211, responding to a customized matching request, calling an initial interface, and arranging a plurality of preset circulation units in the initial interface in sequence from top to bottom according to the service circulation direction.

It can be understood that the reason that the plurality of preset circulation units are sequentially arranged in the initial interface from top to bottom according to the service flow direction is that the plurality of preset circulation units can be sequentially arranged in the initial interface so as to enable a user to select corresponding circulation nodes of each preset circulation unit correspondingly.

S2212, all available nodes of the preset circulation unit with the appointed attribute are called and displayed on the right side of the corresponding preset circulation unit, and the nodes are marked as appointed nodes.

When the circulation attribute of the preset circulation unit is the designated attribute, it is indicated that the circulation node corresponding to the corresponding preset circulation unit can be selected correspondingly only by the determination of the corresponding management end, and the available nodes corresponding to the preset circulation unit may be many, so that the available nodes corresponding to the preset circulation unit can be displayed on the right side of the corresponding preset circulation unit and marked as the designated node, so that the user can select the corresponding node subsequently and then send the corresponding node to the management end for determination.

S2213, a circulation node of the preset circulation unit with the fixed attribute is called and displayed on the right side of the corresponding preset circulation unit, and the circulation node is marked as a fixed node.

It can be understood that, since the node corresponding to the preset circulation unit with the fixed attribute cannot be changed, the node corresponding to the preset circulation unit with the fixed attribute can be displayed on the right side as the circulation node, so that the user can check the corresponding fixed node.

S2214, all available nodes of the preset circulation unit with the self-selection attribute are called and displayed on the right side of the corresponding preset circulation unit, the nodes are marked as self-selection nodes, and the custom interface is generated.

The node corresponding to the preset circulation unit with the self-selected attribute can be selected by the user, so that the self-selected node corresponding to the preset circulation unit with the self-selected attribute can be displayed on the right side in order to enable the user to select the node corresponding to the corresponding preset circulation unit.

S222, determining a circulation node corresponding to each preset circulation unit in the basic chain according to the interaction information of the first user side on the customized interface.

After the custom interface is obtained, the corresponding circulation nodes of each preset circulation unit can be obtained according to the interaction information of the user on the custom interface, specifically, step S222 can be implemented through steps S2221 to S2223, and specifically, the steps are as follows:

S2221, receiving interaction information of the first user side to any designated node, and when the designated node is inconsistent with the corresponding circulation node of the preset circulation unit, sending the designated node to the management side of the corresponding preset circulation unit.

It can be understood that if the designated node selected by the user is inconsistent with the corresponding circulation node of the preset circulation unit, it is indicated that the user may want to select another node as the corresponding circulation node of the corresponding preset circulation unit, and for the preset circulation unit with the designated attribute, the corresponding circulation node needs to be changed after the determination of the management end is obtained, so that the corresponding designated node can be sent to the management end of the corresponding preset circulation unit for determination.

S2222, determining that the designated node is a circulation node corresponding to the preset circulation unit according to the determination information of the designated node by the corresponding management end.

After receiving the determination information of the designated node by the corresponding management end, the corresponding management end is informed to agree to change the circulation node, so that the designated node can be regarded as the circulation node corresponding to the corresponding preset circulation unit.

S2223, receiving interaction information of the first user terminal to any one of the self-selected nodes, deleting the self-selected node when the self-selected node is inconsistent with the corresponding circulation node of the preset circulation unit, and taking the self-selected node as the circulation node of the corresponding preset circulation unit.

It can be understood that the self-selected node can be selected by a user, and the self-selected node selected by the user is the corresponding circulation node of the corresponding preset circulation unit, so that when the self-selected node is inconsistent with the circulation node of the corresponding preset circulation unit, the circulation node can be deleted, and the self-selected node is used as the circulation node of the corresponding preset circulation unit.

And S223, connecting all the circulation nodes according to the service circulation direction to obtain the circulation chain.

After updating the corresponding circulation nodes of each preset circulation unit, a plurality of circulation nodes can be connected according to the service circulation direction to obtain a circulation chain.

By the method, the circulation chain can be customized according to the requirements of users.

S3, generating a flow rotating shaft according to the flow chain, wherein the flow rotating shaft comprises flow grooves corresponding to all the flow nodes, and each flow groove comprises a plurality of prompting grooves and data grooves corresponding to the prompting grooves.

It can be understood that, in order to enable the user to view the data in the circulation service, the scheme also generates a circulation shaft corresponding to the circulation chain, so that corresponding circulation data can be generated through the circulation shaft subsequently and sent to the user for viewing.

The specific implementation manner of step S3 based on the above embodiment may be:

s31, constructing an initial shaft corresponding to each circulation node, and constructing a prompt slot corresponding to the corresponding circulation node at the beginning position of the initial shaft.

It will be appreciated that the service data corresponding to each of the flow nodes may be different, so in order to enable the user to know which flow node the corresponding service data corresponds to, the present solution generates a prompting slot corresponding to the flow node at the beginning position of the initial axis, so that the corresponding prompting data may be filled in the slot later to prompt the user which flow node corresponding to the next service data corresponds to.

S32, acquiring a plurality of preset data labels corresponding to each circulation node, constructing necessary slots corresponding to each data label, and adding corresponding slot position labels for each necessary slot according to the data labels.

In practical applications, the circulation node may have service data that cannot be absent when performing service circulation, for example, for the circulation node corresponding to the purchasing unit, invoice data and purchase order data corresponding to the circulation node during purchasing may not be missing data, for these data, corresponding necessary slots may be constructed to display the circulation node, and in order to enable the necessary slots to correspond to the corresponding necessary data, corresponding slot position tags may be further added to each necessary slot according to the data tags, so that corresponding necessary data may be filled into corresponding necessary slots through the corresponding data tags and slot position tags in the following process.

S33, generating a supplement groove corresponding to the circulation node according to the preset supplement quantity corresponding to the circulation node.

It can be understood that, besides the necessary data corresponding to the circulation node, the user may also supplement the presentation data corresponding to the circulation node according to the self-requirement, so that the supplement slots corresponding to the circulation node can be generated according to the preset supplement number, and the user self-supplement data can be filled in the supplement slots.

S34, after the necessary grooves and the supplementary grooves corresponding to the circulation nodes are placed in the corresponding prompting grooves, circulation grooves corresponding to the circulation nodes are generated according to the prompting grooves, the necessary grooves and the supplementary grooves.

It can be understood that the prompting slot is used for prompting the user which service data corresponding to the circulation node corresponds to the next data, and the necessary slot and the supplementary slot are used for displaying specific service data, so that the necessary slot and the supplementary slot can be placed behind the prompting slot, and the circulation slots corresponding to the corresponding circulation nodes can be generated according to the prompting slot, the necessary slot and the supplementary slot.

And S35, updating the initial shaft according to the circulation groove to obtain sub-stream rotating shafts corresponding to the circulation nodes.

In practical application, the slots in the circulation slot can be arranged according to a preset sequence, so that sub-stream rotating shafts corresponding to the circulation nodes can be generated.

And S36, connecting the sub-circulation axes according to the service sequence of each circulation node to obtain a circulation axis.

In practical application, when the service data corresponding to the plurality of stream nodes are displayed, the service data corresponding to the plurality of stream nodes can be displayed according to the service sequence, so that each sub-stream rotating shaft can be connected through the service sequence when the stream rotating shaft is generated.

S4, acquiring filling data corresponding to each circulation node, updating the circulation groove according to the circulation chain and the filling data, and sending the obtained circulation data to the first user terminal.

The filling data refers to service data corresponding to each circulation node, and the service data comprises necessary data corresponding to the circulation node and supplementary data uploaded by a user.

In some embodiments, the update processing may be performed on the circulation slot according to the circulation chain and the padding data, so as to obtain circulation data, and send the circulation data to the first user terminal:

s41, generating prompt images corresponding to the circulation nodes according to the circulation chains, and filling the prompt images into prompt grooves corresponding to the circulation nodes.

Specifically, the above mentioned prompt image may be generated and filled into the corresponding prompt slot by the following steps:

s411, sequentially acquiring the circulation nodes in the circulation chain as target nodes, and calling preset pixel values to perform protruding display on the target nodes to obtain protruding interfaces corresponding to the target nodes.

And S412, generating a prompt image corresponding to the circulation node according to the salient interface, and filling the prompt image into a prompt slot corresponding to the circulation node.

It can be understood that, in order to enable a user to know service data corresponding to each circulation node, when a prompt image corresponding to each circulation node is generated, the corresponding circulation node can be highlighted, when the highlighting is performed, a preset pixel value is called to update the pixel value of the corresponding circulation node, and then the obtained highlighting interface is used for generating the prompt image corresponding to the corresponding circulation node and filling the prompt image into the corresponding prompt slot.

S42, acquiring a plurality of necessary images corresponding to each circulation node, wherein each necessary image is preset with a corresponding data tag.

It will be appreciated that in order to learn the business information corresponding to each necessary image, a corresponding data tag may be added to each necessary image, for example, if the necessary image corresponds to invoice data, a data tag related to the invoice may be added thereto.

S43, determining a necessary image corresponding to each necessary slot as a target image according to the slot position label and the data label, and filling the target image into the corresponding necessary slot.

When determining the target image corresponding to each necessary slot, the necessary image corresponding to the same data tag as the slot tag may be taken as the target image of the corresponding necessary slot.

In addition, if there is no necessary image corresponding to the necessary slot, the filling data corresponding to the corresponding necessary slot can be obtained by:

s431, if the necessary image corresponding to the necessary groove does not exist, a blank image is called, wherein the blank image comprises a preset missing filling area.

It can be understood that the corresponding missing fill area is preset for the blank image, so that the missing image corresponding to the corresponding necessary image can be generated later according to the blank image, and the missing image can be used for telling the user what the missing data is.

S432, generating a missing field according to the slot position label corresponding to the necessary slot, updating the missing filling area based on the missing field to obtain a missing image, and filling the missing image into the necessary slot.

For example, if the service data corresponding to the slot label is an invoice, the missing field may be an invoice, so that what the missing specific data is may be shown through the missing field.

S44, receiving the supplementary image uploaded by the first user terminal based on the corresponding circulation node, randomly filling the supplementary image into a supplementary groove corresponding to the corresponding circulation node, obtaining circulation data, and sending the circulation data to the first user terminal, wherein the filling data comprises necessary images and supplementary images.

It should be noted that if there are additional slots left after the additional images uploaded by the user are filled, the corresponding additional slots may be deleted.

By the method, the data in the service circulation process can be displayed to the user for corresponding viewing, and corresponding references are provided for the user when the user processes the service.

Referring to fig. 2, a schematic structural diagram of a data platform chain information interaction system based on full scene linkage according to an embodiment of the present invention includes:

the basic module is used for receiving a target scene input by a first user terminal, and calling a preset circulation unit corresponding to the target scene to generate a basic chain;

The matching module is used for acquiring a node matching request of the first user side, matching the circulating nodes of the basic chain according to the node matching request to obtain a circulating chain, wherein the node matching request comprises an automatic matching request and a customized matching request;

the groove position module is used for generating a flow rotating shaft according to the flow chain, the flow rotating shaft comprises flow grooves corresponding to the flow nodes, and the flow grooves comprise a plurality of prompting grooves and data grooves corresponding to the prompting grooves;

and the filling module is used for acquiring filling data corresponding to each circulation node, updating the circulation groove according to the circulation chain and the filling data, obtaining circulation data and transmitting the circulation data to the first user terminal.

The apparatus of the embodiment shown in fig. 2 may be correspondingly used to perform the steps in the embodiment of the method shown in fig. 1, and the implementation principle and technical effects are similar, and are not repeated here.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (14)

1. The full scene linkage-based data platform chain type information interaction method is characterized by comprising the following steps of:

receiving a target scene input by a first user terminal, and calling a preset circulation unit corresponding to the target scene to generate a basic chain;

obtaining a node matching request of the first user side, matching the circulating nodes of the basic chain according to the node matching request to obtain a circulating chain, wherein the node matching request comprises an automatic matching request and a customized matching request;

generating a flow rotating shaft according to the flow chain, wherein the flow rotating shaft comprises flow grooves corresponding to all the flow nodes, and the flow grooves comprise a plurality of prompting grooves and data grooves corresponding to the prompting grooves;

and acquiring filling data corresponding to each circulation node, updating the circulation groove according to the circulation chain and the filling data, and sending the obtained circulation data to the first user terminal.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

receiving a target scene input by a first user terminal, and calling a preset circulation unit corresponding to the target scene to generate a basic chain, wherein the method comprises the following steps:

receiving a service request of the first user side, and calling a scene interface to send to the first user side, wherein the scene interface comprises a plurality of preset service scenes;

Acquiring a service scene selected by the first user side based on the scene interface as a target scene, and calling a plurality of preset circulation units corresponding to the target scene;

and connecting the preset circulation units according to the service circulation direction to obtain a basic chain.

3. The method of claim 2, wherein the step of determining the position of the substrate comprises,

obtaining a node matching request of the first user side, matching the circulating nodes of the basic chain according to the node matching request to obtain the circulating chain, wherein the node matching request comprises an automatic matching request and a customized matching request, and the method comprises the following steps:

receiving an automatic matching request input by the first user terminal, and invoking an automatic matching strategy to match the circulating nodes of the basic chain to obtain a circulating chain; or alternatively, the first and second heat exchangers may be,

and receiving a customized matching request input by the first user terminal, and calling the customized matching request to match the circulation nodes of the basic chain to obtain the circulation chain.

4. The method of claim 3, wherein the step of,

receiving an automatic matching request input by the first user terminal, invoking an automatic matching strategy to match the circulating nodes of the basic chain to obtain a circulating chain, and comprising the following steps:

Receiving an automatic matching request input by the first user side, and acquiring a plurality of available nodes in an available state corresponding to each preset circulation unit in the basic chain;

randomly determining any one available node as a corresponding circulation node of the corresponding preset circulation unit, and connecting all circulation nodes according to the service circulation direction to obtain the circulation chain.

5. The method of claim 3, wherein the step of,

receiving a customized matching request input by the first user side, calling the customized matching request to match the basic chain with a circulation node, and obtaining a circulation chain, wherein the method comprises the following steps:

receiving a customized matching request input by the first user side, and generating a customized interface according to the circulation attribute of each preset circulation unit, wherein the circulation attribute is a designated attribute, a fixed attribute or a self-selected attribute;

determining a circulation node corresponding to each preset circulation unit in the basic chain according to the interaction information of the first user side on the customized interface;

and connecting all the circulation nodes according to the service circulation direction to obtain the circulation chain.

6. The method of claim 5, wherein the step of determining the position of the probe is performed,

Receiving a customized matching request input by the first user terminal, and generating a customized interface according to the circulation attribute of each preset circulation unit, wherein the customized interface comprises the following steps:

responding to a customized matching request, calling an initial interface, and arranging a plurality of preset circulation units in the initial interface from top to bottom in sequence according to the service circulation direction;

all available nodes of the preset circulation unit with the appointed attribute are called, displayed on the right side of the corresponding preset circulation unit, and marked as appointed nodes;

a circulation node of a preset circulation unit with the fixed attribute is called and displayed on the right side of the corresponding preset circulation unit, and is marked as a fixed node;

and calling all available nodes of the preset circulation unit with the self-selected attribute, displaying the nodes on the right side of the corresponding preset circulation unit, marking the nodes as self-selected nodes, and generating the customized interface.

7. The method of claim 6, wherein the step of providing the first layer comprises,

according to the interaction information of the first user side on the customized interface, determining a circulation node corresponding to each preset circulation unit in the basic chain comprises the following steps:

receiving interaction information of the first user side to any designated node, and when the designated node is inconsistent with the corresponding circulation node of the preset circulation unit, sending the designated node to a management side of the corresponding preset circulation unit;

Determining that the designated node is a circulation node corresponding to the preset circulation unit according to the determination information of the corresponding management end on the designated node;

and receiving interaction information of the first user side to any self-selected node, deleting the self-selected node when the self-selected node is inconsistent with the corresponding circulation node of the preset circulation unit, and taking the self-selected node as the circulation node of the corresponding preset circulation unit.

8. The method of claim 1, wherein the step of determining the position of the substrate comprises,

generating a flow rotating shaft according to the flow chain, wherein the flow rotating shaft comprises flow grooves corresponding to all flow nodes, each flow groove comprises a plurality of prompting grooves, and a data groove corresponding to each prompting groove, and the flow rotating shaft comprises:

constructing an initial shaft corresponding to each circulation node, and constructing a prompting groove corresponding to the corresponding circulation node at the beginning position of the initial shaft;

acquiring a plurality of preset data labels corresponding to each circulation node, constructing necessary slots corresponding to each data label, and adding corresponding slot position labels for each necessary slot according to the data labels;

generating a supplement groove corresponding to the circulation node according to the preset supplement quantity corresponding to the circulation node;

After the necessary grooves and the supplementary grooves corresponding to the circulation nodes are placed in the corresponding prompting grooves, generating circulation grooves corresponding to the circulation nodes according to the prompting grooves, the necessary grooves and the supplementary grooves;

updating the initial shaft according to the circulation groove to obtain sub-stream rotating shafts corresponding to the circulation nodes;

and connecting the sub-stream axles according to the service sequence of the stream nodes to obtain stream axles.

9. The method of claim 7, wherein the step of determining the position of the probe is performed,

acquiring filling data corresponding to each circulation node, updating the circulation groove according to the circulation chain and the filling data, and sending the obtained circulation data to the first user terminal, wherein the method comprises the following steps:

generating a prompt image corresponding to each circulation node according to the circulation chain, and filling the prompt image into a prompt slot corresponding to the corresponding circulation node;

acquiring a plurality of necessary images corresponding to each circulation node, wherein each necessary image is preset with a corresponding data tag;

determining a necessary image corresponding to each necessary slot as a target image according to the slot position label and the data label, and filling the target image into the corresponding necessary slot;

And receiving the supplementary image uploaded by the first user terminal based on the corresponding circulation node, randomly filling the supplementary image into a supplementary groove corresponding to the corresponding circulation node, obtaining circulation data, and sending the circulation data to the first user terminal, wherein the filling data comprises necessary images and supplementary images.

10. The method of claim 9, wherein the step of determining the position of the substrate comprises,

generating a prompt image corresponding to each circulation node according to the circulation chain, and filling the prompt image into a prompt slot corresponding to the corresponding circulation node, wherein the method comprises the following steps:

sequentially acquiring a circulation node in the circulation chain as a target node, and calling a preset pixel value to perform highlighting on the target node to obtain a highlighting interface corresponding to the target node;

and generating a prompt image corresponding to the circulation node according to the salient interface, and filling the prompt image into a prompt slot corresponding to the circulation node.

11. The method as recited in claim 9, further comprising:

if the necessary image corresponding to the necessary groove does not exist, a blank image is called, and the blank image comprises a preset missing filling area;

Generating a missing field according to the slot position label corresponding to the necessary slot, updating the missing filling area based on the missing field to obtain a missing image, and filling the missing image into the necessary slot.

12. The utility model provides a data platform chain information interaction system based on full scene linkage which characterized in that includes:

the basic module is used for receiving a target scene input by a first user terminal, and calling a preset circulation unit corresponding to the target scene to generate a basic chain;

the matching module is used for acquiring a node matching request of the first user side, matching the circulating nodes of the basic chain according to the node matching request to obtain a circulating chain, wherein the node matching request comprises an automatic matching request and a customized matching request;

the groove position module is used for generating a flow rotating shaft according to the flow chain, the flow rotating shaft comprises flow grooves corresponding to the flow nodes, and the flow grooves comprise a plurality of prompting grooves and data grooves corresponding to the prompting grooves;

and the filling module is used for acquiring filling data corresponding to each circulation node, updating the circulation groove according to the circulation chain and the filling data, obtaining circulation data and transmitting the circulation data to the first user terminal.

13. An electronic device, comprising: a memory, a processor and a computer program stored in the memory, the processor running the computer program to perform the method of any one of claims 1 to 11.

14. A readable storage medium, characterized in that a computer program is stored in the readable storage medium, which computer program, when being executed by a processor, is adapted to carry out the method of any one of claims 1 to 11.