Data transfer record display method and device, storage medium and electronic equipment

By detecting and modifying duplicate data transfer source addresses in cryptocurrency transaction records, a target data transfer traceability diagram is generated, solving the problem of unintuitive data transfer record display in existing technologies and achieving accurate and intuitive display of data transfer records.

CN122175680APending Publication Date: 2026-06-09BEIJING HONGTENG INTELLIGENT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
BEIJING HONGTENG INTELLIGENT TECH CO LTD
Filing Date
2024-12-06
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing methods of displaying data transfer records lack intuitiveness in the cryptocurrency trading market, and the tabular format cannot effectively show the complex relationships in transaction records.

Method used

By detecting duplicate data transfer source addresses in the target data transfer link information, the duplicate data transfer source nodes are identified, and node modification processing is performed to generate recommended node information, update the data transfer link information, and finally display the target data transfer traceability map.

Benefits of technology

It enables an intuitive display of data transfer records, avoids data conflicts and inconsistencies, and improves the visualization of transaction records.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This application discloses a method, apparatus, storage medium, and electronic device for displaying data transfer records. The method involves determining target data transfer link information for a target data transfer source node, performing duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information to determine duplicate data transfer source addresses and at least two corresponding reference data transfer source nodes, modifying the at least two reference data transfer source nodes based on the duplicate data transfer source addresses to obtain recommended node information for the at least two reference data transfer source nodes, updating the target data transfer link information based on the recommended node information to obtain updated target data transfer link information, and displaying a target data transfer traceability diagram of the target data transfer source node based on the updated target data transfer link information. This application improves the intuitiveness of displaying data transfer records.
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Description

Technical Field

[0001] This application relates to the field of computer technology, and specifically to a method, apparatus, storage medium, and electronic device for displaying data transfer records. Background Technology

[0002] In the current data transfer market, such as the cryptocurrency trading market, users or related institutions typically rely on the query functions provided by exchanges or wallets when querying cryptocurrency transaction records. These functions mostly display transaction records in tabular form, including key information such as transaction time, transaction amount, transaction price, and transaction type (e.g., buy, sell). However, while this tabular display method provides detailed data, it is not intuitive enough in presenting the data transfer records. Summary of the Invention

[0003] This application provides a method, apparatus, storage medium, and electronic device for displaying data transfer records, which can improve the intuitiveness of displaying data transfer records.

[0004] In a first aspect, embodiments of this application provide a method for displaying data transfer records, including:

[0005] Determine the target data transfer link information for the target data transfer source node, perform duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtain the target detection result;

[0006] If the target detection result is a node address duplication type, then based on the target detection result, determine the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address;

[0007] Based on the duplicate data transfer source address, the node modification process is performed on the at least two reference data transfer source nodes to obtain recommended node information for the at least two reference data transfer source nodes;

[0008] The target data transfer link information is updated based on the recommended node information to obtain the target updated data transfer link information. The target data transfer source map of the target data transfer source node is then displayed based on the target updated data transfer link information.

[0009] In some implementations, the step of modifying the at least two reference data transfer source nodes based on the duplicate data transfer source address to obtain recommended node information for at least two reference data transfer source nodes includes:

[0010] Based on the duplicate data transfer source address, the duplicate node address of the reference data transfer source node is modified to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0011] The process of updating the target data transfer link information based on the recommended node information includes:

[0012] The target data transfer link information is updated based on the recommended data transfer source address corresponding to the reference data transfer source node.

[0013] In some implementations, the step of modifying the duplicate node address of the reference data transfer source node based on the duplicate data transfer source address to obtain the recommended data transfer source address corresponding to the reference data transfer source node includes:

[0014] Identify at least one modified data transfer source node from the reference data transfer source nodes;

[0015] Determine the address offset character for the duplicate data transfer source address of the modified data transfer source node, and perform duplicate node address modification processing on the duplicate data transfer source address of the modified data transfer source node based on the address offset character to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0016] In some implementations, determining the address offset character for the duplicate data transfer source address of the modified data transfer source node includes:

[0017] Determine the current timestamp information and the repeating node sequence number for the source node of the modified data transfer;

[0018] The address offset character of the duplicate data transfer source address is generated based on the current timestamp information and the duplicate node sequence number.

[0019] In some implementations, displaying the target data transfer source node's target data transfer traceability graph based on the target updated data transfer link information includes:

[0020] Based on the target updated data transfer link information, load the target data transfer source node's target data transfer traceability graph;

[0021] During the loading of the target data transfer traceability graph, all reference data transfer source nodes are processed to display nodes as having the same origin.

[0022] In some implementations, the node same-source display processing for all reference data transfer source nodes includes:

[0023] Determine the graph node display mode for all the aforementioned reference data transfer source nodes;

[0024] The same graph node display mode is used to display all the reference data transfer source nodes in the target data transfer traceability graph;

[0025] In this context, the data transfer source address is different for each of the reference data transfer source nodes in the target update data transfer tracing diagram.

[0026] In some implementations, determining the graph node display mode for all the reference data transfer source nodes includes:

[0027] Determine the display color of the graph nodes for all the aforementioned reference data transfer source nodes;

[0028] Based on the graph node display colors, a graph node display mode is generated for all the reference data transfer source nodes.

[0029] Secondly, embodiments of this application also provide a data transfer record display device, comprising:

[0030] The first determining module is used to determine the target data transfer link information for the target data transfer source node, perform duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtain the target detection result.

[0031] The second determining module is used to determine, based on the target detection result, the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address if the target detection result is a node address duplication type.

[0032] The modification module is used to perform node modification processing on the at least two reference data transfer source nodes based on the duplicate data transfer source address, so as to obtain recommended node information of the at least two reference data transfer source nodes;

[0033] The display module is used to update the target data transfer link information based on the recommended node information to obtain the target updated data transfer link information, and to display the target data transfer source map of the target data transfer source node based on the target updated data transfer link information.

[0034] In some implementations, the module is modified to:

[0035] Based on the duplicate data transfer source address, the duplicate node address of the reference data transfer source node is modified to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0036] In some implementations, the display module is used for:

[0037] The target data transfer link information is updated based on the recommended data transfer source address corresponding to the reference data transfer source node.

[0038] In some implementations, the module is modified to:

[0039] Identify at least one modified data transfer source node from the reference data transfer source nodes;

[0040] Determine the address offset character for the duplicate data transfer source address of the modified data transfer source node, and perform duplicate node address modification processing on the duplicate data transfer source address of the modified data transfer source node based on the address offset character to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0041] In some implementations, the module is modified to:

[0042] Determine the current timestamp information and the repeating node sequence number for the source node of the modified data transfer;

[0043] The address offset character of the duplicate data transfer source address is generated based on the current timestamp information and the duplicate node sequence number.

[0044] In some implementations, the display module is used for:

[0045] Based on the target updated data transfer link information, load the target data transfer source node's target data transfer traceability graph;

[0046] During the loading of the target data transfer traceability graph, all reference data transfer source nodes are processed to display nodes as having the same origin.

[0047] In some implementations, the display module is used for:

[0048] Determine the graph node display mode for all the aforementioned reference data transfer source nodes;

[0049] The same graph node display mode is used to display all the reference data transfer source nodes in the target data transfer traceability graph;

[0050] In this context, the data transfer source address is different for each of the reference data transfer source nodes in the target update data transfer tracing diagram.

[0051] In some implementations, the display module is used for:

[0052] Determine the display color of the graph nodes for all the aforementioned reference data transfer source nodes;

[0053] Based on the graph node display colors, a graph node display mode is generated for all the reference data transfer source nodes.

[0054] Thirdly, embodiments of this application also provide a computer-readable storage medium having a computer program stored thereon, which, when run on a computer, causes the computer to perform a data transfer record display method as provided in any embodiment of this application.

[0055] Fourthly, embodiments of this application also provide an electronic device, including a processor and a memory, the memory having a computer program, and the processor executing a data transfer record display method as provided in any embodiment of this application by calling the computer program.

[0056] The technical solution provided in this application determines the target data transfer link information for the target data transfer source node, performs duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtains the target detection result. If the target detection result is a duplicate node address type, then based on the target detection result, the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address are determined. Based on the duplicate data transfer source address, the at least two reference data transfer source nodes are modified to obtain recommended node information for the at least two reference data transfer source nodes. Based on the recommended node information, the target data transfer link information is updated to obtain updated target data transfer link information. Based on the updated target data transfer link information, the target data transfer traceability diagram of the target data transfer source node is displayed. In this application, by modifying the duplicate data transfer source address in the target data transfer link information of the target data transfer source node and generating a target data transfer traceability diagram for the target data transfer source node based on the modified target data transfer link information, the data transfer records corresponding to the target data transfer source node can be displayed intuitively. Attached Figure Description

[0057] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0058] Figure 1 This is a schematic diagram of a first method for displaying data transfer records provided in an embodiment of this application.

[0059] Figure 2This is a second flowchart illustrating the method for displaying data transfer records provided in an embodiment of this application.

[0060] Figure 3 A schematic diagram of the structure of the data transfer record display device provided in the embodiments of this application.

[0061] Figure 4 This is a schematic diagram of a first structure of an electronic device provided in an embodiment of this application.

[0062] Figure 5 This is a schematic diagram of a second structure of an electronic device provided in an embodiment of this application. Detailed Implementation

[0063] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of them. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the protection scope of this application.

[0064] In this document, the term "embodiment" means that a particular feature, structure, or characteristic described in connection with an embodiment may be included in at least one embodiment of this application. The appearance of this phrase in various places throughout the specification does not necessarily refer to the same embodiment, nor is it a separate or alternative embodiment mutually exclusive with other embodiments. It will be explicitly and implicitly understood by those skilled in the art that the embodiments described herein can be combined with other embodiments.

[0065] This application provides a method for displaying data transfer records. The entity executing this method can be the data transfer record display device provided in this application, or an electronic device integrating the data transfer record display device. The data transfer record display device can be implemented in hardware or software. The electronic device can be a smartphone, tablet computer, PDA, laptop computer, or desktop computer, etc.

[0066] Please see Figure 1 , Figure 1 This is a schematic diagram of a first flowchart illustrating a method for displaying data transfer records according to an embodiment of this application. The specific flow of the method for displaying data transfer records according to an embodiment of this application can be as follows:

[0067] S110. Determine the target data transfer link information for the target data transfer source node, perform duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtain the target detection result.

[0068] In this context, the data transfer source node corresponds to the data transfer source address. The data transfer source address refers to the address where data is transferred or migrated during the data migration process; that is, the physical or logical location of the data during the migration. The data transfer source address can receive data transferred from other data transfer source addresses, and it can also transfer data to other data transfer source addresses. For example, the data transfer amount can be cryptocurrency, and the data transfer source address can be a specific cryptocurrency address. This cryptocurrency address can receive cryptocurrency transferred from other cryptocurrency addresses, and it can also transfer cryptocurrency to other cryptocurrency addresses. In this application, the data transfer source address is used as a graph node for graph construction; here, the graph node corresponding to the data transfer source address is called the data transfer source node.

[0069] In this context, a data transfer link refers to the path data takes from its source address to its destination address, including both physical and logical paths. The physical path involves the actual transmission path of data within the network, while the logical path involves the data processing flow within the system. For example, a data transfer link could be a cryptocurrency transaction link.

[0070] The target data transfer source node refers to the data transfer source node selected by the user for which data transfer link information needs to be queried.

[0071] The target data transfer link information refers to the data transfer information of the target data transfer source address corresponding to the target data transfer source node during data transfer. This data transfer information may include, for example, the upstream data transfer source address that transfers data to the target data transfer source address; the downstream data transfer source address that receives data transferred out of the target data transfer source address; the amount of data transferred in or out; and the time of transfer, etc. For example, when the data transfer source address is a cryptocurrency address, the corresponding data transfer link is also the corresponding cryptocurrency transaction link. Specifically, the cryptocurrency transaction link involves the entire transfer process of cryptocurrency from buyer to seller, which typically includes multiple stages such as transaction initiation, fund payment, and cryptocurrency settlement.

[0072] The duplicate data transfer source address detection process involves detecting whether the target data transfer link information includes a data transfer source node with a duplicate data transfer source address. The detection result has two types: one is a duplicate node address type, meaning the target data transfer link information includes a data transfer source node with a duplicate data transfer source address; the other is a non-duplicate node address type, meaning the target data transfer link information does not include a data transfer source node with a duplicate data transfer source address.

[0073] S120. If the target detection result is a node address duplication type, then determine the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address based on the target detection result.

[0074] It should be noted that when the target data transfer link information includes a data transfer source node with a duplicate data transfer source address, it means that at least two data transfer source nodes are duplicates, and the duplicate data transfer source node is recorded as the reference data transfer source node.

[0075] In this embodiment, if the target detection result is a node address duplication type, that is, the target data transfer link information includes a data transfer source node with a duplicate data transfer source address, then the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address are determined based on the target detection result.

[0076] It should be noted that duplicate data transfer source addresses can include multiple groups, each with a different data transfer source address and potentially a different number of repetitions. The data transfer source nodes corresponding to these duplicate data transfer source addresses are actually the same node. For example, if there are four groups of duplicate data transfer source addresses: a, b, c, and d, where a is repeated twice, b three times, c five times, and d six times, the data source nodes corresponding to these duplicate data transfer source addresses are the reference data transfer source nodes. There must be at least two such reference data transfer source nodes. The reference data transfer source nodes corresponding to the same duplicate data transfer source address are identical nodes.

[0077] S130. Based on the duplicate data transfer source address, perform node modification processing on at least two reference data transfer source nodes to obtain recommended node information for at least two reference data transfer source nodes.

[0078] In this embodiment, after detecting that the target data transfer link information includes a data transfer source node with a duplicate data transfer source address, at least two reference data transfer source nodes are modified based on the duplicate data transfer source address. That is, the data transfer source address corresponding to the reference data transfer source node is modified to obtain the modified data transfer source address, and the modified data transfer source address is used as the recommended node information.

[0079] S140. Update the target data transfer link information based on the recommended node information to obtain the target updated data transfer link information, and display the target data transfer source map of the target data transfer source node based on the target updated data transfer link information.

[0080] In this embodiment, the target data transfer link information is updated based on the recommended node information. That is, the data transfer source address corresponding to the data transfer source node with duplicate data transfer source address in the target data transfer link information is modified to make the data transfer source address corresponding to the data transfer source node in the target data transfer link information unique. The target data transfer link information is updated based on the data transfer source node with the modified data transfer source address to obtain the target updated data transfer link information. Then, a target data transfer tracing graph for the target data transfer source node is generated based on the target updated data transfer link information and the target data transfer tracing graph is displayed.

[0081] In this embodiment, the target data transfer source node is queried to obtain the corresponding target data transfer link information. The data transfer source nodes with duplicate data transfer source addresses in the target data transfer link information are modified to change their corresponding data transfer source addresses. The target updated data transfer link information is obtained based on the modification and update. The data transfer source addresses corresponding to the data transfer nodes in the target updated data transfer link information are unique. The target data transfer traceability graph for the target data transfer source node is generated through the target updated data transfer link information, which ensures the uniqueness of the node IDs of the generated graph, avoids data conflicts and inconsistencies, and improves the accuracy of graph generation.

[0082] In practice, this application is not limited by the execution order of the described steps. Without causing conflicts, some steps may be performed in other orders or simultaneously.

[0083] As can be seen from the above, the data transfer record display method provided in this application embodiment determines the target data transfer link information for the target data transfer source node, performs duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, obtains the target detection result, and if the target detection result is a duplicate node address type, then determines the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address based on the target detection result, performs node modification processing on the at least two reference data transfer source nodes based on the duplicate data transfer source address, obtains recommended node information for the at least two reference data transfer source nodes, updates the target data transfer link information based on the recommended node information, obtains updated target data transfer link information, and displays the target data transfer traceability diagram of the target data transfer source node based on the updated target data transfer link information. In this application, by modifying the duplicate data transfer source address in the target data transfer link information of the target data transfer source node and generating a target data transfer traceability diagram for the target data transfer source node based on the modified target data transfer link information, the data transfer record corresponding to the target data transfer source node can be displayed intuitively.

[0084] Based on the methods described in the preceding embodiments, the following examples will provide further detailed explanations.

[0085] Please see Figure 2 , Figure 2 This is a second flowchart illustrating the data transfer record display method provided in an embodiment of this application.

[0086] The methods include:

[0087] S210. Determine the target data transfer link information for the target data transfer source node, perform duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtain the target detection result.

[0088] Specifically, S210 is the same as S110, and will not be repeated here.

[0089] S220. If the target detection result is a node address duplication type, then determine the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address based on the target detection result.

[0090] Specifically, S220 is the same as S120, and will not be repeated here.

[0091] S230. Based on the duplicate data transfer source address, modify the duplicate node address of the reference data transfer source node to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0092] In this embodiment, after detecting that the target data transfer link information includes a data transfer source node with a duplicate data transfer source address, at least two reference data transfer source nodes are modified based on the duplicate data transfer source address. That is, the data transfer source address corresponding to the reference data transfer source node is modified to obtain the recommended data transfer source address corresponding to the reference data transfer source node. This recommended data transfer source address is also the recommended node information of the reference data transfer source node.

[0093] It is understandable that the recommended data source transfer address is the updated address corresponding to the duplicate node in the target data transfer link information.

[0094] In some implementations, step S230, "modifying the duplicate node address of the reference data transfer source node based on the duplicate data transfer source address to obtain the recommended data transfer source address corresponding to the reference data transfer source node," may include the following steps S2301 to S2302:

[0095] S2301. Determine at least one modified data transfer source node from the reference data transfer source nodes;

[0096] Modifying the data transfer source node refers to the data transfer source node whose data transfer source address needs to be modified.

[0097] It should be noted that this application requires modifying the addresses of data transfer source nodes with duplicate data transfer source addresses in the target data transfer link information to unique addresses. Therefore, it is necessary to determine the data transfer source nodes whose addresses need to be modified from the reference data transfer sources. At least one of these data transfer source nodes needs to be modified, denoted as the modified data transfer source node. For example, if two nodes are detected to have duplicate addresses, then at least one of the nodes' addresses needs to be modified to ensure address uniqueness.

[0098] S2302. Determine the address offset character for the duplicate data transfer source address of the modified data transfer source node, and perform duplicate node address modification processing on the duplicate data transfer source address of the modified data transfer source node based on the address offset character to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0099] The address offset character is used to modify duplicate data transfer source addresses, ensuring that the data transfer source address in the target data transfer link information is unique.

[0100] In some implementations, step S2302, "determining the address offset character for the duplicate data transfer source address of the modified data transfer source node," may include the following steps S23021 to S23022:

[0101] S23021. Determine the current timestamp information and the sequence number of the repeating node for the source node of the modified data transfer;

[0102] S23022. Generate the address offset character of the duplicate data transfer source address based on the current timestamp information and the duplicate node sequence number.

[0103] The current timestamp information refers to a unique value automatically generated by a computer system or related device at a specific moment. This value represents the number of milliseconds or seconds that have elapsed from a fixed point in time (usually the start of a computer epoch, such as January 1, 1970, 00:00:00 UTC) to the current moment. This specific moment can be the moment when the device executes step S23021.

[0104] There may be multiple duplicate data transfer source addresses corresponding to the data transfer source nodes. Therefore, it is necessary to assign a duplicate node number to each of these multiple data transfer source nodes to ensure that the address offset characters generated subsequently are unique, thereby guaranteeing that the final generated data transfer source address is unique.

[0105] In this embodiment, once the current timestamp information and the repeating node sequence number for the modified data transfer source node are determined, the address offset character for the duplicate data transfer source address can be generated based on the current timestamp information and the repeating node sequence number. For example, the current timestamp information and the repeating node sequence number for the modified data transfer source node can be added to the duplicate data transfer source address corresponding to the modified data transfer source node, thereby ensuring the uniqueness of the generated data transfer source address.

[0106] S240. Update the target data transfer link information based on the recommended data transfer source address corresponding to the reference data transfer source node to obtain the target updated data transfer link information.

[0107] It should be noted that the reference data transfer source node is the data transfer source node with duplicate data transfer source address in the target data transfer link information, and the recommended data transfer source address is the data transfer source address obtained after the duplicate data transfer source address has been modified by changing the duplicate node address.

[0108] After modifying the data transfer source address corresponding to the data transfer source node in the target data transfer link information, the address information of the data transfer source node in the target data transfer link information is updated based on the modification, thereby obtaining the updated target data transfer link information.

[0109] S250. Based on the target update data transfer link information, load the target data transfer source node target data transfer traceability diagram. During the loading of the target data transfer traceability diagram, perform node same-source display processing on all reference data transfer source nodes.

[0110] The same-source display processing refers to displaying the reference data transfer source nodes corresponding to the same duplicate data transfer source address indicated in the target detection results in the same way. In fact, in the target data transfer link information, data transfer source nodes with the same data source transfer address are the same node. After the address is modified, the data transfer source address corresponding to the data transfer source node in the target updated data transfer link information becomes unique, but in reality, the data transfer source node is still the original data transfer source node. Here, the same-source display processing can show the user the same nodes in the target data transfer traceability diagram.

[0111] In this application, during the loading of the target data transfer traceability diagram, all reference data transfer source nodes are displayed in the same way, that is, the same data transfer source node in the target data transfer traceability diagram is displayed in the same way.

[0112] It should be noted that although the data transfer source address corresponding to the data transfer source node has been modified, it is still the same data transfer source node in essence. Modifying the data transfer source address to make it unique is only to prevent data conflicts when using the data transfer source address corresponding to the data transfer source node as the node ID to generate the traceability graph, thus ensuring the accurate generation of the traceability graph.

[0113] In this embodiment, a target data transfer traceability graph for the target data transfer source node is loaded based on the target updated data transfer link information. Specifically, at least one data transfer record for the target data transfer source address, the upstream data transfer source address corresponding to the data transfer record, and the downstream data transfer source address can be determined based on the target updated data transfer link information. The data transfer relationship is determined based on the target data transfer source address, the upstream data transfer source address, and the downstream data transfer source address. Based on the target data transfer source address, the upstream data transfer source address, the downstream data transfer source address, and the data transfer relationship, a target data transfer traceability graph for the target data transfer source address is generated.

[0114] The data transfer record includes an upstream data transfer source address and a downstream data transfer source address. The upstream data transfer source address is the data transfer source address that sends data to the target data transfer source address, and the downstream data transfer source address is the data transfer source address that receives data transferred out of the target data transfer source address. For example, if the target data transfer source address is the target cryptocurrency address, the cryptocurrency address that sends cryptocurrency to the target cryptocurrency address is the upstream cryptocurrency address, and the cryptocurrency address that receives cryptocurrency transferred out of the target cryptocurrency address is the downstream cryptocurrency address.

[0115] The target update data transfer link information records the objects to which data is transferred from the target data transfer source address, the amount of data transferred, etc. This target update data transfer link information can be determined based on the data transfer records of the target data transfer source address.

[0116] It should be noted that the data transfer relationship includes the data transfer object and the data transfer attributes. The data transfer attributes include transfer out or transfer in. It is understood that this application generates a target data transfer tracing graph for the target data transfer source address. Therefore, when obtaining the data transfer relationship, the target data transfer source address is taken as the focus, and the data transfer relationship between the target data transfer source address and other data transfer source addresses is obtained. For example, the data transfer relationship between the target data transfer source address and the upstream data transfer source address is a transfer in relationship, and the data transfer relationship between the target data transfer source address and the downstream data transfer source address is a transfer out relationship.

[0117] In one possible implementation, the relationship between different data transfer source addresses can be recorded using the following data format: A and B are both data transfer source addresses, and {source:A,target:B} indicates the amount of data transferred from A to B.

[0118] In one implementation, graph relationship data can be generated based on the target data transfer source address, upstream data transfer source address, downstream data transfer source address, and data transfer relationship, and a target data transfer tracing graph can be generated based on the graph relationship data.

[0119] Specifically, graph data parsing is performed based on the target data transfer source address, upstream data transfer source address, downstream data transfer source address, and data transfer relationship to obtain node data and edge data, and the graph relationship data is generated based on the node data and edge data.

[0120] In this embodiment, based on the target data transfer source address, upstream data transfer source address, downstream data transfer source address, and data transfer relationships, a graph data structure can be used to parse and process this data. In the graph data structure, nodes represent objects (such as data transfer source addresses), and edges represent the relationships between these objects (such as data transfers).

[0121] In one example, the source address of the target data transfer is designated as the target node, the upstream data transfer source address is designated as the parent node of the target node, and the downstream data transfer source address is designated as the child node of the target node, thus obtaining the node data. Furthermore, the data transfer relationships between the target node and its parent and child nodes are recorded to obtain the edge data corresponding to the node data.

[0122] After obtaining the node and edge data as described above, graph relationship data can be generated based on the node and edge data. This graph relationship data can also be called graph structure data.

[0123] It should be noted that in this application, the data transfer source address is used as the ID, and the target data transfer traceability diagram is drawn based on this ID.

[0124] In one implementation, when generating a target data transfer traceability map based on graph relationship data, the target data transfer traceability map can be obtained by calling a preset drawing tool through a large data transfer processing model based on the graph relationship data.

[0125] Specifically, the graph relationship data is input into the large data transfer processing model. The large data transfer processing model performs data transfer tracing processing to obtain data transfer node information, data transfer relationship information, data transfer architecture information, and node attribute information. Based on the data transfer node information, data transfer relationship information, data transfer architecture information, and node attribute information, a data transfer graph drawing script for a preset drawing tool is generated. The graph is drawn by executing the data transfer graph drawing script using the preset drawing tool to obtain the target data transfer tracing graph.

[0126] The large-scale data transfer processing model is configured to perform data transfer tracing processing on the input graph relationship data to obtain data transfer node information, data transfer relationship information, data transfer architecture information, and node attribute information. Specifically, data transfer node information refers to the objects being transferred (data transfer source addresses). Data transfer relationship information refers to the relationship between the amounts of data transferred in or out of the objects being transferred. Data transfer architecture information refers to the display architecture between the objects being transferred; for example, this architecture can arrange and display each object or relationship according to chronological order. Node attribute information refers to the attribute information of the data transfer source address, such as the data transfer source address, data transfer source name, and remaining data transfer amount.

[0127] A data transfer chart drawing script is a set of instructions used to guide preset drawing tools in generating graphics. These scripts typically contain all the information needed to create the graphic, such as the type, size, position, color, line thickness, and fill style. The drawing tool then draws the corresponding graphic step-by-step according to the instructions in these scripts. It is understandable that the specific content and format of the data transfer chart drawing script will vary depending on the drawing tool used.

[0128] The default plotting tools can be such as D3.js, Matplotlib, NetworkX, etc.

[0129] In this embodiment, after generating the data transfer graph drawing script, the graph can be drawn using a preset drawing tool to generate the target data transfer traceability graph.

[0130] In one possible implementation, the training process for the above-mentioned large data transfer processing model can be carried out in the following steps (1) to (5):

[0131] (1) Create an initial large-scale data transfer processing model for data transfer record scenarios based on the basic large-scale model;

[0132] Among them, the basic large model can be a model such as BERT or GPT.

[0133] (2) Obtain sample graph relationship data, and label the sample graph relationship data with data transfer graph drawing script labels and data transfer origination graph labels;

[0134] (3) Based on the sample graph relationship data, perform at least one round of model training on the initial data transfer and processing large model;

[0135] (4) During the forward training of the model, the initial data transfer processing large model performs data transfer source tracing processing based on sample graph relationship data to obtain sample data transfer node information, sample data transfer relationship information, sample data transfer architecture information and sample node attribute information. Based on the sample data transfer node information, sample data transfer relationship information, sample data transfer architecture information and sample node attribute information, a prediction data transfer graph drawing script for a preset drawing tool is generated. The prediction data transfer source graph is obtained by executing the prediction data transfer graph drawing script through the preset drawing tool.

[0136] (5) During the reverse training of the model, the model parameters of the initial data transfer processing large model are adjusted based on the predicted data transfer source map and the data transfer source map label until the initial data transfer processing large model finishes model training and the data transfer processing large model is obtained.

[0137] Specifically, the source map generation loss is determined based on the predicted data transfer source map and the data transfer source map label; the script loss is generated based on the predicted data transfer map drawing script and the data transfer map drawing script label; the model comprehensive loss is determined based on the source map generation loss and the script loss; the model parameters of the initial data transfer processing large model are adjusted using the model comprehensive loss until the initial data transfer processing large model finishes model training, thus obtaining the data transfer processing large model.

[0138] Specifically, the source map generation loss is calculated using the first model loss calculation formula based on the predicted data transfer source map and the data transfer source map label; the script loss is calculated using the second model loss calculation formula based on the predicted data transfer map drawing script and the data transfer map drawing script label; and the overall model loss is calculated using the third model loss calculation formula based on the source map generation loss and the script loss.

[0139] The model loss calculation formulas, such as the first model loss calculation formula, the second model loss calculation formula, and the third model loss calculation formula, can be fitted using one or more of the relevant techniques, such as the contrast loss calculation formula, the cross-entropy loss calculation formula, and the hinge loss calculation formula.

[0140] Optionally, the training termination conditions for the initial data transfer processing of the large model may include, for example, the value of the loss function being less than or equal to a preset loss function threshold, or the number of iterations reaching a preset threshold. Specific training termination conditions can be determined based on actual circumstances and are not specifically limited here.

[0141] In some implementations, step S250, "performing node same-source display processing for all reference data transfer source nodes," may include the following steps S2501 to S2502:

[0142] S2501. Determine the graph node display mode for all reference data transfer source nodes;

[0143] S2502. Display all reference data transfer source nodes in the target data transfer traceability diagram using the same graph node display mode;

[0144] In this target update data transfer traceability diagram, each reference data transfer source node has a different data transfer source address, meaning that the data transfer source address corresponding to the data transfer node in the target update data transfer traceability diagram is unique.

[0145] In this context, the graph node display mode refers to the way nodes are presented and represented in the visualization of graph-structured data. Specifically, the display mode can be defined by setting node attributes such as color, size, and shape.

[0146] It should be noted that the graph node display mode is consistent for the same data transfer source node.

[0147] In this embodiment, reference data transfer source nodes that indicate the same data transfer source node are displayed in the target data transfer tracing graph using the same graph node display mode.

[0148] In some implementations, step S2501, "determining the graph node display mode for all reference data transfer source nodes," may include the following steps S25011 to S25012:

[0149] S25011. Determine the display color of the graph nodes for all reference data transfer source nodes;

[0150] S25012. Generate graph node display modes for all reference data transfer source nodes based on graph node display colors.

[0151] In this embodiment, reference data transfer source nodes indicating the same data transfer source node are displayed in the same color to indicate the same data transfer source node in the target data transfer tracing graph. In this embodiment, apart from displaying reference data transfer source nodes indicating the same data transfer source node in the same color, the display parameters in other graph node display modes, such as size and shape, are not specifically limited and can be set according to the actual scenario.

[0152] As can be seen from the above, the data transfer record display method proposed in this application determines the target data transfer link information for the target data transfer source node, performs duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtains the target detection result. If the target detection result is a duplicate node address type, then based on the target detection result, the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address are determined. Based on the duplicate data transfer source address, the reference data transfer source nodes are modified to obtain the recommended data transfer source address corresponding to the reference data transfer source node. Based on the recommended data transfer source address corresponding to the reference data transfer source node, the target data transfer link information is updated to obtain the target updated data transfer link information. Based on the target updated data transfer link information, the target data transfer traceability graph of the target data transfer source node is loaded. During the loading of the target data transfer traceability graph, all reference data transfer source nodes are displayed as having the same node origin. In this application, by modifying the duplicate data transfer source address in the target data transfer link information of the target data transfer source node, and generating a target data transfer data traceability diagram for the target data transfer source node based on the modified target data transfer link information, the data transfer records corresponding to the target data transfer source node can be accurately and intuitively displayed.

[0153] In one embodiment, a data transfer record display device is also provided. Please refer to [link / reference]. Figure 3 , Figure 3 This is a schematic diagram of the structure of a data transfer record display device 300 provided in an embodiment of this application. The data transfer record display device 300 is applied to an electronic device and includes a first determining module 301, a second determining module 302, a modification module 303, and a display module 304, as follows:

[0154] The first determining module 301 is used to determine the target data transfer link information for the target data transfer source node, perform duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtain the target detection result.

[0155] The second determining module 302 is used to determine, based on the target detection result, the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address if the target detection result is a node address duplication type.

[0156] Modification module 303 is used to perform node modification processing on the at least two reference data transfer source nodes based on the duplicate data transfer source address, so as to obtain recommended node information of the at least two reference data transfer source nodes;

[0157] The display module 304 is used to update the target data transfer link information based on the recommended node information to obtain the target updated data transfer link information, and to display the target data transfer source map of the target data transfer source node based on the target updated data transfer link information.

[0158] In some implementations, module 303 is modified to:

[0159] Based on the duplicate data transfer source address, the duplicate node address of the reference data transfer source node is modified to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0160] In some implementations, the display module 304 is used for:

[0161] The target data transfer link information is updated based on the recommended data transfer source address corresponding to the reference data transfer source node.

[0162] In some implementations, module 303 is modified to:

[0163] Identify at least one modified data transfer source node from the reference data transfer source nodes;

[0164] Determine the address offset character for the duplicate data transfer source address of the modified data transfer source node, and perform duplicate node address modification processing on the duplicate data transfer source address of the modified data transfer source node based on the address offset character to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0165] In some implementations, module 303 is modified to:

[0166] Determine the current timestamp information and the repeating node sequence number for the source node of the modified data transfer;

[0167] The address offset character of the duplicate data transfer source address is generated based on the current timestamp information and the duplicate node sequence number.

[0168] In some implementations, the display module 304 is used for:

[0169] Based on the target updated data transfer link information, load the target data transfer source node's target data transfer traceability graph;

[0170] During the loading of the target data transfer traceability graph, all reference data transfer source nodes are processed to display nodes as having the same origin.

[0171] In some implementations, the display module 304 is used for:

[0172] Determine the graph node display mode for all the aforementioned reference data transfer source nodes;

[0173] The same graph node display mode is used to display all the reference data transfer source nodes in the target data transfer traceability graph;

[0174] In this context, the data transfer source address is different for each of the reference data transfer source nodes in the target update data transfer tracing diagram.

[0175] In some implementations, the display module 304 is used for:

[0176] Determine the display color of the graph nodes for all the aforementioned reference data transfer source nodes;

[0177] Based on the graph node display colors, a graph node display mode is generated for all the reference data transfer source nodes.

[0178] It should be noted that the data transfer record display device provided in this application embodiment and the data transfer record display method in the above embodiment belong to the same concept. The data transfer record display device can realize any of the methods provided in the data transfer record display method embodiment. For details of its implementation process, please refer to the data transfer record display method embodiment, which will not be repeated here.

[0179] Furthermore, to better implement the data transfer record display method in the embodiments of this application, based on the data transfer record display method, this application also provides an electronic device, which may be a smartphone, tablet computer, PDA, laptop computer, or desktop computer, etc. Please refer to... Figure 4 , Figure 4 This is a schematic diagram of a first structure of an electronic device provided in an embodiment of this application. The electronic device 400 includes a processor 401 and a memory 402. The processor 401 and the memory 402 are electrically connected.

[0180] The processor 401 is the control center of the electronic device 400. It connects various parts of the electronic device via various interfaces and lines, and executes various functions and processes data by running or calling computer programs stored in the memory 402 and by calling data stored in the memory 402, thereby providing overall monitoring of the electronic device. The processor 401 can be a Central Processing Unit (CPU), or other general-purpose processors, digital signal processors (DSPs), application-specific integrated circuits (ASICs), field-programmable gate arrays (FPGAs), or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc. A general-purpose processor can be a microprocessor or any conventional processor.

[0181] The memory 402 can be used to store computer programs and data. The computer programs stored in the memory 402 contain instructions that can be executed in the processor. The computer programs can be composed of various functional modules. The processor 401 executes various functional applications and data processing by calling the computer programs stored in the memory 402. The memory 402 may mainly include a program storage area and a data storage area. The program storage area may store the operating system, application programs required for at least one function (such as sound playback function, image playback function, etc.), etc.; the data storage area may store data created according to the use of the electronic device 400 (such as audio data, video data, etc.). In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as hard disk, RAM, plug-in hard disk, smart media card (SMC), secure digital (SD) card, flash card, at least one disk storage device, flash memory device, or other volatile solid-state storage device.

[0182] In this embodiment, the processor 401 in the electronic device 400 loads the instructions corresponding to the processes of one or more computer programs into the memory 402 according to the following steps, and the processor 401 runs the computer programs stored in the memory 402 to realize various functions:

[0183] Determine the target data transfer link information for the target data transfer source node, perform duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtain the target detection result;

[0184] If the target detection result is a node address duplication type, then based on the target detection result, determine the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address;

[0185] Based on the duplicate data transfer source address, the node modification process is performed on the at least two reference data transfer source nodes to obtain recommended node information for the at least two reference data transfer source nodes;

[0186] The target data transfer link information is updated based on the recommended node information to obtain the target updated data transfer link information. The target data transfer source map of the target data transfer source node is then displayed based on the target updated data transfer link information.

[0187] In some implementations, please refer to Figure 5 , Figure 5 This is a second structural schematic diagram of the electronic device provided in an embodiment of this application. The electronic device 400 further includes: a radio frequency circuit 403, a display screen 404, a control circuit 405, an input unit 406, an audio circuit 407, a sensor 408, and a power supply 409. The processor 401 is electrically connected to the radio frequency circuit 403, the display screen 404, the control circuit 405, the input unit 406, the audio circuit 407, the sensor 408, and the power supply 409.

[0188] The radio frequency circuit 403 is used to transmit and receive radio frequency signals to communicate with network devices or other electronic devices via wireless communication.

[0189] The display screen 404 can be used to display information input by the user or information provided to the user, as well as various graphical user interfaces of electronic devices, which can be composed of images, text, icons, videos, and any combination thereof.

[0190] The control circuit 405 is electrically connected to the display screen 404 and is used to control the display screen 404 to display information.

[0191] The input unit 406 can be used to receive input numeric or character information or user characteristic information (such as fingerprints), and to generate keyboard, mouse, joystick, optical, or trackball signal inputs related to user settings and function control. The input unit 406 may include a fingerprint recognition module.

[0192] The audio circuit 407 provides an audio interface between the user and the electronic device via a speaker and a microphone. The audio circuit 407 includes a microphone, which is electrically connected to the processor 401. The microphone is used to receive voice information input by the user.

[0193] Sensor 408 is used to collect information about the external environment. Sensor 408 may include one or more sensors such as an ambient light sensor, an accelerometer, and a gyroscope.

[0194] Power supply 409 is used to supply power to various components of electronic device 400. In some embodiments, power supply 409 can be logically connected to processor 401 through a power management system, thereby enabling functions such as charging, discharging, and power consumption management through the power management system.

[0195] Although not shown in the figure, electronic device 400 may also include a camera, Bluetooth module, etc., which will not be described in detail here.

[0196] In this embodiment, the processor 401 in the electronic device 400 loads the instructions corresponding to the processes of one or more computer programs into the memory 402 according to the following steps, and the processor 401 runs the computer programs stored in the memory 402 to realize various functions:

[0197] Determine the target data transfer link information for the target data transfer source node, perform duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtain the target detection result;

[0198] If the target detection result is a node address duplication type, then based on the target detection result, determine the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address;

[0199] Based on the duplicate data transfer source address, the node modification process is performed on the at least two reference data transfer source nodes to obtain recommended node information for the at least two reference data transfer source nodes;

[0200] The target data transfer link information is updated based on the recommended node information to obtain the target updated data transfer link information. The target data transfer source map of the target data transfer source node is then displayed based on the target updated data transfer link information.

[0201] In some implementations, when processor 401 performs the node modification process based on the duplicate data transfer source address to the at least two reference data transfer source nodes to obtain recommended node information for the at least two reference data transfer source nodes, it may perform the following:

[0202] Based on the duplicate data transfer source address, the duplicate node address of the reference data transfer source node is modified to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0203] In some implementations, when processor 401 performs the update process for the target data transfer link information based on the recommended node information, it may perform the following:

[0204] The target data transfer link information is updated based on the recommended data transfer source address corresponding to the reference data transfer source node.

[0205] In some implementations, when processor 401 performs the duplicate node address modification process on the reference data transfer source node based on the duplicate data transfer source address to obtain the recommended data transfer source address corresponding to the reference data transfer source node, it may perform the following:

[0206] Identify at least one modified data transfer source node from the reference data transfer source nodes;

[0207] Determine the address offset character for the duplicate data transfer source address of the modified data transfer source node, and perform duplicate node address modification processing on the duplicate data transfer source address of the modified data transfer source node based on the address offset character to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

[0208] In some implementations, when processor 401 executes the step of determining the address offset character for the duplicate data transfer source address of the modified data transfer source node, it may perform the following:

[0209] Determine the current timestamp information and the repeating node sequence number for the source node of the modified data transfer;

[0210] The address offset character of the duplicate data transfer source address is generated based on the current timestamp information and the duplicate node sequence number.

[0211] In some implementations, when processor 401 executes the process of displaying the target data transfer source node's target data transfer traceability graph based on the target updated data transfer link information, it may perform the following:

[0212] Based on the target updated data transfer link information, load the target data transfer source node's target data transfer traceability graph;

[0213] During the loading of the target data transfer traceability graph, all reference data transfer source nodes are processed to display nodes as having the same origin.

[0214] In some implementations, when processor 401 performs the node same-source display processing for all reference data transfer source nodes, it may perform the following:

[0215] Determine the graph node display mode for all the aforementioned reference data transfer source nodes;

[0216] The same graph node display mode is used to display all the reference data transfer source nodes in the target data transfer traceability graph;

[0217] In this context, the data transfer source address is different for each of the reference data transfer source nodes in the target update data transfer tracing diagram.

[0218] In some implementations, when processor 401 performs the step of determining the graph node display mode for all the reference data transfer source nodes, it may perform the following:

[0219] Determine the display color of the graph nodes for all the aforementioned reference data transfer source nodes;

[0220] Based on the graph node display colors, a graph node display mode is generated for all the reference data transfer source nodes.

[0221] This application also provides a computer-readable storage medium storing a computer program. When the computer program is run on a computer, the computer executes the data transfer record display method described in any of the above embodiments.

[0222] It should be noted that those skilled in the art will understand that all or part of the steps in the various methods of the above embodiments can be implemented by a computer program instructing related hardware. The computer program can be stored in a computer-readable storage medium, which may include, but is not limited to, read-only memory (ROM), random access memory (RAM), magnetic disk or optical disk, etc.

[0223] Furthermore, the terms "first," "second," and "third," etc., used in this application are used to distinguish different objects, not to describe a specific order. Additionally, the terms "comprising" and "having," and any variations thereof, are intended to cover non-exclusive inclusion. For example, a process, method, system, product, or device that includes a series of steps or modules is not limited to the listed steps or modules, but some embodiments may also include steps or modules not listed, or some embodiments may include other steps or modules inherent to these processes, methods, products, or devices.

[0224] The data transfer record display method, apparatus, storage medium, and electronic device provided in the embodiments of this application have been described in detail above. Specific examples have been used to illustrate the principles and implementation methods of this application. The descriptions of the embodiments above are only for the purpose of helping to understand the methods and core ideas of this application; at the same time, those skilled in the art will recognize that, based on the ideas of this application, there will be changes in the specific implementation methods and application scope. Therefore, the content of this specification should not be construed as a limitation of this application.

Claims

1. A method for displaying data transfer records, characterized in that, include: Determine the target data transfer link information for the target data transfer source node, perform duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtain the target detection result; If the target detection result is a node address duplication type, then based on the target detection result, determine the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address; Based on the duplicate data transfer source address, the node modification process is performed on the at least two reference data transfer source nodes to obtain recommended node information for the at least two reference data transfer source nodes; The target data transfer link information is updated based on the recommended node information to obtain the target updated data transfer link information. The target data transfer source map of the target data transfer source node is then displayed based on the target updated data transfer link information.

2. The method according to claim 1, characterized in that, The step of modifying the nodes of the at least two reference data transfer source nodes based on the duplicate data transfer source address to obtain recommended node information for the at least two reference data transfer source nodes includes: Based on the duplicate data transfer source address, the duplicate node address of the reference data transfer source node is modified to obtain the recommended data transfer source address corresponding to the reference data transfer source node. The process of updating the target data transfer link information based on the recommended node information includes: The target data transfer link information is updated based on the recommended data transfer source address corresponding to the reference data transfer source node.

3. The method according to claim 2, characterized in that, The step of modifying the duplicate node address of the reference data transfer source node based on the duplicate data transfer source address to obtain the recommended data transfer source address corresponding to the reference data transfer source node includes: Identify at least one modified data transfer source node from the reference data transfer source nodes; Determine the address offset character for the duplicate data transfer source address of the modified data transfer source node, and perform duplicate node address modification processing on the duplicate data transfer source address of the modified data transfer source node based on the address offset character to obtain the recommended data transfer source address corresponding to the reference data transfer source node.

4. The method according to claim 3, characterized in that, The step of determining the address offset character for the duplicate data transfer source address of the modified data transfer source node includes: Determine the current timestamp information and the repeating node sequence number for the source node of the modified data transfer; The address offset character of the duplicate data transfer source address is generated based on the current timestamp information and the duplicate node sequence number.

5. The method according to claim 1, characterized in that, The process of displaying the target data transfer source node's target data transfer traceability graph based on the target updated data transfer link information includes: Based on the target updated data transfer link information, load the target data transfer source node's target data transfer traceability graph; During the loading of the target data transfer traceability graph, all reference data transfer source nodes are processed to display nodes as having the same origin.

6. The method according to claim 5, characterized in that, The process of displaying all reference data transfer source nodes as originating from the same node includes: Determine the graph node display mode for all the aforementioned reference data transfer source nodes; The same graph node display mode is used to display all the reference data transfer source nodes in the target data transfer traceability graph; In this context, the data transfer source address is different for each of the reference data transfer source nodes in the target update data transfer tracing diagram.

7. The method according to claim 6, characterized in that, The step of determining the graph node display mode for all the reference data transfer source nodes includes: Determine the display color of the graph nodes for all the aforementioned reference data transfer source nodes; Based on the graph node display colors, a graph node display mode is generated for all the reference data transfer source nodes.

8. A data transfer record display device, characterized in that, include: The first determining module is used to determine the target data transfer link information for the target data transfer source node, perform duplicate data transfer source address detection processing on the data transfer source node in the target data transfer link information, and obtain the target detection result. The second determining module is used to determine, based on the target detection result, the duplicate data transfer source address and at least two reference data transfer source nodes corresponding to the duplicate data transfer source address if the target detection result is a node address duplication type. The modification module is used to perform node modification processing on the at least two reference data transfer source nodes based on the duplicate data transfer source address, so as to obtain recommended node information of the at least two reference data transfer source nodes; The display module is used to update the target data transfer link information based on the recommended node information to obtain the target updated data transfer link information, and to display the target data transfer source map of the target data transfer source node based on the target updated data transfer link information.

9. A computer-readable storage medium having a computer program stored thereon, characterized in that, When the computer program is run on a computer, it causes the computer to perform the method of displaying data transfer records as described in any one of claims 1 to 7.

10. An electronic device comprising a processor and a memory, the memory storing a computer program, characterized in that, The processor invokes the computer program to execute the method for displaying data transfer records as described in any one of claims 1 to 7.