Chain synchronization processing method and system for cross-component workflow and electronic device

By using multi-dimensional spatial topological fingerprinting and displacement compensation strategies, combined with revision number gating mechanisms, chain-like synchronous processing of cross-component workflows is achieved, solving the problems of downstream reference breakage and asynchronous update inconsistency caused by source table structure drift, and ensuring the consistency of exported results.

CN122390424APending Publication Date: 2026-07-14

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Filing Date
2026-05-18
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

In cross-component workflow scenarios, existing technologies cannot effectively solve the chain breakage between downstream charts, document reference blocks, and presentation elements caused by source table structure drift, the unstable playback of overlay editing, and the export inconsistency caused by asynchronous updates.

Method used

A multi-dimensional spatial topological fingerprint is used to ensure the stability of the redirection target of editing commands during structural drift. Combined with a displacement compensation strategy, a revision number gating mechanism and asynchronous verification lock are used to align the revision status of components, thereby achieving systematic synchronization governance between tables, charts, documents and presentations.

Benefits of technology

It significantly reduces the probability of lost edits, ensures that the exported results are completely consistent with the preview, and solves the problems of chain breaks caused by structural drift and inconsistencies under asynchronous updates.

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Abstract

The application provides a chain synchronization processing method and system for cross-component workflows and electronic equipment, and relates to the technical field of data synchronization and workflow collaborative processing. The method is directed to an execution link composed of source tables, graph objects, document reference blocks and presentation elements. When the structure of a target source table drifts, a multi-dimensional space topology fingerprint is used to determine the redirection target corresponding to the editing instruction, and the differential data is played back in combination with displacement compensation, so as to maintain the continuity of the editing result in extreme structure drift scenarios such as'renaming and changing position', and reduce the risk of editing loss. In the cross-component chain synchronization and export scenario, the revision number gating mechanism and asynchronous check lock are used to align and control the revision state of the link node, solve the'seen but not obtained' problem caused by asynchronous update, and realize consistent synchronization and export of cross-component workflows.
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