CN114936191B - Radial multidimensional file storage method based on core data - Google Patents

Abstract

The invention discloses a radial multidimensional file storage method based on core data, which comprises the following steps: classifying the first files with the same file type information into preset folders to obtain first classified folders, and sequencing in a descending order to obtain second classified folders updated for the first classified folders; determining at least one core file according to a first file in a second classification folder, taking other first files in the second classification folder as non-core files, and acquiring the total number of grades of file grade information of all the non-core files; the method includes the steps that preset target images are displayed at core display positions and/or non-core display positions, corresponding storage link paths are set for each preset target image, after the preset target images at the core display positions and/or the non-core display positions are judged to be triggered, corresponding first files are called, the files can be stored in a classified mode and visually displayed, and the calling efficiency of a user on the files is improved.

Description

Radial multidimensional file storage method based on core data

Technical Field

The invention relates to the technical field of data processing, in particular to a radial multidimensional file storage method based on core data.

Background

In the context of an electric power project, there are many contract documents, for example, a contract of a project may include a total contract document, and then to implement the content in the total contract document, a plurality of subcontract documents corresponding to various aspects of the implemented project may be included, and the subcontract documents may include a purchase contract of equipment (for example, electric power equipment) required for purchasing the project.

In the prior art, in order to manage the large number of files, one folder is adopted, all the related files are placed in the same folder, and the files stored in the same folder are generally arranged according to names of the files in sequence according to letters, for example, the files in the folder have the following names: zb, fb, cg are arranged according to the above method to be cg, fb, zb, and the above method for classifying files is based on file names, which is simple, but when there are many files in a folder, the files cannot be visually displayed, and it takes time for a user to find the files, and the file calling efficiency is low.

Disclosure of Invention

The invention overcomes the defects of the prior art, provides a radial multidimensional file storage method based on core data, can store and visually display files in a classified manner, and improves the calling efficiency of a user on the files.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the embodiment of the invention provides a radial multidimensional file storage method based on core data, which comprises the following steps:

s1, obtaining a file dimension label corresponding to each file, wherein the file dimension label at least comprises file type information and file grade information;

s2, classifying the first files with the same file type information into a preset folder to obtain a first classified folder, and sorting all the first files in the first classified folder in a descending order according to the file grade information to obtain a second classified folder after the first classified folder is updated;

s3, determining at least one core file according to a first file in the second classification folder, taking other first files in the second classification folder as non-core files, and acquiring the total number of grades of file grade information of all the non-core files;

s4, establishing a radial multi-dimensional display graph corresponding to the second classification folder according to the total number of the grades, placing the core files at core display positions of the radial multi-dimensional display graph, and determining non-core display positions of the non-core files in the radial multi-dimensional display graph according to file grade information of the non-core files;

and S5, displaying preset target images at the core display position and/or the non-core display position, setting a corresponding storage link path for each displayed preset target image, and accessing the corresponding target folder based on the storage link paths to call the corresponding first file after judging that the preset target images at the core display position and/or the non-core display position are triggered.

Further, the S2 includes:

acquiring all file type information of all files, and respectively establishing a preset folder corresponding to each file type information;

classifying files with file type information corresponding to the preset file folder into the preset file folder, and obtaining a corresponding first classified file folder after judging that all files with the same file type information are classified into the preset file folder;

acquiring file grade information of all first files in the first classification folder;

and sorting all the first files in a descending order according to the file grade information of the first files to obtain a second classification folder after the first classification folder is updated.

Further, the S3 includes:

taking a first file in a second classified folder as a core file, and taking file grade information corresponding to the core file as highest grade information;

taking other first files which are the same as the highest-level information as core files;

and taking other first files different from the highest-grade information as non-core files, and counting the total grade number of all file grades of all the non-core files.

Further, the S4 includes:

if the tree display request is judged to be received, establishing a radial multi-dimensional display graph in a tree form corresponding to the total number of the grades, wherein the dimension number of the nodes in the radial multi-dimensional display graph corresponds to the total number of the grades of the core files and the non-core files;

determining the number of root nodes in a radial multi-dimensional display graph according to the number of the core files, and taking the root nodes as core display positions;

determining the number of child nodes of each level in a corresponding multi-dimensional display graph according to the number of the non-core files of each file level information, and taking the child nodes as the display positions of the non-core files;

and connecting all root nodes with the corresponding child nodes, and connecting child nodes of different levels with child nodes of adjacent levels, wherein the levels of the child nodes correspond to the file level information.

Further, the connecting all root nodes with their corresponding child nodes, and connecting child nodes of different levels with their adjacent level child nodes, where the level of the child nodes corresponds to the file level information, includes:

acquiring the length dimension and the width dimension of the radial multi-dimensional display graph, and acquiring the display length dimension and the display width dimension of the radial multi-dimensional display graph according to the edge reserved length dimension and the edge reserved width dimension;

dividing the display length by the total number of grades to obtain a length interval distance, and controlling the nodes of adjacent grades to be arranged at intervals according to the length interval distance in the length direction;

counting the number of nodes corresponding to each level to obtain the total number of the nodes, dividing the displayed width size by the number of the nodes to obtain a width interval distance, and controlling adjacent nodes in the same level to be arranged at intervals according to the width interval distance;

and connecting the root node with the corresponding child nodes, and connecting the child nodes of different levels with the child nodes of the adjacent levels.

Further, the S4 includes:

if the circular display request is judged to be received, establishing a radial multi-dimensional display graph in the form of a circle center corresponding to the total number of the grades;

determining the center of a radial multi-dimensional display graph as a circle center, establishing a plurality of concentric circles with different radiuses corresponding to the core file and the non-core files with different grades by taking the circle center as a reference point, and taking the position of the circle center as a core display position;

determining the number of the non-core files of each concentric circle in the corresponding multi-dimensional display graph according to the number of the non-core files of each file grade information;

connecting the core file at the center of the circle with the corresponding non-core file in the adjacent concentric circle, and connecting the non-core file of the concentric circle with the corresponding non-core file in the adjacent concentric circle.

Further, the connecting the core file at the center of the circle with the corresponding non-core file in the adjacent concentric circle, and connecting the non-core file of the concentric circle with the corresponding non-core file in the adjacent concentric circle, includes:

obtaining the width dimension of the radial multi-dimensional display graph, and obtaining the display width dimension of the radial multi-dimensional display graph according to the margin reserved width dimension;

acquiring the number of the concentric circles, acquiring interval radiuses according to the display width size and the number of the concentric circles, and sequentially acquiring a plurality of concentric circles corresponding to different file grade information according to the interval radiuses;

acquiring the number of non-core files of the file grade information corresponding to each concentric circle to obtain a first number, acquiring the interval length of any plurality of non-core files with the same file grade information according to the perimeter and the first number of the corresponding concentric circles, and acquiring the display position of each non-core file according to the interval length;

and after all the core files and the non-core files are respectively displayed in the radial multi-dimensional display image, respectively connecting the corresponding core files and non-core files, and connecting the non-core files and the non-core files.

Further, the S5 includes:

generating corresponding preset target images according to the names of different first files;

creating a plurality of subfolders which are respectively in one-to-one correspondence with preset target images in the first classification folder, and storing corresponding first files into the corresponding subfolders;

generating a storage link path of each first file according to the name of the first classification folder and the name of the classification subfolder;

and monitoring the radial multi-dimensional display image in real time, and accessing the corresponding subfolders according to the storage link paths corresponding to the preset target images to call the corresponding first files after judging that any preset target image is triggered.

Further, the method also comprises the following steps:

establishing a fusion calling path corresponding to each preset target image according to the connection relation of each preset target image, wherein the fusion calling path at least comprises a storage link path;

after judging that the user triggers the radial multi-dimensional display image in a fusion calling mode, converting a calling mode of the first file into a fusion calling mode;

and if any one preset target image is triggered, calling at least one first file to display according to the fusion calling mode corresponding to the preset target image.

Further, the establishing of the fused retrieval path corresponding to each preset target image according to the connection relationship of each preset target image, where the fused retrieval path at least includes one storage link path, includes:

determining the grade information of each preset target image corresponding to the first file and triggering the connection relation in the radial multi-dimensional display image;

and acquiring storage link paths of all other first files which are directly or indirectly connected with the first file and are smaller than the file grade information of the first file, and counting the storage link paths and the storage link paths of the first file to obtain a fusion calling path.

The beneficial effects of the invention are:

(1) The method comprises the steps of obtaining first classification folders according to file type information, enabling files in each first classification folder to belong to the same item, achieving first classification of the files, processing the first classification folders to obtain second classification folders, determining core files and non-core files by using the second classification folders, achieving second classification of the files, generating corresponding radial multi-dimensional display images by using the total number of grades, displaying the core files according to the core positions, displaying the non-core files according to the non-core positions, and achieving hierarchical visual display of the files; meanwhile, the storage link path corresponding to the preset target image displayed in the radial multi-dimensional display image is established, a user can directly call the required file based on the radial multi-dimensional display image, in the whole process, the user does not need to open folders one by one to search, and the file calling efficiency is high;

(2) The radial multidimensional display graph has two display modes, namely a tree display mode and a concentric circle display mode, and can clearly display the file grade and the file thumbnail content in a layered manner; in addition, when the tree display mode is carried out, the display size of the radial multi-dimensional display graph in the length direction is controlled by combining the total number of grades and the display length, so that the file information can be clearly displayed in the length direction; the display size of the radial multi-dimensional display graph in the width direction is controlled by combining the number of the nodes of each level, so that file information can be clearly displayed in the width direction; when a circular display mode is carried out, the optimal spacing radius is calculated by combining the display width size and the number of concentric circles, and the spacing length between files is obtained by combining the perimeter of the concentric circles and the first number, so that the corresponding files are displayed clearly and hierarchically;

(3) In order to facilitate a user to call a file, two calling modes are designed, one mode is that the user can click a preset target image to call a corresponding file; in addition, when a user wants to call related files in batches, the corresponding fusion call path can be generated, the required files can be called in batches by adopting a fusion call mode based on the fusion call path, and the call efficiency of the files is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic diagram of a tree display according to the present invention;

FIG. 2 is a schematic view of a circular display according to the present invention;

fig. 3 is a schematic view of another circular display provided by the present invention.

Detailed Description

In order that the manner in which the present invention is attained and can be more readily understood, a more particular description of the invention briefly summarized above may be had by reference to the embodiments thereof which are illustrated in the appended drawings.

First, an application scenario of the present solution is explained, and in the context of an electric power project, there are often many contract documents, for example, a total contract, then the total contract may further include a plurality of subcontracts corresponding to various aspects of the implementation project, the subcontracts may further include procurement contracts of equipment required for procurement of the project, and the present solution may process these multidimensional contract documents.

The invention provides a radial multidimensional file storage method based on core data, which comprises the following steps of S1-S5:

s1, obtaining a file dimension label corresponding to each file, wherein the file dimension label at least comprises file type information and file grade information.

Each file in the scheme has a corresponding file dimension label, the file dimension label comprises file type information and file grade information, and the scheme adopts the following example to illustrate the file type information and the file grade information.

Illustratively, for item A and item B, item A includes general contract A, subcontract A, and purchase contract A, and item B includes general contract B, subcontract B, and purchase contract B.

The total package contract a and the total package contract B belong to different items, corresponding file type information is also different, the total package contract a, the subcontract a and the purchasing contract a are directed to the same item, but corresponding file grade information is different, for example, the total package contract a grade is 3, the subcontract a grade is 2, and the purchasing contract a grade is 1. The file dimension label of each file is established by adopting the method.

S2, classifying the first files with the same file type information into a preset folder to obtain a first classified folder, and sorting all the first files in the first classified folder in a descending order according to the file grade information to obtain a second classified folder after the first classified folder is updated.

According to the scheme, a first classification folder is obtained according to the file type information, wherein the first classification folder comprises, for example, { subcontract A, total contract A and purchase contract A }, or comprises { purchase contract B, subcontract B and total contract B }, namely the file type information of all files in the first classification folder is the same.

In addition, according to the scheme, all the first files in the first classification folders are sorted in a descending order according to the file grade information to obtain the second classification folders, so that the file grade information corresponding to the files which are sorted more ahead is higher, and the scheme is formulated by the highest total package contract grade, the medium sub-package contract grade and the lowest purchasing contract grade. The document level information is, for example, 3, 2, and 1, then the total package contract may correspond to 3, the sub-package contract may correspond to 2, and the purchase contract may correspond to 1.

For example, when the first classification folder is { subcontract a, total contract a, purchase contract a }, the obtained second classification folder is { total contract a, subcontract a, purchase contract a }, and when the first classification folder is { purchase contract B, subcontract B, total contract B }, the obtained second classification folder is { total contract B, subcontract B, purchase contract B }.

In some embodiments, the S2 includes S21-S24:

s21, acquiring all file type information of all files, and respectively establishing a preset folder corresponding to each file type information.

For example, if the files collectively include { subcontract a, total contract a, purchase contract B, subcontract B, and total contract B }, then all the file type information is 2, one is a, and one is B, and then the corresponding preset folder may be 2.

S22, classifying the files with the file type information corresponding to the preset folder into the preset folder, and obtaining a corresponding first classified folder after judging that all the files with the same file type information are classified into the preset folder.

The number of the first classification folders classified by the scheme can be 2, and the first classification folders are respectively { subcontract A, total package A and purchase package A } and { purchase package B, subcontract B and total package B }.

S23, file grade information of all the first files in the first classification folder is obtained, and the higher the file grade information is, the more important and the more core the corresponding first files are.

The scheme is explained by the highest total contract level, the medium subcontract level and the lowest purchasing contract level. The document level information is, for example, 3, 2, and 1, then the total package contract may correspond to 3, the subcontract may correspond to 2, and the procurement contract may correspond to 1.

And S24, sorting all the first files in a descending order according to the file grade information of the first files to obtain a second classification folder after the first classification folder is updated.

For example, when the first classification folder is { subcontract a, total contract a, purchase contract a }, the obtained second classification folder is { total contract a, subcontract a, purchase contract a }, and when the first classification folder is { purchase contract B, subcontract B, total contract B }, the obtained second classification folder is { total contract B, subcontract B, purchase contract B }.

And S3, determining at least one core file according to the first file in the second classification folder, taking other first files in the second classification folder as non-core files, and acquiring the total number of grades of the file grade information of all the non-core files.

According to the scheme, after the second classification folder is obtained, the first file in the second classification folder is determined to determine at least one core file, then the rest files are used as non-core files, and the total number of grades of file grade information of all the non-core files is obtained at the same time.

For example, if the second classification folder is { total package contract a, subcontract a, and purchase contract a }, the total package contract a is a core file, the subcontract a and the purchase contract a are non-core files, and the total number of levels of the file level information of all the corresponding non-core files is 2.

In some embodiments, the S3 includes S31-S33:

and S31, taking the first file in the second classification folder as a core file, and taking the file grade information corresponding to the core file as the highest grade information.

For example, if the second classification folder is { total contract A1, total contract A2, subcontract a, and purchase contract a }, the total contract A1 is a core file, the corresponding file rank information is 3, and the highest rank information is 3.

And S32, taking other first files which are the same as the highest-level information as core files.

For example, the second classification folder is { total package contract A1, total package contract A2, subcontract a, purchase contract a }, and the file rank information corresponding to the total package contract A2 is also 3, so the present solution also uses the total package contract A2 as a core file. That is, there are two core documents in the present solution, which are the total package contract A1 and the total package contract A2 respectively.

And S33, taking other first files different from the highest-level information as non-core files, and counting the total level number of all file levels of all the non-core files.

For example, the subcontract a (level 2) and the purchase contract a (level 1) are non-core documents, and the total number of corresponding levels is 2.

S4, establishing a radial multi-dimensional display graph corresponding to the second classification folder according to the total number of the grades, placing the core files at core display positions of the radial multi-dimensional display graph, and determining non-core display positions of the non-core files in the radial multi-dimensional display graph according to file grade information of the non-core files.

According to the scheme, a radial multi-dimensional display graph corresponding to the second classification folder is established to clearly display the files.

It should be noted that the scheme includes two display modes, specifically as follows:

mode for the invention referring to fig. 1, in some embodiments, said S4 comprises A1-A4:

a1, if judging that a tree display request is received, establishing a radial multi-dimensional display graph in a tree form corresponding to the total number of the grades, wherein the dimension number of nodes in the radial multi-dimensional display graph corresponds to the total number of the grades of core files and non-core files.

The display mode of the embodiment is tree display, if a tree display request is received, a radial multi-dimensional display graph in a tree form corresponding to the total number of the levels is established, and the dimension number of nodes in the radial multi-dimensional display graph corresponds to the total number of the levels of the core files and the non-core files.

And A2, determining the number of root nodes in the radial multi-dimensional display graph according to the number of the core files, and taking the root nodes as core display positions.

Illustratively, the second categorized folder is { total contract a, subcontract A1, subcontract A2, purchase contract a11, purchase contract a12, purchase contract a21}, where the number of core files is one, then the root node is one, which is the core display location.

And A3, determining the number of child nodes of each level in a corresponding multi-dimensional display graph according to the number of the non-core files of each file level information, and taking the child nodes as the display positions of the non-core files.

Illustratively, the second categorized folders are { total package contract a, sub-package contract A1, sub-package contract A2, purchase contract a11, purchase contract a12, purchase contract a21}, where the number of non-core files whose file level information is 2, the number of non-core files whose file level information is 1 is 3, the number of child nodes whose corresponding file level information is 2, and the number of child nodes whose corresponding file level information is 1 is 3. The child nodes in the scheme are all display positions of the non-core files.

And A4, connecting all the root nodes with the corresponding child nodes, and connecting the child nodes with different levels with the child nodes with the adjacent levels, wherein the levels of the child nodes correspond to the file level information.

According to the scheme, after the root node and the child nodes are determined, connection is established, and a tree-shaped display structure is formed, wherein the levels of the child nodes correspond to the file level information.

In some embodiments, step A4 (said connecting all root nodes with their corresponding child nodes, connecting child nodes of different levels with child nodes of their adjacent levels, the levels of said child nodes corresponding to file level information) comprises a41-a44:

and A41, acquiring the length dimension and the width dimension of the radial multi-dimensional display graph, and acquiring the display length dimension and the display width dimension of the radial multi-dimensional display graph according to the margin reserved length dimension and the margin reserved width dimension.

It will be appreciated that the present solution will adjust the display size of the radial multi-dimensional display map so that the display size is optimized.

Where the length dimension is, for example, 10cm, the width dimension is, for example, 14cm, the margin pre-length dimension is, for example, 1cm, and the margin pre-width dimension is, for example, 2cm, the display length dimension of the corresponding radial multi-dimensional display map is 9cm, and the display width dimension is 12cm.

It will be appreciated that the radial multi-dimensional map of the present scheme will be displayed within 9cm x 12cm.

And A42, dividing the display long size by the total number of grades to obtain a length interval distance, and controlling the nodes of the adjacent grades to be arranged at intervals of the length interval distance in the length direction.

For example, if the total number of corresponding ranks is 3, the length dimension is shown to be 9cm divided by 3, resulting in a length separation distance of 3cm, and the nodes of adjacent ranks are separated by 3cm in the length direction.

By the mode, the radial multi-dimensional display graph can be controlled to adapt to the total number of grades in the length direction to clearly display the file information.

And A43, counting the number of the nodes of each grade to obtain the number of the nodes, dividing the display width size by the number of the nodes to obtain the width interval distance, and controlling the adjacent nodes of the same grade to be arranged at intervals according to the width interval distance.

For example, if the number of nodes corresponding to the file level information of 1 is 3, the display width is divided by 3 to obtain a width separation distance of 4cm, and nodes of adjacent levels are displayed at a distance of 4cm in the length direction.

By the method, the radial multi-dimensional display graph can be controlled to adapt to the number of the nodes of each grade in the width direction, and the clear file information showing the number of the nodes is obtained.

And A44, connecting the root node with the corresponding child node, and connecting the child nodes of different levels with the child nodes of the adjacent levels.

It can be understood that, in the scheme, after the horizontal distance and the vertical distance of each node are determined, the root node and the corresponding child node can be connected, and the child nodes of different levels and the child nodes of adjacent levels are connected to form a display mode of the tree diagram.

Presentation mode 2 referring to fig. 2, in some embodiments, the S4 includes B1-B4:

and B1, if the circular display request is judged to be received, establishing a radial multi-dimensional display graph in the form of a circle center corresponding to the total number of the grades.

The display mode of the embodiment is circular display of concentric circles, and if a circular display request is received, a radial multi-dimensional display graph in the form of a circle center corresponding to the total number of grades is established.

And B2, determining the center in the radial multi-dimensional display image as the circle center, establishing a plurality of concentric circles with different radiuses corresponding to the core file and the non-core files with different grades by taking the circle center as a reference point, and taking the position of the circle center as a core display position.

It can be understood that the center of the circle corresponds to the core display position for displaying the core file, and the non-core files of different levels correspond to a plurality of concentric circles with different radii, for example, there are 3 levels, and the present solution has 3 concentric circles with different radii.

And B3, determining the number of the non-core files of each concentric circle in the corresponding multi-dimensional display according to the number of the non-core files of each file level information.

For example, the number of non-core files corresponding to the file rank information of 2 is 2, and the number of non-core files corresponding to the file rank information of 1 is 3.

And B4, connecting the core file at the center of the circle with the corresponding non-core file in the adjacent concentric circle, and connecting the non-core file of the concentric circle with the corresponding non-core file in the adjacent concentric circle.

Meanwhile, the file connection method can establish connection between the concentric circles.

In some embodiments, B4 (said concatenating a core file at the center of a circle with a corresponding non-core file in its neighboring concentric circle, concatenating a non-core file of a concentric circle with a corresponding non-core file in its neighboring concentric circle) comprises B41-B44:

and B41, acquiring the width dimension of the radial multi-dimensional display graph, and acquiring the display width dimension of the radial multi-dimensional display graph according to the margin reserved width dimension.

The scheme can adjust the display size of the radial multi-dimensional display graph, so that the display size of the file information is optimal.

Where the width dimension is, for example, 14cm, and the margin reservation width dimension is, for example, 2cm, the display width dimension of the corresponding radial multi-dimensional display map is 12cm.

It can be understood that, because the file is displayed in the form of concentric circles, only the data for displaying the wide ruler needs to be acquired.

And B42, acquiring the number of the concentric circles, acquiring an interval radius according to the display width size and the number of the concentric circles, and sequentially acquiring a plurality of concentric circles corresponding to different file grade information according to the interval radius.

Illustratively, if the number of concentric circles is 3, and the display width is 12cm, the corresponding interval radius is 4cm, and according to the scheme, a plurality of 3 concentric circles corresponding to different file level information are sequentially obtained according to 4 cm.

And B43, acquiring the number of the non-core files of the file grade information corresponding to each concentric circle to obtain a first number, acquiring the interval lengths of any plurality of non-core files with the same file grade information according to the perimeter of the corresponding concentric circle and the first number, and acquiring the display position of each non-core file according to the interval lengths.

Illustratively, if the first number of the corresponding file rank information 1 is 3, the circumference of the corresponding concentric circle is 12cm, and the division by 3 results in a space length of 4cm, and then the scheme may obtain the display position of each non-core file according to the space length of 4 cm.

And B44, after all the core files and the non-core files are respectively shown in the radial multi-dimensional display graph, respectively connecting the corresponding core files and the non-core files, and connecting the non-core files and the non-core files.

It can be understood that the present solution establishes a connection between corresponding core files and non-core files, forming a circular display diagram.

Referring to fig. 3, which is another circular display manner provided by the present invention, in some scenarios, for example, the total package contract A1 signs the supplement agreement total package contract A2, in which case there are two total package contracts, and the core file location has two core files, which are the total package contract A1 and the total package contract A2 respectively.

And S5, displaying preset target images at the core display position and/or the non-core display position, setting a corresponding storage link path for each displayed preset target image, and accessing the corresponding target folder based on the storage link paths to call the corresponding first file after judging that the preset target images at the core display position and/or the non-core display position are triggered.

It will be appreciated that steps S1-S4 implement the classification and presentation of multidimensional files, and step S5 calls for the first file.

It can also be understood that, the present solution is provided with a display preset target image, for example, for the total package contract a, the corresponding display preset target image may be a graphic text corresponding to the total package contract a, or other images capable of showing the total package contract a.

According to the scheme, each preset target image is displayed, a corresponding storage link path is set, and when a user wants to look up or call the general package contract A, the user only needs to trigger the preset target images at the core display position and/or the non-core display position, and can access the corresponding target folder according to the storage link paths to call the corresponding first file.

In some embodiments, said S5 comprises S51-S54:

and S51, generating corresponding preset target images according to the names of different first files.

For example, for the total package contract a, the corresponding display preset target image may be graphic text corresponding to the total package contract a, or other images capable of showing the total package contract a.

S52, a plurality of sub-folders which are respectively in one-to-one correspondence with preset target images are created in the first classification folder, and corresponding first files are stored into the corresponding sub-folders.

It is understood that the first categorized folder in the present scheme includes a plurality of subfolders, and each first file is stored in a corresponding subfolder.

And S53, generating a storage link path of each first file according to the name of the first classification folder and the name of the classification subfolder.

Illustratively, a first file a is stored in the subfolder a11 of the first categorized folder A1, and the storage link path of the first file is A1-a 11.

And S54, monitoring the radial multi-dimensional display image in real time, accessing the corresponding subfolder according to the storage link path corresponding to the preset target image after judging that any preset target image is triggered, and calling the corresponding first file.

According to the scheme, after the preset target image is triggered, the corresponding subfolder is accessed by using the storage link path corresponding to the preset target image, and the corresponding first file is called.

On the basis of the above embodiment, the present solution further provides different invoking manners according to the user's requirements, and further includes C1-C3:

and C1, establishing a fusion calling path corresponding to each preset target image according to the connection relation of each preset target image, wherein the fusion calling path at least comprises one storage link path.

According to the scheme, if a user needs more files under one project, the clicking calling efficiency is too low one by one, and the user time is wasted, so that the scheme can establish a fusion calling path corresponding to each preset target image by using the connection relation of each preset target image to fuse the corresponding files together, and then the user can call a string of files through one click, so that the calling efficiency of the files is improved.

In some embodiments, the step C1 (establishing, according to the connection relationship of each preset target image, a fusion retrieval path corresponding to each preset target image, where the fusion retrieval path includes at least one storage link path) includes:

and determining the grade information of each preset target image corresponding to the first file and triggering the connection relation in the radial multi-dimensional display graph. It can be understood that, according to the scheme, the related information of each preset target image is determined firstly, including the grade information corresponding to the first file and the connection relation in the triggering radial multi-dimensional display image.

And acquiring storage link paths of all other first files which are directly or indirectly connected with the first file and are smaller than the file grade information of the first file, and counting the storage link paths and the storage link paths of the first file to obtain a fusion calling path.

For example, referring to fig. 1, taking the subcontracting contract A1 in fig. 1 as an example, if the file level information is 2, the storage link paths of all other first files, i.e., the storage paths of the purchase contract a11, the purchase contract a12, and the purchase contract a21, which are directly or indirectly connected to the first file and are smaller than the file level information (2) of the first file, form a merged retrieval path according to the above paths and the storage link paths of the first files.

And C2, after the fact that the user triggers the radial multi-dimensional display image in the fusion calling mode is judged, the calling mode of the first file is converted into the fusion calling mode.

It can be understood that the fusion calling mode of the scheme can be selected by a user, and if the user selects the fusion calling mode, the corresponding fusion calling path is adopted to call the files in batch.

And C3, if any one preset target image is triggered, calling at least one first file to display according to a fusion calling mode corresponding to the preset target image.

For example, the user may click on a preset target image of subcontract A1, and then the corresponding fused retrieval paths are the storage paths of subcontract A1, purchase contract a11, purchase contract a12, and purchase contract a 21.

According to the scheme, the user can call the required files in batches through the implementation mode, the file calling efficiency is improved, and the user experience is improved.

In addition to the above embodiments, the present invention may have other embodiments; all technical solutions formed by adopting equivalent substitutions or equivalent transformations fall within the protection scope of the claims of the present invention.

Claims (5)

1. The radial multidimensional file storage method based on the core data is characterized by comprising the following steps:

s1, obtaining a file dimension label corresponding to each file, wherein the file dimension label at least comprises file type information and file grade information;

s2, classifying the first files with the same file type information into a preset folder to obtain a first classified folder, and sorting all the first files in the first classified folder in a descending order according to the file grade information to obtain a second classified folder after the first classified folder is updated;

s3, determining at least one core file according to the first file in the second classification folder, taking other first files in the second classification folder as non-core files, and acquiring the total number of grades of file grade information of all the non-core files;

s4, establishing a radial multi-dimensional display graph corresponding to the second classification folder according to the total number of the grades, placing the core files at core display positions of the radial multi-dimensional display graph, and determining non-core display positions of the non-core files in the radial multi-dimensional display graph according to file grade information of the non-core files;

s5, displaying preset target images at the core display position and/or the non-core display position, setting a corresponding storage link path for each preset target image, and accessing a corresponding target folder based on the storage link paths to call a corresponding first file after judging that the preset target images at the core display position and/or the non-core display position are triggered;

the S4 comprises the following steps:

if the circular display request is judged to be received, establishing a radial multi-dimensional display graph in the form of a circle center corresponding to the total number of the grades;

determining the center of a radial multi-dimensional display graph as a circle center, establishing a plurality of concentric circles with different radiuses corresponding to the core file and the non-core files with different grades by taking the circle center as a reference point, and taking the position of the circle center as a core display position;

determining the number of the non-core files of each concentric circle in the corresponding multi-dimensional display graph according to the number of the non-core files of each file grade information;

connecting the core file at the center of the circle with the corresponding non-core file in the adjacent concentric circle, and connecting the non-core file of the concentric circle with the corresponding non-core file in the adjacent concentric circle;

the connecting the core file at the center of the circle with the corresponding non-core file in the adjacent concentric circle, and the connecting the non-core file of the concentric circle with the corresponding non-core file in the adjacent concentric circle, includes:

obtaining the width dimension of the radial multi-dimensional display graph, and obtaining the display width dimension of the radial multi-dimensional display graph according to the margin reserved width dimension;

acquiring the number of the concentric circles, acquiring an interval radius according to the display width size and the number of the concentric circles, and sequentially acquiring a plurality of concentric circles corresponding to different file grade information according to the interval radius;

acquiring the number of non-core files of the file grade information corresponding to each concentric circle to obtain a first number, acquiring the interval length of any plurality of non-core files with the same file grade information according to the perimeter and the first number of the corresponding concentric circles, and acquiring the display position of each non-core file according to the interval length;

after all the core files and the non-core files are respectively displayed in the radial multi-dimensional display graph, respectively connecting the corresponding core files with the non-core files and connecting the non-core files with the non-core files;

the S5 comprises the following steps:

generating corresponding preset target images according to the names of different first files;

creating a plurality of subfolders which respectively correspond to preset target images one by one in the first classification folder, and storing corresponding first files into the corresponding subfolders;

generating a storage link path of each first file according to the name of the first classification folder and the name of the classification subfolder;

monitoring the radial multi-dimensional display image in real time, and accessing a corresponding subfolder according to a storage link path corresponding to a preset target image after judging that any preset target image is triggered, and calling a corresponding first file;

further comprising:

establishing a fusion calling path corresponding to each preset target image according to the connection relation of each preset target image, wherein the fusion calling path at least comprises a storage link path;

after judging that the user triggers the radial multi-dimensional display image in a fusion calling mode, converting a calling mode of the first file into a fusion calling mode;

if any one preset target image is triggered, calling at least one first file to display according to a fusion calling mode corresponding to the preset target image;

the method includes the steps of establishing a fusion calling path corresponding to each preset target image according to the connection relation of each preset target image, wherein the fusion calling path at least comprises a storage link path, and the method includes the following steps:

determining the grade information of each preset target image corresponding to the first file and triggering the connection relation in the radial multi-dimensional display image;

and acquiring storage link paths of all other first files which are directly or indirectly connected with the first file and are smaller than the file grade information of the first file, and counting the storage link paths and the storage link paths of the first file to obtain a fusion calling path.

2. The core data-based radial multi-dimensional file storage method according to claim 1,

the S2 comprises the following steps:

acquiring all file type information of all files, and respectively establishing a preset folder corresponding to each file type information;

classifying files with file type information corresponding to the preset file folder into the preset file folder, and obtaining a corresponding first classified file folder after judging that all files with the same file type information are classified into the preset file folder;

acquiring file grade information of all first files in the first classification folder;

and sorting all the first files in a descending order according to the file grade information of the first files to obtain a second classification folder after the first classification folder is updated.

3. The core data-based radial multi-dimensional file storage method according to claim 1,

the S3 comprises the following steps:

taking a first file in a second classified folder as a core file, and taking file grade information corresponding to the core file as highest grade information;

taking other first files which are the same as the highest-level information as core files;

and taking other first files different from the highest-grade information as non-core files, and counting the total grade number of all file grades of all the non-core files.

4. The core data-based radial multi-dimensional file storage method according to claim 3,

the S4 comprises the following steps:

if judging that the tree display request is received, establishing a radial multi-dimensional display graph in a tree form corresponding to the total number of the grades, wherein the dimensional number of nodes in the radial multi-dimensional display graph corresponds to the total number of the grades of the core files and the non-core files;

determining the number of root nodes in a radial multi-dimensional display graph according to the number of the core files, and taking the root nodes as core display positions;

determining the number of child nodes of each level in a corresponding multi-dimensional display graph according to the number of the non-core files of each file level information, and taking the child nodes as the display positions of the non-core files;

and connecting all root nodes with the corresponding child nodes, and connecting child nodes of different levels with child nodes of adjacent levels, wherein the levels of the child nodes correspond to the file level information.

5. The core data-based radial multi-dimensional file storage method according to claim 4,

the connecting all root nodes with their corresponding child nodes, connecting child nodes of different grades with their adjacent grade child nodes, the grade of the child nodes corresponding to the file grade information, including:

acquiring the length dimension and the width dimension of the radial multi-dimensional display graph, and acquiring the display length dimension and the display width dimension of the radial multi-dimensional display graph according to the edge reserved length dimension and the edge reserved width dimension;

dividing the display length by the total number of grades to obtain a length interval distance, and controlling the nodes of adjacent grades to be arranged at intervals according to the length interval distance in the length direction;

counting the number of nodes corresponding to each grade to obtain the total number of the nodes, dividing the display width size by the number of the nodes to obtain a width spacing distance, and controlling adjacent nodes in the same grade to be arranged at intervals according to the width spacing distance;

and connecting the root node with the corresponding child nodes, and connecting the child nodes of different levels with the child nodes of the adjacent levels.

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