CN111191975B - Node reference method of mind map, electronic equipment and storage medium - Google Patents

Abstract

The invention belongs to the field of computers, in particular to a node reference method of a mind map, electronic equipment and a storage medium, wherein the node reference method comprises the following steps of determining a target node A to which a subordinate node needs to be added; step two, determining the referenced node B; adding a new node C in the lower-level direction of the target node A, wherein the value of the node C refers to the value of the node B; compared with the prior art, the display mode of the thinking guide graph can more intuitively reflect the architecture of things, accords with the acceptance mode of human brain on things, can enable a user to know and learn the relationship of things more efficiently, is convenient and quick in a mode of adding new nodes in the lower-level direction of the target node A by referring to other nodes of the thinking guide graph, has clear rule and regulations of establishment of the reference relationship, is simpler to operate compared with the traditional mode of adopting a table or form reference, and omits complicated operation when the traditional reference relationship is established.

Description

Node reference method of mind map, electronic equipment and storage medium

Technical Field

The invention belongs to the field of computers, and particularly relates to a node referencing method of a mind map, electronic equipment and a storage medium.

Background

In the existing enterprise data management mode, data is usually arranged in a form or a form, for example, a product structure is usually displayed by adopting a BOM (business object model) form, if a reference relationship between two things needs to be embodied, the reference relationship is usually realized by referencing between the form or the form, for example, in a product bill of materials, if parts of one product are to be expressed and reference parts of another product are to be referred to parts of the other product bill of materials, remarks are added in the product bill of materials to explain that the parts are the parts in the other product bill of materials, the reference relationship is complicated in establishing mode, and if a plurality of forms or forms need to be established, the reference relationship between the master form and the slave form can be realized.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a node referencing method of a mind map, which can simply and quickly establish a referencing relation among things.

In order to solve the technical problems, the invention adopts the following technical scheme:

a node referencing method of a mind map comprises the following steps:

step one, determining a target node A to which a subordinate node needs to be added.

Step two, the referenced node B is determined.

And thirdly, adding a new node C in the lower-level direction of the target node A, wherein the value of the node C refers to the value of the node B.

Compared with the prior art, the display mode of the thinking guide graph can more intuitively reflect the architecture of things, accords with the acceptance mode of human brain on things, can enable a user to know and learn the relationship of things more efficiently, is convenient and quick in a mode of adding new nodes in the lower-level direction of the target node A by referring to other nodes of the thinking guide graph, has clear rule and regulations of establishment of the reference relationship, is simpler to operate compared with the traditional mode of adopting a table or form reference, and omits complicated operation when the traditional reference relationship is established.

Further, the step of determining the node B includes the following three ways.

As a first way, the step of determining the node B comprises: after receiving the node addition instruction, a node is selected from the other mind graphs to determine the node B.

As a second way, the step of determining the node B comprises: a node is selected in the same mind map to determine the node B.

As a third way, the mind map includes a central topic, a first branch topic disposed on one side of the central topic, and a second branch topic disposed on the other side of the central topic, where the first branch topic and the second branch topic respectively include a plurality of levels of sub-nodes that are radially distributed to the corresponding sides with the central topic as a root node, the target node a belongs to a node in the first branch topic, and the step of determining the node B includes: a node is selected within the second branch topic to determine the node B.

Further, for the second and third setting modes of the above-mentioned determination node B, the node C is formed by copying the node B to the lower level position of the target node a by moving; or by copying the node B and pasting it at a lower level of the target node a to form the node C. The operation mode of the mobile copy of the node B is convenient and quick, and a user can conveniently add the node C. And the copy and paste mode of the node B is beneficial to the user to add the node C at the accurate position.

Further, an array is generated while forming the node C, thereby associating the node B with the node C, and the node C is changed by changing the node B to synchronously change the node C, or the node B is changed by changing the node C to synchronously change the node C. The relationship between node B and node C is established by setting up an array for synchronous updating of data.

Further, if the node C is added, the node C is added in the peer direction of the original subordinate node if the original subordinate node exists in the target node a. The arrangement mode can enable the structure of the thinking guide graph to be tidy and clear when the node C is added, and the thinking guide graph is convenient for users to review.

Further, in order to facilitate the user to understand the reference relationship of the node, the node C is added with an identifier, for example, by changing the color of the node C or adding a remark or a combination of the two, wherein the remark indicates that the node referred by the node C is included, so that the user can intuitively understand that the node refers to other nodes.

The invention also provides an electronic device, which comprises a processor and a memory, wherein the processor and the memory are communicated with each other, and the memory is used for storing executable instructions, so that the node referencing method is realized when the processor executes the instructions.

The present invention also provides a storage medium storing a computer program which, when executed by a processor, implements the above-described node referencing method.

Drawings

FIG. 1 is a flow chart diagram of a node referencing method;

FIG. 2 is a schematic diagram of creating node reference relationships in different mind graphs;

FIG. 3 is a schematic diagram of the establishment of node reference relationships in the same mind map;

FIG. 4 is a schematic diagram of creating node reference relationships on opposite sides of the same mind map.

Detailed Description

The following describes specific embodiments of the present invention with reference to the drawings.

Embodiment one:

the embodiment provides a node referencing method of a mind map, which can be executed by equipment for establishing the mind map, for example, can be a human-computer interaction equipment such as a computer and a mobile phone, and the equipment can establish the mind map in a software mode, and optionally, a user can generate the mind map through the equipment or import the mind map from other equipment. The mind map includes a root node and a plurality of hierarchical sub-nodes extending radially about the root node.

Referring to fig. 1, the node referencing method includes the steps of:

step one: a target node a to which a subordinate node needs to be added is determined.

Step two: the referenced node B is determined.

Step three: a new node C is added in the downstream direction of the target node a, wherein the value of node C references the value of node B.

The above-mentioned manner of determining the node B in the second step includes the following three manners:

referring to fig. 2, in a first embodiment, the step of determining the node B includes selecting a node among other mind maps to determine the node B after receiving a node addition instruction. The operation of the node adding instruction can be performed on a computer operation interface, and specifically comprises the step of activating an instruction menu on the target node A, wherein the activation operation of the instruction menu can be realized by clicking the target node A through a right button of a mouse, the instruction menu comprises an option of adding the node, a user selects the option of adding the node to send out a node adding instruction, after receiving the instruction, the device pops up a selection window for the user to select other thinking guide diagrams needing to be opened, then the device opens the thinking guide diagrams selected by the user for the user to select the node B needing to be referenced in the thinking guide diagrams, and after the selection is completed, a lower node C referencing the value of the node B is added at a lower position of the target node A. For example, the difference between the electric cooker S1 and the electric cooker S2 is that the same inner container N is adopted for both products, when the mind map using the electric cooker S1 as the root node is established, the root node of the electric cooker S1 is determined to be the target node a, the instruction menu is activated on the target node a and the option of adding the node is selected, the mind map using the electric cooker S2 as the root node is popped up, and the reference relationship between the two kinds of electric cooker mind maps is established by selecting the inner container node as the node B in the mind map of the electric cooker S2 and adding the inner container node to the lower position of the target node a to form the node C.

Referring to fig. 3, in a second embodiment, the step of determining the node B includes selecting a node in the same mind map to determine the node B, and after determining the node B, copying the node B to a lower position of a target node a by moving to form the node C, the moving including, for example, the steps of: and pressing the node B on the operation interface by a mouse button for a long time so as to lock the node B and then realizing dragging operation.

Alternatively, as another way, after determining the node B, the above copy-paste operation includes, for example, the steps of: and clicking the node B on the operation interface through a right button of the mouse and selecting a copy instruction in the popped menu to realize copy operation of the node B, and then clicking the target node A through the right button of the mouse and selecting a paste instruction in the popped menu to generate a node C referring to the value of the node B at the lower position of the target node A so as to finish paste operation. For example, in the thinking diagram of the electric cooker S1, the electric cooker S1 is taken as a root node, and the thinking diagram comprises a shell, a liner, a heating component and other sub-nodes, wherein the shell node comprises an upper cover, a shell, a base and other sub-nodes, the base node comprises a plastic shell, a screw M and other sub-nodes, the heating component of the electric cooker also comprises the screw M, so that the screw M node is determined to be a node B, the heating component node is a target node a, and the screw M node is added to the lower position of the heating component node through the operation of moving copy or copy paste, so as to form a node C.

Referring to fig. 4, in a third embodiment, the mind map includes a central topic, and a first branch topic disposed on one side of the central topic and a second branch topic disposed on the other side of the central topic, wherein the first branch topic and the second branch topic respectively include a plurality of levels of sub-nodes which are radially distributed to the corresponding sides with the central topic as a root node. The target node a belongs to a node within the first branch topic and the step of determining the node B comprises selecting a node within the second branch topic to determine the node B. Specifically, after determining the node B, copying the node B to a lower level position of the target node a by moving to form the node C, where the moving operation includes the following steps: and pressing the node B on the operation interface by a mouse button for a long time so as to lock the node B and then realize the dragging operation.

Alternatively, as another way, after determining the node B, the above copy-paste operation includes, for example, the steps of: and clicking the node B on the operation interface through a right button of the mouse and selecting a copy instruction in the popped menu to realize copy operation of the node B, and then clicking the target node A through the right button of the mouse and selecting a paste instruction in the popped menu to generate a node C referring to the value of the node B at the lower position of the target node A so as to finish paste operation.

For the third embodiment, as a specific example, the central subject of the mind map is a product library, the first branch subject is a switch product, the second branch subject is a socket product, wherein the switch is composed of parts such as a mounting box, a mounting frame, a switch cover plate, a button, a switch body and the like, the socket is composed of parts such as a mounting box, a mounting frame, a socket cover plate, a socket body and the like, in the process of forming the mind map, the product library is taken as a root node, a first-stage node of the switch is added at a first side of the product library, a second-stage node such as a mounting box, a mounting frame, a switch cover plate, a button, a switch body and the like is respectively added at the lower part of the switch node, and a sub-node is added in the lower-stage direction according to the actual composition of the product; and adding a first-stage node of a socket at the second side of the socket, respectively adding a second-stage node such as a mounting box, a mounting frame, a socket cover plate, a socket body and the like at the lower part of the first-stage node, and adding sub-nodes in the lower stage direction according to the actual constitution of a product, wherein a switch and the socket in the embodiment share the same mounting box, so that when the mounting box node of the socket is added, the socket is determined to be a target node A, the mounting box node in a first branch subject is determined to be a node B, and the mounting box node is copied to the lower stage position of the target node A of the socket in a moving mode, thereby forming the node C.

Of course, the reference method provided by the invention is not limited to be applied to the mind map about the product constitution, but can also be applied to other types of mind maps, such as a process flow mind map, a warehouse management mind map and the like of the product.

As a specific embodiment, an array is generated while forming the node C, thereby associating the node B and the node C, and the node C is changed by changing the node B to change the node C synchronously, or the node C is changed by changing the node C to change the node B synchronously, and the value of the node C is recorded in the array to be equal to the value of the node B referenced by the node C. By the arrangement, the synchronous updating efficiency of the data can be improved. It will be appreciated that if node B has a lower node, node C also has the same lower node, and the array also records the same relationship between the two child nodes.

As a specific implementation manner, if the node C is added, the node C is added in the peer direction of the original lower node if the target node a has the original lower node, and the adding principle of the node C can ensure that the structure of the mind map is neat, and of course, the user can change the positions of the node C and the nodes at the same level according to the actual requirement.

Compared with the prior art, the display mode of the thinking guide graph can more intuitively reflect the architecture of things, accords with the acceptance mode of human brain on things, can enable a user to know and learn the relationship of things more efficiently, is convenient and quick in a mode of adding new nodes in the lower-level direction of the target node A by referring to other nodes of the thinking guide graph, has clear rule and regulations of establishment of the reference relationship, is simpler to operate compared with the traditional mode of adopting a table or form reference, and omits complicated operation when the traditional reference relationship is established.

Embodiment two:

the embodiment provides an electronic device, which comprises a processor and a memory, wherein the processor and the memory are mutually communicated, and the memory is used for storing executable instructions, so that the node referencing method of the mind map is realized when the processor executes the instructions.

The electronic device provided in the foregoing may perform the related operations of the method for quickly searching information from a collection provided in the first embodiment, and have corresponding functions and beneficial effects.

Embodiment III:

the present embodiment provides a storage medium storing a computer program that when executed by a processor implements the node referencing method of the mind map of the embodiment.

The storage medium provided above stores the computer program for related operations of the method for quickly searching information from a collection provided in the first embodiment, and has corresponding functions and beneficial effects.

Variations and modifications to the above would be obvious to persons skilled in the art to which the invention pertains from the foregoing description and teachings. Therefore, the invention is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the invention should be also included in the scope of the claims of the invention. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present invention in any way.

Claims (3)

1. The node referencing method of the mind map is characterized in that the mind map comprises a center theme, a first branch theme arranged on one side of the center theme and a second branch theme arranged on the other side of the center theme, wherein the first branch theme and the second branch theme respectively comprise a plurality of layers of sub-nodes which take the center theme as root nodes and are distributed to the corresponding sides in a radial manner;

the method comprises the following steps:

a. determining a target node A to which a subordinate node needs to be added;

b. determining the referenced node B: after receiving a node adding instruction, in the same mind map, the target node A belongs to a node in the first branch theme, and a node is selected in the second branch theme to determine the node B;

or after receiving the node addition instruction, selecting a node in other mind graphs to determine the node B;

c. adding a new node C in the lower-level direction of the target node A, and copying the node B to the lower-level position of the target node A in a moving mode to form the node C; or by copying the node B and pasting it at a lower level of the target node a to form the node C, the value of the node C referencing the value of the node B;

generating an array while forming the node C, thereby associating the node B and the node C, changing the node C by changing the node B to synchronize the node C, or changing the node C by changing the node C to synchronize the node B;

and if the node C is added, adding the node C in the peer direction of the original lower node if the original lower node exists in the target node A.

2. An electronic device comprising a processor and a memory, the processor and the memory in communication with each other, the memory configured to store executable instructions that when executed by the processor implement the node referencing method of the mind map of claim 1.

3. A storage medium having stored thereon a computer program which, when executed by a processor, implements the node referencing method of a mind map as claimed in claim 1.