CN112132980A - Thinking guide graph operation method for psychological consultation - Google Patents

Abstract

The invention discloses a mind map operation method for psychological consultation, which is an operation method specially aiming at a psychological consultation mind map, a three-dimensional model of the mind map can be generated according to the operation method, the mind map of the three-dimensional model can more clearly and vividly reflect the hierarchical relationship among all knowledge points or all diagnosis processes, and a user can more clearly know; when the three-dimensional model is operated, the zooming instruction and the modification instruction are special operation instructions for a single node, zooming operation of the single node and a node having a hierarchical relation with the node can be realized through the zooming instruction, modification of theme information of the single node can be realized through the modification instruction, the rotating instruction and the dragging instruction are operation instructions for the whole three-dimensional model, rotation of the whole three-dimensional model can be realized through the rotating instruction, and dragging of the whole three-dimensional model can be realized through the dragging instruction.

Description

Thinking guide graph operation method for psychological consultation

Technical Field

The invention belongs to the technical field of mind maps, and particularly relates to a mind map operation method for psychological consultation.

Background

The thinking guide picture is also called mind picture, is an effective graphic thinking tool for expressing divergent thinking, is simple and extremely effective, is a revolutionary thinking tool, applies the skills of repeated graphics and texts, expresses the relationship of all levels of themes by mutually containing and related hierarchical pictures, and establishes memory link between theme keywords and images, colors and the like. The mind map makes full use of the functions of the left and right brains, and helps people to develop in balance between science, art, logic and imagination by using the rules of memory, reading and thinking, so that the infinite potential of the human brain is opened, and the mind map is widely applied to various disciplines.

The system is huge, strange concepts are numerous, the mutual connection among the concepts is complex, the psychological consultative knowledge venation is constructed through the mind map, understanding and memory are facilitated, psychological consultative knowledge can be better and deeply learned, no thought map operation method for psychological consultative exists at present, most of the existing methods for operating the thought map are operated through a mouse and a keyboard, scaling operation cannot be carried out on a single node, only integral operation cannot be carried out, and single node information and child node information and father node information which have inclusion relation with the node cannot be well displayed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a mind map operation method for psychological consultation, which aims to solve the problems that no mind map operation specially aiming at psychological consultation exists, single node scaling operation cannot be carried out and the like.

The invention solves the technical problems through the following technical scheme: a mind map operating method for psychological counseling, comprising:

generating a thinking guide picture file;

analyzing the thought map file to obtain all node information of the thought map file; all the node information comprises root node information, first-level child node information, N-level child node information and N + 1-level child node information, wherein N is a positive integer;

constructing a three-dimensional coordinate system on a display interface; arranging a root node at the origin of the three-dimensional coordinate system, displaying a first-level child node around the root node according to the hierarchical relationship between the root node and the first-level child node, displaying an N + 1-level child node around an N-level child node corresponding to the N + 1-level child node according to the hierarchical relationship between the N-level child node and the N + 1-level child node, and generating a three-dimensional model of the thought-guiding graph;

detecting and acquiring an operation instruction of a user on the three-dimensional model of the mind map;

operating the three-dimensional model of the mind map according to the operation instruction;

and rendering the processed thought map three-dimensional model and displaying the rendered thought map three-dimensional model on a display interface.

The operation method of the mind map for psychological consultation is an operation method specially aiming at the mind map for psychological consultation, a three-dimensional model of the mind map can be generated according to the operation method, the mind map of the three-dimensional model can more clearly and vividly reflect the hierarchical relationship among all knowledge points or all diagnosis processes, and a user can more clearly know the three-dimensional model.

Further, the specific generation steps of the mind map file are as follows:

defining a display frame according to a psychological consultation knowledge point or a psychological consultation diagnosis process, wherein the display frame comprises a root node and a plurality of first-level child nodes, each N-level child node comprises a plurality of N + 1-level child nodes, and N is a positive integer;

editing a file with a set format according to the display frame;

importing the file with the set format;

calculating the position information of each node in a file with a set format according to the hierarchical relationship between the root node and the first-level child node, and between the N-level child node and the N + 1-level child node;

and adding a root node, a first-level child node, an N-level child node and an N + 1-level child node in a set format file according to the position information to generate a thinking guide graph file.

The mental consultation knowledge or the mental consultation diagnosis process adopts a universal format file to generate the mind map file, the format file does not need to contain the position information of each node, the position information of each node is determined according to a specific knowledge point or a display frame corresponding to the diagnosis process, and the editability is strong.

Further, the set format file includes an xml format file, a json format file, and an html format file.

Further, the construction process of the three-dimensional coordinate system comprises the following steps:

and taking the designated position on the display interface as an origin, wherein a plane formed by the X axis and the Y axis is parallel to the display interface, and the Z axis is vertical to the display interface.

Further, the operation instruction comprises a rotation instruction, a zooming instruction, a modification instruction and a dragging instruction;

the specific operation process of the rotation instruction is as follows:

detecting and acquiring a contact point on the display interface;

the thought guide graph three-dimensional model moves and rotates along with the contact point, so that the target node is positioned in the visual field of the user; the target node is a node which a user wants to view;

the specific operation process of the zoom instruction is as follows:

acquiring a clicking operation to enable a clicked node to be highlighted;

implementing an amplification gesture on the node, arranging the child node and the father node corresponding to the node around the node according to the hierarchical relationship between the node and the child node and the father node corresponding to the node, and amplifying the node and other nodes except the child node and the father node corresponding to the node; or

Implementing a zoom-out gesture on the node, arranging the child node and the father node corresponding to the node around the node according to the hierarchical relationship between the node and the child node and the father node corresponding to the node, and zooming out the node and other nodes except the child node and the father node corresponding to the node;

the child node is a next-level node of the node, and the father node is a previous-level node of the node;

the specific operation process of the modification instruction is as follows:

clicking a node needing to be modified to make the node be highlighted;

detecting and acquiring image-text input information, and replacing the original image-text information of the node with the image-text input information to finish modification of the node theme;

the specific operation process of the dragging instruction is as follows:

acquiring a dragging starting point and a dragging ending point of an operated node;

moving the operated node to the end point, and moving and arranging the child node and the father node corresponding to the operated node around the operated node according to the hierarchical relationship between the child node and the father node corresponding to the operated node and the operated node; and moving and arranging the operated node and the child nodes corresponding to the operated node and other nodes except the father node in sequence according to the hierarchical relationship among the nodes.

The zooming instruction and the modifying instruction are special operation instructions for a single node, zooming operation of the single node and a node having a hierarchical relation with the single node can be achieved through the zooming instruction, modification of theme information of the single node can be achieved through the modifying instruction, the rotating instruction and the dragging instruction are operation instructions for the whole three-dimensional model, rotation of the whole three-dimensional model can be achieved through the rotating instruction, and dragging of the whole three-dimensional model can be achieved through the dragging instruction. The nodes which the user wants to view can be obtained more clearly through the operation instructions, and the nodes are zoomed, modified and the like.

Further, for the drag instruction, after obtaining the drag start point and the drag end point of the operated node and before moving the operated node to the drag end point, the method further includes a step of determining a distance between the drag start point and the drag end point, specifically:

and calculating the distance between the dragging starting point and the dragging ending point, and if the distance is smaller than the threshold distance, the dragging operation is misoperation.

Further, the operation instruction further includes a hidden instruction, and the specific operation process of the hidden instruction is as follows:

acquiring a clicking operation to enable a clicked node to be highlighted;

and hiding other nodes except the clicked node, the child node and the parent node corresponding to the clicked node in the three-dimensional model of the thought map.

Advantageous effects

Compared with the prior art, the mind map operation method for psychological consultation is an operation method specially aiming at the psychological consultation mind map, a three-dimensional model of the mind map can be generated according to the operation method, the mind map of the three-dimensional model can more clearly and vividly reflect the hierarchical relationship among all knowledge points or all diagnosis processes, and a user can more clearly know the mind map; when the three-dimensional model is operated, the zooming instruction and the modification instruction are special operation instructions for a single node, zooming operation of the single node and a node having a hierarchical relation with the node can be realized through the zooming instruction, modification of theme information of the single node can be realized through the modification instruction, the rotating instruction and the dragging instruction are operation instructions for the whole three-dimensional model, rotation of the whole three-dimensional model can be realized through the rotating instruction, and dragging of the whole three-dimensional model can be realized through the dragging instruction.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only one embodiment of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

Fig. 1 is a flowchart of a method of operating a mind map for psychological counseling in an embodiment of the present invention.

Detailed Description

The technical solutions in the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the mind map operating method for psychological consultation provided in the present invention includes:

1. and generating a thinking guide picture file.

The specific generation steps of the mind map file are as follows:

1.1 defining a display frame according to the psychological consultation knowledge points or the psychological consultation diagnosis process, wherein the display frame comprises a root node and a plurality of first-level child nodes, each N-level child node comprises a plurality of N + 1-level child nodes, and N is a positive integer.

The relation among knowledge points or diagnosis processes of psychological consultation is described by adopting a hierarchical relation, the hierarchical relation refers to the inclusion relation among the knowledge points or the diagnosis processes and is expressed by adopting a hierarchical tree, and therefore, the display frame is a frame formed by the hierarchical tree.

1.2 editing the file with set format according to the display frame.

1.3 importing the file with the set format; the set format file comprises an xml format file, a json format file and an html format file.

1.4, calculating the position information of each node in the file with the set format according to the hierarchical relationship between the root node and the first-level child node, and between the N-level child node and the N + 1-level child node.

And 1.5, adding a root node, a first-level child node, an N-level child node and an N + 1-level child node in a set format file according to the position information to generate a thinking guide graph file.

The mental consultation knowledge or the mental consultation diagnosis process adopts a universal format file to generate the mind map file, the format file does not need to contain the position information of each node, the position information of each node is determined according to a specific knowledge point or a display frame corresponding to the diagnosis process, and the editability is strong.

2. Analyzing the thought map file to obtain all node information of the thought map file; all the node information comprises root node information, first-level child node information, N-level child node information and N + 1-level child node information, wherein N is a positive integer.

For the first-level child nodes, the root node is a father node of the first-level child nodes, and the second-level child nodes are child nodes of the first-level child nodes; for the secondary child nodes, the primary child node is a father node of the secondary child node, and the tertiary child node is a child node of the secondary child node; for the N-level child nodes, the N-1 level child node is a father node of the N-level child node, and the N +1 level child node is a child node of the N-level child node.

3. Constructing a three-dimensional coordinate system on a display interface; and arranging a root node at the origin of the three-dimensional coordinate system, displaying a first-level child node around the root node according to the hierarchical relationship between the root node and the first-level child node, displaying an N + 1-level child node around an N-level child node corresponding to the N + 1-level child node according to the hierarchical relationship between the N-level child node and the N + 1-level child node, and generating the three-dimensional model of the thought-guiding graph.

4. And detecting and acquiring an operation instruction of a user on the three-dimensional model of the mind map.

The operation instructions include a rotation instruction, a zoom instruction, a modification instruction, a drag instruction, and a hide instruction.

5. And operating the three-dimensional model of the mind map according to the operation instruction.

(1) The specific operation process of the rotation instruction is as follows:

detecting and acquiring a contact point on the display interface;

the thought guide graph three-dimensional model moves and rotates along with the contact point, so that the target node is positioned in the visual field of the user; the target node is a node which the user wants to view.

(2) The specific operation process of the zoom instruction is as follows:

acquiring a clicking operation to enable a clicked node to be highlighted;

implementing an amplification gesture on the node, arranging the child node and the father node corresponding to the node around the node according to the hierarchical relationship between the node and the child node and the father node corresponding to the node, and amplifying the node and other nodes except the child node and the father node corresponding to the node; or

Implementing a zoom-out gesture on the node, arranging the child node and the father node corresponding to the node around the node according to the hierarchical relationship between the node and the child node and the father node corresponding to the node, and zooming out the node and other nodes except the child node and the father node corresponding to the node; the child node is a next-level node of the node, and the father node is a previous-level node of the node.

(3) The specific operation process of the modification instruction is as follows:

clicking a node needing to be modified to make the node be highlighted;

and detecting and acquiring the image-text input information, and replacing the original image-text information of the node with the image-text input information to finish the modification of the node theme.

(4) The specific operation process of the dragging instruction is as follows:

acquiring a dragging starting point and a dragging ending point of an operated node;

calculating the distance between the dragging starting point and the dragging ending point, and if the distance is smaller than the threshold distance, the dragging operation is misoperation; if the distance is larger than or equal to the threshold distance, then the next step is carried out;

moving the operated node to the end point, and moving and arranging the child node and the father node corresponding to the operated node around the operated node according to the hierarchical relationship between the child node and the father node corresponding to the operated node and the operated node; and moving and arranging the operated node and the child nodes corresponding to the operated node and other nodes except the father node in sequence according to the hierarchical relationship among the nodes.

(5) The specific operation process of the hidden instruction is as follows:

acquiring a clicking operation to enable a clicked node to be highlighted;

and hiding other nodes except the clicked node, the child node and the parent node corresponding to the clicked node in the three-dimensional model of the thought map.

The zooming instruction, the modifying instruction and the hiding instruction are operation instructions specially aiming at a single node, zooming operation of the single node and a node with a hierarchical relationship with the node can be realized through the zooming instruction, modification of theme information of the single node can be realized through the modifying instruction, and hiding of other nodes except the single node and the node with the hierarchical relationship with the node can be realized through the hiding instruction; the rotation instruction and the dragging instruction are operation instructions for the whole three-dimensional model, the rotation of the whole three-dimensional model can be realized through the rotation instruction, and the dragging of the whole three-dimensional model can be realized through the dragging instruction. The nodes which the user wants to view can be obtained more clearly through the operation instructions, and the nodes are zoomed, modified and the like.

6. And rendering the processed thought map three-dimensional model and displaying the rendered thought map three-dimensional model on a display interface.

The operation method of the mind map for psychological consultation is an operation method specially aiming at the mind map for psychological consultation, a three-dimensional model of the mind map can be generated according to the operation method, the mind map of the three-dimensional model can more clearly and vividly reflect the hierarchical relationship among all knowledge points or all diagnosis processes, and a user can more clearly know the three-dimensional model.

The above disclosure is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of changes or modifications within the technical scope of the present invention, and shall be covered by the scope of the present invention.

Claims (7)

1. A mind map operating method for psychological counseling, comprising:

generating a thinking guide picture file;

analyzing the thought map file to obtain all node information of the thought map file; all the node information comprises root node information, first-level child node information, N-level child node information and N + 1-level child node information, wherein N is a positive integer;

constructing a three-dimensional coordinate system on a display interface; arranging a root node at the origin of the three-dimensional coordinate system, displaying a first-level child node around the root node according to the hierarchical relationship between the root node and the first-level child node, displaying an N + 1-level child node around an N-level child node corresponding to the N + 1-level child node according to the hierarchical relationship between the N-level child node and the N + 1-level child node, and generating a three-dimensional model of the thought-guiding graph;

detecting and acquiring an operation instruction of a user on the three-dimensional model of the mind map;

operating the three-dimensional model of the mind map according to the operation instruction;

and rendering the processed thought map three-dimensional model and displaying the rendered thought map three-dimensional model on a display interface.

2. The method of thinking graph operation as claimed in claim 1, wherein: the specific generation steps of the mind map file are as follows:

defining a display frame according to a psychological consultation knowledge point or a psychological consultation diagnosis process, wherein the display frame comprises a root node and a plurality of first-level child nodes, each N-level child node comprises a plurality of N + 1-level child nodes, and N is a positive integer;

editing a file with a set format according to the display frame;

importing the file with the set format;

calculating the position information of each node in a file with a set format according to the hierarchical relationship between the root node and the first-level child node, and between the N-level child node and the N + 1-level child node;

and adding a root node, a first-level child node, an N-level child node and an N + 1-level child node in a set format file according to the position information to generate a thinking guide graph file.

3. The method of thinking graph operation as claimed in claim 2, wherein: the files with the set format comprise xml format files, json format files and html format files.

4. The method of thinking graph operation as claimed in claim 1, wherein: the construction process of the three-dimensional coordinate system comprises the following steps:

and taking the designated position on the display interface as an origin, wherein a plane formed by the X axis and the Y axis is parallel to the display interface, and the Z axis is vertical to the display interface.

5. The method of thinking graph operation as claimed in claim 1, wherein: the operation instruction comprises a rotation instruction, a zooming instruction, a modification instruction and a dragging instruction;

the specific operation process of the rotation instruction is as follows:

detecting and acquiring a contact point on the display interface;

the thought guide graph three-dimensional model moves and rotates along with the contact point, so that the target node is positioned in the visual field of the user; the target node is a node which a user wants to view;

the specific operation process of the zoom instruction is as follows:

acquiring a clicking operation to enable a clicked node to be highlighted;

implementing an amplification gesture on the node, arranging the child node and the father node corresponding to the node around the node according to the hierarchical relationship between the node and the child node and the father node corresponding to the node, and amplifying the node and other nodes except the child node and the father node corresponding to the node; or

Implementing a zoom-out gesture on the node, arranging the child node and the father node corresponding to the node around the node according to the hierarchical relationship between the node and the child node and the father node corresponding to the node, and zooming out the node and other nodes except the child node and the father node corresponding to the node;

the child node is a next-level node of the node, and the father node is a previous-level node of the node;

the specific operation process of the modification instruction is as follows:

clicking a node needing to be modified to make the node be highlighted;

detecting and acquiring image-text input information, and replacing the original image-text information of the node with the image-text input information to finish modification of the node theme;

the specific operation process of the dragging instruction is as follows:

acquiring a dragging starting point and a dragging ending point of an operated node;

moving the operated node to the end point, and moving and arranging the child node and the father node corresponding to the operated node around the operated node according to the hierarchical relationship between the child node and the father node corresponding to the operated node and the operated node; and moving and arranging the operated node and the child nodes corresponding to the operated node and other nodes except the father node in sequence according to the hierarchical relationship among the nodes.

6. The method of thinking graph operation as claimed in claim 1, wherein: for the drag instruction, after obtaining the drag start point and the drag end point of the operated node and before moving the operated node to the drag end point, the method further comprises a step of judging the distance between the drag start point and the drag end point, specifically:

and calculating the distance between the dragging starting point and the dragging ending point, and if the distance is smaller than the threshold distance, the dragging operation is misoperation.

7. The method of thinking graph operation as claimed in claim 1, wherein: the operation instruction further comprises a hiding instruction, and the specific operation process of the hiding instruction is as follows:

acquiring a clicking operation to enable a clicked node to be highlighted;

and hiding other nodes except the clicked node, the child node and the parent node corresponding to the clicked node in the three-dimensional model of the thought map.

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